An assessment of phytoplankton primary productivity in the Arctic Ocean from satellite ocean color/in situ chlorophyll‐a based models

We investigated 32 net primary productivity (NPP) models by assessing skills to reproduce integrated NPP in the Arctic Ocean. The models were provided with two sources each of surface chlorophyll‐a concentration (chlorophyll), photosynthetically available radiation (PAR), sea surface temperature (SS...

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Autores principales: Lee, Younjoo J., Matrai, Patricia A., Friedrichs, Marjorie A. M., Saba, Vincent S., Antoine, David, Ardyna, Mathieu, Asanuma, Ichio, Babin, Marcel, Bélanger, Simon, Benoît‐Gagné, Maxime, Devred, Emmanuel, Fernández‐Méndez, Mar, Gentili, Bernard, Hirawake, Toru, Kang, Sung‐Ho, Kameda, Takahiko, Katlein, Christian, Lee, Sang H., Lee, Zhongping, Mélin, Frédéric, Scardi, Michele, Smyth, Tim J., Tang, Shilin, Turpie, Kevin R., Waters, Kirk J., Westberry, Toby K.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2015
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5014238/
https://www.ncbi.nlm.nih.gov/pubmed/27668139
http://dx.doi.org/10.1002/2015JC011018
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author Lee, Younjoo J.
Matrai, Patricia A.
Friedrichs, Marjorie A. M.
Saba, Vincent S.
Antoine, David
Ardyna, Mathieu
Asanuma, Ichio
Babin, Marcel
Bélanger, Simon
Benoît‐Gagné, Maxime
Devred, Emmanuel
Fernández‐Méndez, Mar
Gentili, Bernard
Hirawake, Toru
Kang, Sung‐Ho
Kameda, Takahiko
Katlein, Christian
Lee, Sang H.
Lee, Zhongping
Mélin, Frédéric
Scardi, Michele
Smyth, Tim J.
Tang, Shilin
Turpie, Kevin R.
Waters, Kirk J.
Westberry, Toby K.
author_facet Lee, Younjoo J.
Matrai, Patricia A.
Friedrichs, Marjorie A. M.
Saba, Vincent S.
Antoine, David
Ardyna, Mathieu
Asanuma, Ichio
Babin, Marcel
Bélanger, Simon
Benoît‐Gagné, Maxime
Devred, Emmanuel
Fernández‐Méndez, Mar
Gentili, Bernard
Hirawake, Toru
Kang, Sung‐Ho
Kameda, Takahiko
Katlein, Christian
Lee, Sang H.
Lee, Zhongping
Mélin, Frédéric
Scardi, Michele
Smyth, Tim J.
Tang, Shilin
Turpie, Kevin R.
Waters, Kirk J.
Westberry, Toby K.
author_sort Lee, Younjoo J.
collection PubMed
description We investigated 32 net primary productivity (NPP) models by assessing skills to reproduce integrated NPP in the Arctic Ocean. The models were provided with two sources each of surface chlorophyll‐a concentration (chlorophyll), photosynthetically available radiation (PAR), sea surface temperature (SST), and mixed‐layer depth (MLD). The models were most sensitive to uncertainties in surface chlorophyll, generally performing better with in situ chlorophyll than with satellite‐derived values. They were much less sensitive to uncertainties in PAR, SST, and MLD, possibly due to relatively narrow ranges of input data and/or relatively little difference between input data sources. Regardless of type or complexity, most of the models were not able to fully reproduce the variability of in situ NPP, whereas some of them exhibited almost no bias (i.e., reproduced the mean of in situ NPP). The models performed relatively well in low‐productivity seasons as well as in sea ice‐covered/deep‐water regions. Depth‐resolved models correlated more with in situ NPP than other model types, but had a greater tendency to overestimate mean NPP whereas absorption‐based models exhibited the lowest bias associated with weaker correlation. The models performed better when a subsurface chlorophyll‐a maximum (SCM) was absent. As a group, the models overestimated mean NPP, however this was partly offset by some models underestimating NPP when a SCM was present. Our study suggests that NPP models need to be carefully tuned for the Arctic Ocean because most of the models performing relatively well were those that used Arctic‐relevant parameters.
