EMODNET Chemistry - Concentration Maps

Water body nox masked using relative error threshold 0.5 (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Water body nox (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Water body nox masked using relative error threshold 0.3 (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Logarithm10 of number of data in bins (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_nox.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Correlation length field (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_nox.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Deepest values of Water body nox masked using relative error threshold 0.3 (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Water body phosphate masked using relative error threshold 0.5 (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Water body phosphate (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Water body phosphate masked using relative error threshold 0.3 (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Logarithm10 of number of data in bins (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Correlation length field (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Water body silicate masked using relative error threshold 0.5 (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Water body silicate (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Water body silicate masked using relative error threshold 0.3 (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Logarithm10 of number of data in bins (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Correlation length field (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Deepest values of Water body silicate masked using relative error threshold 0.3 (Atlantic Sea/Autumn (October-December) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (Oct-Dec)

Water body nox masked using relative error threshold 0.5 (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Water body nox (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Water body nox masked using relative error threshold 0.3 (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Logarithm10 of number of data in bins (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_nox.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Correlation length field (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_nox.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Deepest values of Water body nox masked using relative error threshold 0.3 (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Water body phosphate masked using relative error threshold 0.5 (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Water body phosphate (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Water body phosphate masked using relative error threshold 0.3 (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Logarithm10 of number of data in bins (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Correlation length field (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Water body silicate masked using relative error threshold 0.5 (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Water body silicate (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Water body silicate masked using relative error threshold 0.3 (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Logarithm10 of number of data in bins (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Correlation length field (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Deepest values of Water body silicate masked using relative error threshold 0.3 (Atlantic Sea/Spring (April-June) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the spring season (Apr-Jun)

Water body nox masked using relative error threshold 0.5 (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Water body nox (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Water body nox masked using relative error threshold 0.3 (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Logarithm10 of number of data in bins (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_nox.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Correlation length field (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_nox.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Deepest values of Water body nox masked using relative error threshold 0.3 (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Water body phosphate masked using relative error threshold 0.5 (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Water body phosphate (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Water body phosphate masked using relative error threshold 0.3 (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Logarithm10 of number of data in bins (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Correlation length field (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Water body silicate masked using relative error threshold 0.5 (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Water body silicate (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Water body silicate masked using relative error threshold 0.3 (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Logarithm10 of number of data in bins (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Correlation length field (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Deepest values of Water body silicate masked using relative error threshold 0.3 (Atlantic Sea/Summer (July-September) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (Jul-Sept)

Water body nox masked using relative error threshold 0.5 (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Water body nox (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Water body nox masked using relative error threshold 0.3 (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Logarithm10 of number of data in bins (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_nox.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Correlation length field (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_nox.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Deepest values of Water body nox masked using relative error threshold 0.3 (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_nox.4Danl.nc*Water_body_nox_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Water body phosphate masked using relative error threshold 0.5 (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Water body phosphate (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Water body phosphate masked using relative error threshold 0.3 (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Logarithm10 of number of data in bins (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Correlation length field (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Water body silicate masked using relative error threshold 0.5 (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Water body silicate (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Water body silicate masked using relative error threshold 0.3 (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Logarithm10 of number of data in bins (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Correlation length field (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Deepest values of Water body silicate masked using relative error threshold 0.3 (Atlantic Sea/Winter (January-March) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (Jan-Mar)

