Synergistic Use of Remote Sensing and Modeling for Estimating Net Primary Productivity in the Red Sea With VGPM, Eppley-VGPM, and CbPM Models Intercomparison

Primary productivity (PP) has been recently investigated using remote sensing-based models over quite limited geographical areas of the Red Sea. This work sheds light on how phytoplankton and primary production would react to the effects of global warming in the extreme environment of the Red Sea an...

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Main Authors: Li, Wenzhao, Tiwari, Surya Prakash, el-Askary, Hesham, Qurban, Mohamed Ali, Amiridis, Vassilis, Manikandan, K. P., Garay, Michael J., Kalashnikova, Olga V., Piechota, Thomas C., Struppa, Daniele C.
Format: Text
Language:unknown
Published: Chapman University Digital Commons 2020
Subjects:
Carbon
Atmospheric modeling
Productivity
Biological system modeling
Meteorology
Ocean temperature
Atmospheric Sciences
Climate
Environmental Chemistry
Environmental Health and Protection
Environmental Indicators and Impact Assessment
Environmental Monitoring
Numerical Analysis and Scientific Computing
Oceanography
Other Computer Sciences
Other Environmental Sciences
Physical and Environmental Geography
Remote Sensing
Pacific
North Atlantic
North Atlantic oscillation
Online Access:https://digitalcommons.chapman.edu/scs_articles/669
https://digitalcommons.chapman.edu/cgi/viewcontent.cgi?article=1668&context=scs_articles
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spelling ftchapmanuniv:oai:digitalcommons.chapman.edu:scs_articles-1668 2023-05-15T17:36:10+02:00 Synergistic Use of Remote Sensing and Modeling for Estimating Net Primary Productivity in the Red Sea With VGPM, Eppley-VGPM, and CbPM Models Intercomparison Li, Wenzhao Tiwari, Surya Prakash el-Askary, Hesham Qurban, Mohamed Ali Amiridis, Vassilis Manikandan, K. P. Garay, Michael J. Kalashnikova, Olga V. Piechota, Thomas C. Struppa, Daniele C. 2020-05-11T07:00:00Z application/pdf https://digitalcommons.chapman.edu/scs_articles/669 https://digitalcommons.chapman.edu/cgi/viewcontent.cgi?article=1668&context=scs_articles unknown Chapman University Digital Commons https://digitalcommons.chapman.edu/scs_articles/669 https://digitalcommons.chapman.edu/cgi/viewcontent.cgi?article=1668&context=scs_articles © 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. Mathematics, Physics, and Computer Science Faculty Articles and Research Carbon Atmospheric modeling Productivity Biological system modeling Meteorology Ocean temperature Atmospheric Sciences Climate Environmental Chemistry Environmental Health and Protection Environmental Indicators and Impact Assessment Environmental Monitoring Numerical Analysis and Scientific Computing Oceanography Other Computer Sciences Other Environmental Sciences Physical and Environmental Geography Remote Sensing text 2020 ftchapmanuniv 2022-03-07T15:38:15Z Primary productivity (PP) has been recently investigated using remote sensing-based models over quite limited geographical areas of the Red Sea. This work sheds light on how phytoplankton and primary production would react to the effects of global warming in the extreme environment of the Red Sea and, hence, illuminates how similar regions may behave in the context of climate variability. study focuses on using satellite observations to conduct an intercomparison of three net primary production (NPP) models--the vertically generalized production model (VGPM), the Eppley-VGPM, and the carbon-based production model (CbPM)--produced over the Red Sea domain for the 1998-2018 time period. A detailed investigation is conducted using multilinear regression analysis, multivariate visualization, and moving averages correlative analysis to uncover the models' responses to various climate factors. Here, we use the models' eight-day composite and monthly averages compared with satellite-based variables, including chlorophyll-a (Chla), mixed layer depth (MLD), and sea-surface temperature (SST). Seasonal anomalies of NPP are analyzed against different climate indices, namely, the North Pacific Gyre Oscillation (NPGO), the multivariate ENSO Index (MEI), the Pacific Decadal Oscillation (PDO), the North Atlantic Oscillation (NAO), and the Dipole Mode Index (DMI). In our study, only the CbPM showed significant correlations with NPGO, MEI, and PDO, with disagreements relative to the other two NPP models. This can be attributed to the models' connection to oceanographic and atmospheric parameters, as well as the trends in the southern Red Sea, thus calling for further validation efforts. Text North Atlantic North Atlantic oscillation Chapman University Digital Commons Pacific
institution Open Polar
collection Chapman University Digital Commons
op_collection_id ftchapmanuniv
language unknown
topic Carbon
Atmospheric modeling
Productivity
Biological system modeling
Meteorology
Ocean temperature
Atmospheric Sciences
Climate
Environmental Chemistry
Environmental Health and Protection
Environmental Indicators and Impact Assessment
Environmental Monitoring
Numerical Analysis and Scientific Computing
Oceanography
Other Computer Sciences
Other Environmental Sciences
Physical and Environmental Geography
Remote Sensing
spellingShingle Carbon
Atmospheric modeling
Productivity
Biological system modeling
Meteorology
Ocean temperature
Atmospheric Sciences
Climate
Environmental Chemistry
Environmental Health and Protection
Environmental Indicators and Impact Assessment
Environmental Monitoring
Numerical Analysis and Scientific Computing
Oceanography
Other Computer Sciences
Other Environmental Sciences
Physical and Environmental Geography
Remote Sensing
Li, Wenzhao
Tiwari, Surya Prakash
el-Askary, Hesham
Qurban, Mohamed Ali
Amiridis, Vassilis
Manikandan, K. P.