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spelling pubmed-50142382016-09-23 An assessment of phytoplankton primary productivity in the Arctic Ocean from satellite ocean color/in situ chlorophyll‐a based models Lee, Younjoo J. Matrai, Patricia A. Friedrichs, Marjorie A. M. Saba, Vincent S. Antoine, David Ardyna, Mathieu Asanuma, Ichio Babin, Marcel Bélanger, Simon Benoît‐Gagné, Maxime Devred, Emmanuel Fernández‐Méndez, Mar Gentili, Bernard Hirawake, Toru Kang, Sung‐Ho Kameda, Takahiko Katlein, Christian Lee, Sang H. Lee, Zhongping Mélin, Frédéric Scardi, Michele Smyth, Tim J. Tang, Shilin Turpie, Kevin R. Waters, Kirk J. Westberry, Toby K. J Geophys Res Oceans Research Articles We investigated 32 net primary productivity (NPP) models by assessing skills to reproduce integrated NPP in the Arctic Ocean. The models were provided with two sources each of surface chlorophyll‐a concentration (chlorophyll), photosynthetically available radiation (PAR), sea surface temperature (SST), and mixed‐layer depth (MLD). The models were most sensitive to uncertainties in surface chlorophyll, generally performing better with in situ chlorophyll than with satellite‐derived values. They were much less sensitive to uncertainties in PAR, SST, and MLD, possibly due to relatively narrow ranges of input data and/or relatively little difference between input data sources. Regardless of type or complexity, most of the models were not able to fully reproduce the variability of in situ NPP, whereas some of them exhibited almost no bias (i.e., reproduced the mean of in situ NPP). The models performed relatively well in low‐productivity seasons as well as in sea ice‐covered/deep‐water regions. Depth‐resolved models correlated more with in situ NPP than other model types, but had a greater tendency to overestimate mean NPP whereas absorption‐based models exhibited the lowest bias associated with weaker correlation. The models performed better when a subsurface chlorophyll‐a maximum (SCM) was absent. As a group, the models overestimated mean NPP, however this was partly offset by some models underestimating NPP when a SCM was present. Our study suggests that NPP models need to be carefully tuned for the Arctic Ocean because most of the models performing relatively well were those that used Arctic‐relevant parameters. John Wiley and Sons Inc. 2015-09 2015-09-27 /pmc/articles/PMC5014238/ /pubmed/27668139 http://dx.doi.org/10.1002/2015JC011018 Text en © 2015. The Authors. This is an open access article under the terms of the Creative Commons Attribution‐NonCommercial‐NoDerivs (http://creativecommons.org/licenses/by-nc-nd/4.0/) License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made.
spellingShingle Research Articles
Lee, Younjoo J.
Matrai, Patricia A.
Friedrichs, Marjorie A. M.
Saba, Vincent S.
Antoine, David
Ardyna, Mathieu
Asanuma, Ichio
Babin, Marcel
Bélanger, Simon
Benoît‐Gagné, Maxime
Devred, Emmanuel
Fernández‐Méndez, Mar
Gentili, Bernard
Hirawake, Toru
Kang, Sung‐Ho
Kameda, Takahiko
Katlein, Christian
Lee, Sang H.
Lee, Zhongping
Mélin, Frédéric
Scardi, Michele
Smyth, Tim J.
Tang, Shilin
Turpie, Kevin R.
Waters, Kirk J.
Westberry, Toby K.
An assessment of phytoplankton primary productivity in the Arctic Ocean from satellite ocean color/in situ chlorophyll‐a based models
title An assessment of phytoplankton primary productivity in the Arctic Ocean from satellite ocean color/in situ chlorophyll‐a based models
title_full An assessment of phytoplankton primary productivity in the Arctic Ocean from satellite ocean color/in situ chlorophyll‐a based models
title_fullStr An assessment of phytoplankton primary productivity in the Arctic Ocean from satellite ocean color/in situ chlorophyll‐a based models
title_full_unstemmed An assessment of phytoplankton primary productivity in the Arctic Ocean from satellite ocean color/in situ chlorophyll‐a based models
title_short An assessment of phytoplankton primary productivity in the Arctic Ocean from satellite ocean color/in situ chlorophyll‐a based models
title_sort assessment of phytoplankton primary productivity in the arctic ocean from satellite ocean color/in situ chlorophyll‐a based models
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5014238/
https://www.ncbi.nlm.nih.gov/pubmed/27668139
http://dx.doi.org/10.1002/2015JC011018
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