Water body ammonium masked using relative error threshold 0.5 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body ammonium (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body ammonium masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Logarithm10 of number of data in bins (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Correlation length field (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Deepest values of Water body ammonium masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body nitrate masked using relative error threshold 0.5 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body nitrate (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body nitrate masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Logarithm10 of number of data in bins (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Correlation length field (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Deepest values of Water body nitrate masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body nitrate plus nitrite masked using relative error threshold 0.5 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body nitrate plus nitrite (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body nitrate plus nitrite masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Logarithm10 of number of data in bins (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Correlation length field (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Deepest values of Water body nitrate plus nitrite masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body phosphate masked using relative error threshold 0.5 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body phosphate (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body phosphate masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Logarithm10 of number of data in bins (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Correlation length field (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body silicate masked using relative error threshold 0.5 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body silicate (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body silicate masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Logarithm10 of number of data in bins (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Correlation length field (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Deepest values of Water body silicate masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body total nitrogen masked using relative error threshold 0.5 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body total nitrogen (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body total nitrogen masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Logarithm10 of number of data in bins (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Correlation length field (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Deepest values of Water body total nitrogen masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body total phosphorus masked using relative error threshold 0.5 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body total phosphorus (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body total phosphorus masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Logarithm10 of number of data in bins (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Correlation length field (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Deepest values of Water body total phosphorus masked using relative error threshold 0.3 (Baltic Sea/Autumn (September-November) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the autumn season (September-November)

Water body ammonium masked using relative error threshold 0.5 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body ammonium (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body ammonium masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Logarithm10 of number of data in bins (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Correlation length field (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Deepest values of Water body ammonium masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body nitrate masked using relative error threshold 0.5 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body nitrate (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body nitrate masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Logarithm10 of number of data in bins (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Correlation length field (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Deepest values of Water body nitrate masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body nitrate plus nitrite masked using relative error threshold 0.5 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body nitrate plus nitrite (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body nitrate plus nitrite masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Logarithm10 of number of data in bins (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Correlation length field (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Deepest values of Water body nitrate plus nitrite masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body phosphate masked using relative error threshold 0.5 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body phosphate (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body phosphate masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Logarithm10 of number of data in bins (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Correlation length field (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body silicate masked using relative error threshold 0.5 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body silicate (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body silicate masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Logarithm10 of number of data in bins (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Correlation length field (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Deepest values of Water body silicate masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body total nitrogen masked using relative error threshold 0.5 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body total nitrogen (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body total nitrogen masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Logarithm10 of number of data in bins (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Correlation length field (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Deepest values of Water body total nitrogen masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body total phosphorus masked using relative error threshold 0.5 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body total phosphorus (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body total phosphorus masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Logarithm10 of number of data in bins (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Correlation length field (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Deepest values of Water body total phosphorus masked using relative error threshold 0.3 (Baltic Sea/Spring (March-May) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the spring season (March-May)

Water body ammonium masked using relative error threshold 0.5 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body ammonium (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body ammonium masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Logarithm10 of number of data in bins (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Correlation length field (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Deepest values of Water body ammonium masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body nitrate masked using relative error threshold 0.5 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body nitrate (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body nitrate masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Logarithm10 of number of data in bins (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Correlation length field (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Deepest values of Water body nitrate masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body nitrate plus nitrite masked using relative error threshold 0.5 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body nitrate plus nitrite (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body nitrate plus nitrite masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Logarithm10 of number of data in bins (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Correlation length field (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Deepest values of Water body nitrate plus nitrite masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body phosphate masked using relative error threshold 0.5 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body phosphate (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body phosphate masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Logarithm10 of number of data in bins (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Correlation length field (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body silicate masked using relative error threshold 0.5 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body silicate (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body silicate masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Logarithm10 of number of data in bins (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Correlation length field (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Deepest values of Water body silicate masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body total nitrogen masked using relative error threshold 0.5 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body total nitrogen (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body total nitrogen masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Logarithm10 of number of data in bins (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Correlation length field (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Deepest values of Water body total nitrogen masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body total phosphorus masked using relative error threshold 0.5 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body total phosphorus (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body total phosphorus masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Logarithm10 of number of data in bins (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Correlation length field (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Deepest values of Water body total phosphorus masked using relative error threshold 0.3 (Baltic Sea/Summer (June-August) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the summer season (June-August)