Garay, Michael J.
Kalashnikova, Olga V.
Piechota, Thomas C.
Struppa, Daniele C.
Synergistic Use of Remote Sensing and Modeling for Estimating Net Primary Productivity in the Red Sea With VGPM, Eppley-VGPM, and CbPM Models Intercomparison
topic_facet Carbon
Atmospheric modeling
Productivity
Biological system modeling
Meteorology
Ocean temperature
Atmospheric Sciences
Climate
Environmental Chemistry
Environmental Health and Protection
Environmental Indicators and Impact Assessment
Environmental Monitoring
Numerical Analysis and Scientific Computing
Oceanography
Other Computer Sciences
Other Environmental Sciences
Physical and Environmental Geography
Remote Sensing
description Primary productivity (PP) has been recently investigated using remote sensing-based models over quite limited geographical areas of the Red Sea. This work sheds light on how phytoplankton and primary production would react to the effects of global warming in the extreme environment of the Red Sea and, hence, illuminates how similar regions may behave in the context of climate variability. study focuses on using satellite observations to conduct an intercomparison of three net primary production (NPP) models--the vertically generalized production model (VGPM), the Eppley-VGPM, and the carbon-based production model (CbPM)--produced over the Red Sea domain for the 1998-2018 time period. A detailed investigation is conducted using multilinear regression analysis, multivariate visualization, and moving averages correlative analysis to uncover the models' responses to various climate factors. Here, we use the models' eight-day composite and monthly averages compared with satellite-based variables, including chlorophyll-a (Chla), mixed layer depth (MLD), and sea-surface temperature (SST). Seasonal anomalies of NPP are analyzed against different climate indices, namely, the North Pacific Gyre Oscillation (NPGO), the multivariate ENSO Index (MEI), the Pacific Decadal Oscillation (PDO), the North Atlantic Oscillation (NAO), and the Dipole Mode Index (DMI). In our study, only the CbPM showed significant correlations with NPGO, MEI, and PDO, with disagreements relative to the other two NPP models. This can be attributed to the models' connection to oceanographic and atmospheric parameters, as well as the trends in the southern Red Sea, thus calling for further validation efforts.
format Text
author Li, Wenzhao
Tiwari, Surya Prakash
el-Askary, Hesham
Qurban, Mohamed Ali
Amiridis, Vassilis
Manikandan, K. P.
Garay, Michael J.
Kalashnikova, Olga V.
Piechota, Thomas C.
Struppa, Daniele C.
author_facet Li, Wenzhao
Tiwari, Surya Prakash
el-Askary, Hesham
Qurban, Mohamed Ali
Amiridis, Vassilis
Manikandan, K. P.
Garay, Michael J.
Kalashnikova, Olga V.
Piechota, Thomas C.
Struppa, Daniele C.
author_sort Li, Wenzhao
title Synergistic Use of Remote Sensing and Modeling for Estimating Net Primary Productivity in the Red Sea With VGPM, Eppley-VGPM, and CbPM Models Intercomparison
title_short Synergistic Use of Remote Sensing and Modeling for Estimating Net Primary Productivity in the Red Sea With VGPM, Eppley-VGPM, and CbPM Models Intercomparison
title_full Synergistic Use of Remote Sensing and Modeling for Estimating Net Primary Productivity in the Red Sea With VGPM, Eppley-VGPM, and CbPM Models Intercomparison
title_fullStr Synergistic Use of Remote Sensing and Modeling for Estimating Net Primary Productivity in the Red Sea With VGPM, Eppley-VGPM, and CbPM Models Intercomparison
title_full_unstemmed Synergistic Use of Remote Sensing and Modeling for Estimating Net Primary Productivity in the Red Sea With VGPM, Eppley-VGPM, and CbPM Models Intercomparison
title_sort synergistic use of remote sensing and modeling for estimating net primary productivity in the red sea with vgpm, eppley-vgpm, and cbpm models intercomparison
publisher Chapman University Digital Commons
publishDate 2020
url https://digitalcommons.chapman.edu/scs_articles/669
https://digitalcommons.chapman.edu/cgi/viewcontent.cgi?article=1668&context=scs_articles
geographic Pacific
geographic_facet Pacific
genre North Atlantic
North Atlantic oscillation
genre_facet North Atlantic
North Atlantic oscillation
op_source Mathematics, Physics, and Computer Science Faculty Articles and Research
op_relation https://digitalcommons.chapman.edu/scs_articles/669
https://digitalcommons.chapman.edu/cgi/viewcontent.cgi?article=1668&context=scs_articles
op_rights © 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works.
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