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Please use this identifier to cite or link to this item: http://hdl.handle.net/2445/124833
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dc.contributor.authorRamírez Benítez, Francisco José-
dc.contributor.authorColl Montón, Marta-
dc.contributor.authorNavarro, Joan-
dc.contributor.authorBustamante, Javier-
dc.contributor.authorGreen, Andy J.-
dc.coverage.spatialMediterranean Sea-
dc.coverage.temporalstart=1981; end=2017-
dc.date.accessioned2018-09-26T11:32:29Z-
dc.date.available2018-10-09T05:10:28Z-
dc.date.issued2018-09-
dc.identifier.urihttp://hdl.handle.net/2445/124833-
dc.descriptionMapes sobre diferents tipus d’impactes en tot el Mar Mediterrani. Dades primàries (mapes) associades a un article acceptat per la revista Scientific Reports (2018). Publicat a: https://doi.org/10.1038/s41598-018-33237-w-
dc.description.sponsorshipDades primàries (mapes) associades a un article publicat a la revista Scientific Reports, 2018, vol. 8. http://doi.org/10.1038/s41598-018-33237-wca
dc.format.extent38 imatges-
dc.format.mimetypeimage/tiff-
dc.language.isoengca
dc.relation.urihttps://doi.org/10.1038/s41598-018-33237-w-
dc.relation.urihttp://hdl.handle.net/2445/177409-
dc.rightscc-by (c) Ramírez Benítez, Francisco José et al., 2018-
dc.rights.urihttp://creativecommons.org/licenses/by/3.0/es/*
dc.sourceDades - Recerca-
dc.subject.classificationMediterrània (Mar)cat
dc.subject.classificationAvaluació d'impacte ambientalcat
dc.subject.classificationEcosistemes-
dc.subject.otherMediterranean Seaeng
dc.subject.otherEnvironmental impact analysiseng
dc.subject.otherBiotic communities-
dc.titleSpatial congruence between multiple stressors in the Mediterranean Sea may reduce its resilience to climate impacts (Maps - Raw data)ca
dc.typeinfo:eu-repo/semantics/datasetca
dc.typeinfo:eu-repo/semantics/other-
dc.typeinfo:eu-repo/semantics/submittedVersion-
dc.rights.accessRightsinfo:eu-repo/semantics/openAccess-
dc.identifier.pmid30291298-
Appears in Collections:Dades (Biologia Evolutiva, Ecologia i Ciències Ambientals)
Dades - Recerca

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sst_max1981_2017_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of sea surface temperature for the 1981-2017 period.54.93 kBTIFFView/Open
sst_max1981_2017_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of sea surface temperature for the 1981-2017 period.49.43 kBTIFFView/Open
sst_mean1981_2017_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of mean annual values of sea surface temperature for the 1981-2017 period.55.21 kBTIFFView/Open
sst_mean1981_2017_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of mean annual values of sea surface temperature for the 1981-2017 period.51.52 kBTIFFView/Open
sst_min1981_2017_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of sea surface temperature for the 1981-2017 period.55.22 kBTIFFView/Open
sst_min1981_2017_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of sea surface temperature for the 1981-2017 period.49.45 kBTIFFView/Open
nit_max1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of nitrate concentrations for the 1999-2016 period.684.47 kBTIFFView/Open
nit_max1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of nitrate concentrations for the 1999-2016 period.637.14 kBTIFFView/Open
nit_mean1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of mean annual values of nitrate concentrations for the 1999-2016 period.676.59 kBTIFFView/Open
nit_mean1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of mean annual values of nitrate concentrations for the 1999-2016 period.654.21 kBTIFFView/Open
nit_min1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of nitrate concentrations for the 1999-2016 period.669.99 kBTIFFView/Open
nit_min1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of nitrate concentrations for the 1999-2016 period.648.02 kBTIFFView/Open
npp_max1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of net primary production for the 1999-2016 period.677.9 kBTIFFView/Open
npp_max1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of net primary production for the 1999-2016 period.644.5 kBTIFFView/Open
npp_mean1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of mean annual values of net primary production for the 1999-2016 period.680.64 kBTIFFView/Open
npp_mean1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of mean annual values of net primary production for the 1999-2016 period.660.88 kBTIFFView/Open
npp_min1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of net primary production for the 1999-2016 period.673.63 kBTIFFView/Open
npp_min1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of net primary production for the 1999-2016 period.651.45 kBTIFFView/Open
dox_max1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of dissolved oxygen concentrations for the 1999-2016 period.672.69 kBTIFFView/Open
dox_max1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of dissolved oxygen concentrations for the 1999-2016 period.637.87 kBTIFFView/Open
dox_mean1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of mean annual values of dissolved oxygen concentrations for the 1999-2016 period.678.44 kBTIFFView/Open
dox_mean1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of mean annual values of dissolved oxygen concentrations for the 1999-2016 period.664.88 kBTIFFView/Open
dox_min1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of dissolved oxygen concentrations for the 1999-2016 period.675.71 kBTIFFView/Open
dox_min1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of dissolved oxygen concentrations for the 1999-2016 period.638.09 kBTIFFView/Open
pco_max1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of CO2 partial pressure for the 1999-2016 period.688.81 kBTIFFView/Open
pco_max1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of CO2 partial pressure for the 1999-2016 period.626.67 kBTIFFView/Open
pco_mean1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of mean annual values of CO2 partial pressure for the 1999-2016 period.690.77 kBTIFFView/Open
pco_mean1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of mean annual values of CO2 partial pressure for the 1999-2016 period.652.47 kBTIFFView/Open
pco_min1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of CO2 partial pressure for the 1999-2016 period.682.36 kBTIFFView/Open
pco_min1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of CO2 partial pressure for the 1999-2016 period.628.28 kBTIFFView/Open
ph_max1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of pH for the 1999-2016 period.679.12 kBTIFFView/Open
ph_max1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of pH for the 1999-2016 period.637.29 kBTIFFView/Open
ph_mean1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of mean annual values of pH for the 1999-2016 period.688.45 kBTIFFView/Open
ph_mean1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of mean annual values of pH for the 1999-2016 period.654.65 kBTIFFView/Open
ph_min1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of pH for the 1999-2016 period.686.53 kBTIFFView/Open
ph_min1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of pH for the 1999-2016 period.626.6 kBTIFFView/Open
pho_max1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of phosphate concentration for the 1999-2016 period.675.32 kBTIFFView/Open
pho_max1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of maximum annual values of phosphate concentration for the 1999-2016 period.649.57 kBTIFFView/Open
pho_mean1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of mean annual values of phosphate concentration for the 1999-2016 period.673.42 kBTIFFView/Open
pho_mean1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of mean annual values of phosphate concentration for the 1999-2016 period.673.13 kBTIFFView/Open
pho_min1999_2016_pvalue.tifPixel basis significances of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of phosphate concentration for the 1999-2016 period.679.3 kBTIFFView/Open
pho_min1999_2016_slopes.tifPixel basis slopes of the least squared linear regressions used for evaluating the temporal trends of minimum annual values of phosphate concentration for the 1999-2016 period.644.06 kBTIFFView/Open
feffort_med.tifSpatial distribution of fishing pressure based on data from: Kroodsma, D. A. et al. Tracking the global footprint of fisheries. Science 359, 904–908 (2018).109.25 kBTIFFView/Open
cumulative_index.tifIndex of cumulative impact of equally-weighted changes in all different environmental stressors: from climate impacts to changes in ocean biochemistry and fishing impacts43.87 kBTIFFView/Open
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