Water body ammonium masked using relative error threshold 0.5 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body ammonium (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body ammonium masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Logarithm10 of number of data in bins (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Correlation length field (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Deepest values of Water body ammonium masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body nitrate masked using relative error threshold 0.5 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body nitrate (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body nitrate masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Logarithm10 of number of data in bins (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Correlation length field (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Deepest values of Water body nitrate masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body nitrate plus nitrite masked using relative error threshold 0.5 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body nitrate plus nitrite (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body nitrate plus nitrite masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Logarithm10 of number of data in bins (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Correlation length field (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Deepest values of Water body nitrate plus nitrite masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body phosphate masked using relative error threshold 0.5 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body phosphate (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body phosphate masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Logarithm10 of number of data in bins (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Correlation length field (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body silicate masked using relative error threshold 0.5 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body silicate (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body silicate masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Logarithm10 of number of data in bins (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Correlation length field (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Deepest values of Water body silicate masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body total nitrogen masked using relative error threshold 0.5 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body total nitrogen (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body total nitrogen masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Logarithm10 of number of data in bins (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Correlation length field (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Deepest values of Water body total nitrogen masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body total phosphorus masked using relative error threshold 0.5 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body total phosphorus (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body total phosphorus masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Logarithm10 of number of data in bins (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Correlation length field (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Deepest values of Water body total phosphorus masked using relative error threshold 0.3 (Baltic Sea/Winter (December-February) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the winter season (December-February)

Water body ammonium masked using relative error threshold 0.5 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Water body ammonium (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Water body ammonium masked using relative error threshold 0.3 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Logarithm10 of number of data in bins (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Correlation length field (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Deepest values of Water body ammonium masked using relative error threshold 0.3 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Water body nitrate masked using relative error threshold 0.5 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Water body nitrate (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Water body nitrate masked using relative error threshold 0.3 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Logarithm10 of number of data in bins (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Correlation length field (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Deepest values of Water body nitrate masked using relative error threshold 0.3 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Water body nitrate plus nitrite masked using relative error threshold 0.5 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Water body nitrate plus nitrite (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Water body nitrate plus nitrite masked using relative error threshold 0.3 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Logarithm10 of number of data in bins (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Correlation length field (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Deepest values of Water body nitrate plus nitrite masked using relative error threshold 0.3 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Water body phosphate masked using relative error threshold 0.5 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (September-November)

Water body phosphate (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (September-November)

Water body phosphate masked using relative error threshold 0.3 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (September-November)

Logarithm10 of number of data in bins (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (September-November)

Correlation length field (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (September-November)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the autumn season (September-November)

Water body silicate masked using relative error threshold 0.5 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Water body silicate (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Water body silicate masked using relative error threshold 0.3 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Logarithm10 of number of data in bins (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Correlation length field (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Deepest values of Water body silicate masked using relative error threshold 0.3 (Black Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Autumn season (September-November)

Water body ammonium masked using relative error threshold 0.5 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body ammonium (Black Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body ammonium masked using relative error threshold 0.3 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Logarithm10 of number of data in bins (Black Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Correlation length field (Black Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Deepest values of Water body ammonium masked using relative error threshold 0.3 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body nitrate masked using relative error threshold 0.5 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body nitrate (Black Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body nitrate masked using relative error threshold 0.3 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Logarithm10 of number of data in bins (Black Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Correlation length field (Black Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Deepest values of Water body nitrate masked using relative error threshold 0.3 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body nitrate plus nitrite masked using relative error threshold 0.5 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body nitrate plus nitrite (Black Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body nitrate plus nitrite masked using relative error threshold 0.3 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Logarithm10 of number of data in bins (Black Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Correlation length field (Black Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Deepest values of Water body nitrate plus nitrite masked using relative error threshold 0.3 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body phosphate masked using relative error threshold 0.5 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body phosphate (Black Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body phosphate masked using relative error threshold 0.3 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Logarithm10 of number of data in bins (Black Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Correlation length field (Black Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body silicate masked using relative error threshold 0.5 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body silicate (Black Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body silicate masked using relative error threshold 0.3 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Logarithm10 of number of data in bins (Black Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Correlation length field (Black Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Deepest values of Water body silicate masked using relative error threshold 0.3 (Black Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Spring season (March-May)

Water body ammonium masked using relative error threshold 0.5 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Water body ammonium (Black Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Water body ammonium masked using relative error threshold 0.3 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Logarithm10 of number of data in bins (Black Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Correlation length field (Black Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Deepest values of Water body ammonium masked using relative error threshold 0.3 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Water body nitrate masked using relative error threshold 0.5 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Water body nitrate (Black Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Water body nitrate masked using relative error threshold 0.3 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Logarithm10 of number of data in bins (Black Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Correlation length field (Black Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Deepest values of Water body nitrate masked using relative error threshold 0.3 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Water body nitrate plus nitrite masked using relative error threshold 0.5 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Water body nitrate plus nitrite (Black Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Water body nitrate plus nitrite masked using relative error threshold 0.3 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Logarithm10 of number of data in bins (Black Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Correlation length field (Black Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Deepest values of Water body nitrate plus nitrite masked using relative error threshold 0.3 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Water body phosphate masked using relative error threshold 0.5 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (June-August)

Water body phosphate (Black Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (June-August)

Water body phosphate masked using relative error threshold 0.3 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (June-August)

Logarithm10 of number of data in bins (Black Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (June-August)

Correlation length field (Black Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (June-August)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the summer season (June-August)

Water body silicate masked using relative error threshold 0.5 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Water body silicate (Black Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Water body silicate masked using relative error threshold 0.3 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Logarithm10 of number of data in bins (Black Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Correlation length field (Black Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Deepest values of Water body silicate masked using relative error threshold 0.3 (Black Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Summer season (June-August)

Water body ammonium masked using relative error threshold 0.5 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Water body ammonium (Black Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Water body ammonium masked using relative error threshold 0.3 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Logarithm10 of number of data in bins (Black Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Correlation length field (Black Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Deepest values of Water body ammonium masked using relative error threshold 0.3 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Water body nitrate masked using relative error threshold 0.5 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Water body nitrate (Black Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Water body nitrate masked using relative error threshold 0.3 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Logarithm10 of number of data in bins (Black Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Correlation length field (Black Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Deepest values of Water body nitrate masked using relative error threshold 0.3 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Water body nitrate plus nitrite masked using relative error threshold 0.5 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Water body nitrate plus nitrite (Black Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Water body nitrate plus nitrite masked using relative error threshold 0.3 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Logarithm10 of number of data in bins (Black Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Correlation length field (Black Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Deepest values of Water body nitrate plus nitrite masked using relative error threshold 0.3 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate_plus_nitrite.4Danl.nc*Water_body_nitrate_plus_nitrite_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Water body phosphate masked using relative error threshold 0.5 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (December-February)

Water body phosphate (Black Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (December-February)

Water body phosphate masked using relative error threshold 0.3 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (December-February)

Logarithm10 of number of data in bins (Black Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (December-February)

Correlation length field (Black Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (December-February)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter season (December-February)

Water body silicate masked using relative error threshold 0.5 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Water body silicate (Black Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Water body silicate masked using relative error threshold 0.3 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Logarithm10 of number of data in bins (Black Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Correlation length field (Black Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Deepest values of Water body silicate masked using relative error threshold 0.3 (Black Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the Winter season (December-February)

Water body nitrate masked using relative error threshold 0.5 (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body nitrate (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body nitrate masked using relative error threshold 0.3 (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Logarithm10 of number of data in bins (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Correlation length field (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Deepest values of Water body nitrate masked using relative error threshold 0.3 (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body phosphate masked using relative error threshold 0.5 (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body phosphate (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body phosphate masked using relative error threshold 0.3 (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Logarithm10 of number of data in bins (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Correlation length field (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body silicate masked using relative error threshold 0.5 (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body silicate (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body silicate masked using relative error threshold 0.3 (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Logarithm10 of number of data in bins (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Correlation length field (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Deepest values of Water body silicate masked using relative error threshold 0.3 (Mediterranean Sea/Autumn (October-December) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body nitrate masked using relative error threshold 0.5 (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body nitrate (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body nitrate masked using relative error threshold 0.3 (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Logarithm10 of number of data in bins (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Correlation length field (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Deepest values of Water body nitrate masked using relative error threshold 0.3 (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body phosphate masked using relative error threshold 0.5 (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body phosphate (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body phosphate masked using relative error threshold 0.3 (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Logarithm10 of number of data in bins (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Correlation length field (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body silicate masked using relative error threshold 0.5 (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body silicate (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body silicate masked using relative error threshold 0.3 (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Logarithm10 of number of data in bins (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Correlation length field (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Deepest values of Water body silicate masked using relative error threshold 0.3 (Mediterranean Sea/Spring (April-June) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body nitrate masked using relative error threshold 0.5 (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body nitrate (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body nitrate masked using relative error threshold 0.3 (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Logarithm10 of number of data in bins (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Correlation length field (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Deepest values of Water body nitrate masked using relative error threshold 0.3 (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body phosphate masked using relative error threshold 0.5 (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body phosphate (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body phosphate masked using relative error threshold 0.3 (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Logarithm10 of number of data in bins (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Correlation length field (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body silicate masked using relative error threshold 0.5 (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body silicate (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body silicate masked using relative error threshold 0.3 (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Logarithm10 of number of data in bins (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Correlation length field (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Deepest values of Water body silicate masked using relative error threshold 0.3 (Mediterranean Sea/Summer (July-September) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body nitrate masked using relative error threshold 0.5 (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body nitrate (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body nitrate masked using relative error threshold 0.3 (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Logarithm10 of number of data in bins (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Correlation length field (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Deepest values of Water body nitrate masked using relative error threshold 0.3 (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body phosphate masked using relative error threshold 0.5 (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body phosphate (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body phosphate masked using relative error threshold 0.3 (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Logarithm10 of number of data in bins (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Correlation length field (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Deepest values of Water body phosphate masked using relative error threshold 0.3 (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body silicate masked using relative error threshold 0.5 (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body silicate (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body silicate masked using relative error threshold 0.3 (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Logarithm10 of number of data in bins (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Correlation length field (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Deepest values of Water body silicate masked using relative error threshold 0.3 (Mediterranean Sea/Winter (January-March) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centred average for the winter (Jan-Mar) or spring (Apr-Jun) or summer (Jul-Sept) or automn (Oct-Dec) season

Water body ammonium masked using relative error threshold 0.5 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Water body ammonium (North Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Water body ammonium masked using relative error threshold 0.3 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Logarithm10 of number of data in bins (North Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Correlation length field (North Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Deepest values of Water body ammonium masked using relative error threshold 0.3 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Water body nitrate masked using relative error threshold 0.5 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Water body nitrate (North Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Water body nitrate masked using relative error threshold 0.3 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Logarithm10 of number of data in bins (North Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Correlation length field (North Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Deepest values of Water body nitrate masked using relative error threshold 0.3 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Water body phosphate masked using relative error threshold 0.5 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Water body phosphate (North Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Water body phosphate masked using relative error threshold 0.3 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Logarithm10 of number of data in bins (North Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Correlation length field (North Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Deepest values of Water body phosphate masked using relative error threshold 0.3 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Water body silicate masked using relative error threshold 0.5 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Water body silicate (North Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Water body silicate masked using relative error threshold 0.3 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Logarithm10 of number of data in bins (North Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Correlation length field (North Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Deepest values of Water body silicate masked using relative error threshold 0.3 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn season (September - November)

Water body total nitrogen masked using relative error threshold 0.5 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Water body total nitrogen (North Sea/Autumn (September-November) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Water body total nitrogen masked using relative error threshold 0.3 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Logarithm10 of number of data in bins (North Sea/Autumn (September-November) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Correlation length field (North Sea/Autumn (September-November) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Deepest values of Water body total nitrogen masked using relative error threshold 0.3 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Water body total phosphorus masked using relative error threshold 0.5 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Water body total phosphorus (North Sea/Autumn (September-November) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Water body total phosphorus masked using relative error threshold 0.3 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Logarithm10 of number of data in bins (North Sea/Autumn (September-November) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Correlation length field (North Sea/Autumn (September-November) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Deepest values of Water body total phosphorus masked using relative error threshold 0.3 (North Sea/Autumn (September-November) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Autumn (September - November)

Water body ammonium masked using relative error threshold 0.5 (North Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Water body ammonium (North Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Water body ammonium masked using relative error threshold 0.3 (North Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Logarithm10 of number of data in bins (North Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Correlation length field (North Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Deepest values of Water body ammonium masked using relative error threshold 0.3 (North Sea/Spring (March-May) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Water body nitrate masked using relative error threshold 0.5 (North Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Water body nitrate (North Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Water body nitrate masked using relative error threshold 0.3 (North Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Logarithm10 of number of data in bins (North Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Correlation length field (North Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Deepest values of Water body nitrate masked using relative error threshold 0.3 (North Sea/Spring (March-May) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Water body phosphate masked using relative error threshold 0.5 (North Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Water body phosphate (North Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Water body phosphate masked using relative error threshold 0.3 (North Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Logarithm10 of number of data in bins (North Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Correlation length field (North Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Deepest values of Water body phosphate masked using relative error threshold 0.3 (North Sea/Spring (March-May) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Water body silicate masked using relative error threshold 0.5 (North Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Water body silicate (North Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Water body silicate masked using relative error threshold 0.3 (North Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Logarithm10 of number of data in bins (North Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Correlation length field (North Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Deepest values of Water body silicate masked using relative error threshold 0.3 (North Sea/Spring (March-May) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring season (March - May).

Water body total nitrogen masked using relative error threshold 0.5 (North Sea/Spring (March-May) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Water body total nitrogen (North Sea/Spring (March-May) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Water body total nitrogen masked using relative error threshold 0.3 (North Sea/Spring (March-May) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Logarithm10 of number of data in bins (North Sea/Spring (March-May) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Correlation length field (North Sea/Spring (March-May) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Deepest values of Water body total nitrogen masked using relative error threshold 0.3 (North Sea/Spring (March-May) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Water body total phosphorus masked using relative error threshold 0.5 (North Sea/Spring (March-May) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Water body total phosphorus (North Sea/Spring (March-May) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Water body total phosphorus masked using relative error threshold 0.3 (North Sea/Spring (March-May) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Logarithm10 of number of data in bins (North Sea/Spring (March-May) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Correlation length field (North Sea/Spring (March-May) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Deepest values of Water body total phosphorus masked using relative error threshold 0.3 (North Sea/Spring (March-May) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Spring (March - May)

Water body ammonium masked using relative error threshold 0.5 (North Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Water body ammonium (North Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Water body ammonium masked using relative error threshold 0.3 (North Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Logarithm10 of number of data in bins (North Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Correlation length field (North Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Deepest values of Water body ammonium masked using relative error threshold 0.3 (North Sea/Summer (June-August) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Water body nitrate masked using relative error threshold 0.5 (North Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Water body nitrate (North Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Water body nitrate masked using relative error threshold 0.3 (North Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Logarithm10 of number of data in bins (North Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Correlation length field (North Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Deepest values of Water body nitrate masked using relative error threshold 0.3 (North Sea/Summer (June-August) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Water body phosphate masked using relative error threshold 0.5 (North Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Water body phosphate (North Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Water body phosphate masked using relative error threshold 0.3 (North Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Logarithm10 of number of data in bins (North Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Correlation length field (North Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Deepest values of Water body phosphate masked using relative error threshold 0.3 (North Sea/Summer (June-August) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Water body silicate masked using relative error threshold 0.5 (North Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Water body silicate (North Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Water body silicate masked using relative error threshold 0.3 (North Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Logarithm10 of number of data in bins (North Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Correlation length field (North Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Deepest values of Water body silicate masked using relative error threshold 0.3 (North Sea/Summer (June-August) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer season (June - August).

Water body total nitrogen masked using relative error threshold 0.5 (North Sea/Summer (June-August) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Water body total nitrogen (North Sea/Summer (June-August) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Water body total nitrogen masked using relative error threshold 0.3 (North Sea/Summer (June-August) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Logarithm10 of number of data in bins (North Sea/Summer (June-August) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Correlation length field (North Sea/Summer (June-August) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Deepest values of Water body total nitrogen masked using relative error threshold 0.3 (North Sea/Summer (June-August) - 10-years running averages/Water_body_total_nitrogen.4Danl.nc*Water_body_total_nitrogen_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Water body total phosphorus masked using relative error threshold 0.5 (North Sea/Summer (June-August) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Water body total phosphorus (North Sea/Summer (June-August) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Water body total phosphorus masked using relative error threshold 0.3 (North Sea/Summer (June-August) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Logarithm10 of number of data in bins (North Sea/Summer (June-August) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Correlation length field (North Sea/Summer (June-August) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Deepest values of Water body total phosphorus masked using relative error threshold 0.3 (North Sea/Summer (June-August) - 10-years running averages/Water_body_total_phosphorus.4Danl.nc*Water_body_total_phosphorus_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Summer (June - August)

Water body ammonium masked using relative error threshold 0.5 (North Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter (December - February)

Water body ammonium (North Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter (December - February)

Water body ammonium masked using relative error threshold 0.3 (North Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter (December - February)

Logarithm10 of number of data in bins (North Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter (December - February)

Correlation length field (North Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter (December - February)

Deepest values of Water body ammonium masked using relative error threshold 0.3 (North Sea/Winter (December-February) - 10-years running averages/Water_body_ammonium.4Danl.nc*Water_body_ammonium_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter (December - February)

Water body nitrate masked using relative error threshold 0.5 (North Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Water body nitrate (North Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Water body nitrate masked using relative error threshold 0.3 (North Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Logarithm10 of number of data in bins (North Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Correlation length field (North Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Deepest values of Water body nitrate masked using relative error threshold 0.3 (North Sea/Winter (December-February) - 10-years running averages/Water_body_nitrate.4Danl.nc*Water_body_nitrate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Water body phosphate masked using relative error threshold 0.5 (North Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Water body phosphate (North Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Water body phosphate masked using relative error threshold 0.3 (North Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Logarithm10 of number of data in bins (North Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Correlation length field (North Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Deepest values of Water body phosphate masked using relative error threshold 0.3 (North Sea/Winter (December-February) - 10-years running averages/Water_body_phosphate.4Danl.nc*Water_body_phosphate_deepest_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Water body silicate masked using relative error threshold 0.5 (North Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L2)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Water body silicate (North Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Water body silicate masked using relative error threshold 0.3 (North Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_L1)

Units: umol/l Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Logarithm10 of number of data in bins (North Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*databins)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Correlation length field (North Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*CLfield)

Method: spatial interpolation produced with DIVA (Data-Interpolating Variational Analysis) URL: http://modb.oce.ulg.ac.be/DIVA Comment: Every year of the time dimension corresponds to a 10-year centered average for the season: Winter season (December – February).

Deepest values of Water body silicate masked using relative error threshold 0.3 (North Sea/Winter (December-February) - 10-years running averages/Water_body_silicate.4Danl.nc*Water_body_silicate_deepest_L1)