Image_2_Phytoplankton Growth and Productivity in the Western North Atlantic: Observations of Regional Variability From the NAAMES Field Campaigns.JPEG

The ability to quantify spatio-temporal variability in phytoplankton growth and productivity is essential to improving our understanding of global carbon dynamics and trophic energy flow. Satellite-based observations offered the first opportunity to estimate depth-integrated net primary production (...

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Main Authors: James Fox (306484), Michael J. Behrenfeld (8416701), Nils Haëntjens (8114249), Alison Chase (5134157), Sasha J. Kramer (8416704), Emmanuel Boss (6010568), Lee Karp-Boss (648174), Nerissa L. Fisher (8416707), W. Bryce Penta (8416710), Toby K. Westberry (8416713), Kimberly H. Halsey (8416716)
Format: Still Image
Language:unknown
Published: 2021
Subjects:
Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
phytoplankton
NPP
carbon
photoacclimation
modeling
optics
North Atlantic
Subarctic
Online Access:https://doi.org/10.3389/fmars.2020.00024.s002
id ftsmithonian:oai:figshare.com:article/14046896
record_format openpolar
spelling ftsmithonian:oai:figshare.com:article/14046896 2023-05-15T17:28:35+02:00 Image_2_Phytoplankton Growth and Productivity in the Western North Atlantic: Observations of Regional Variability From the NAAMES Field Campaigns.JPEG James Fox (306484) Michael J. Behrenfeld (8416701) Nils Haëntjens (8114249) Alison Chase (5134157) Sasha J. Kramer (8416704) Emmanuel Boss (6010568) Lee Karp-Boss (648174) Nerissa L. Fisher (8416707) W. Bryce Penta (8416710) Toby K. Westberry (8416713) Kimberly H. Halsey (8416716) 2021-02-17T16:50:51Z https://doi.org/10.3389/fmars.2020.00024.s002 unknown https://figshare.com/articles/figure/Image_2_Phytoplankton_Growth_and_Productivity_in_the_Western_North_Atlantic_Observations_of_Regional_Variability_From_the_NAAMES_Field_Campaigns_JPEG/14046896 doi:10.3389/fmars.2020.00024.s002 CC BY 4.0 CC-BY Oceanography Marine Biology Marine Geoscience Biological Oceanography Chemical Oceanography Physical Oceanography Marine Engineering phytoplankton NPP carbon photoacclimation modeling optics North Atlantic Image Figure 2021 ftsmithonian https://doi.org/10.3389/fmars.2020.00024.s002 2021-02-26T11:15:29Z The ability to quantify spatio-temporal variability in phytoplankton growth and productivity is essential to improving our understanding of global carbon dynamics and trophic energy flow. Satellite-based observations offered the first opportunity to estimate depth-integrated net primary production (NPP) at a global scale, but early modeling approaches could not effectively address variability in algal physiology, particularly the effects of photoacclimation on changes in cellular chlorophyll. Here, a previously developed photoacclimation model was used to derive depth-resolved estimates of phytoplankton division rate (μ) and NPP. The new approach predicts NPP values that closely match discrete measurements of 14 C-based NPP and effectively captured both spatial and temporal variability observed during the four field campaigns of the North Atlantic Aerosols and Marine Ecosystems Study (NAAMES). We observed favorable growth conditions for phytoplankton throughout the annual cycle in the subtropical western North Atlantic. As a result, high rates of μ are sustained year-round resulting in a strong coupling between growth and loss processes and a more moderate spring bloom compared to the high-latitude subarctic region. Considerable light limitation was observed in the subarctic province during the winter, which resulted in divergent growth dynamics, stronger decoupling from grazing pressure and a taxonomically distinct phytoplankton community. This study demonstrates how detailed knowledge of phytoplankton division rate furthers our understanding of global carbon cycling by providing insight into the resulting influence on phytoplankton taxonomy and the loss processes that dictate the fate of fixed carbon. Still Image North Atlantic Subarctic Unknown
institution Open Polar
collection Unknown
op_collection_id ftsmithonian
language unknown
topic Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
phytoplankton
NPP
carbon
photoacclimation
modeling
optics
North Atlantic
spellingShingle Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
phytoplankton
NPP
carbon
photoacclimation
modeling
optics
North Atlantic
James Fox (306484)
Michael J. Behrenfeld (8416701)
Nils Haëntjens (8114249)
Alison Chase (5134157)
Sasha J. Kramer (8416704)
Emmanuel Boss (6010568)
Lee Karp-Boss (648174)
Nerissa L. Fisher (8416707)
W. Bryce Penta (8416710)
Toby K. Westberry (8416713)
Kimberly H. Halsey (8416716)
Image_2_Phytoplankton Growth and Productivity in the Western North Atlantic: Observations of Regional Variability From the NAAMES Field Campaigns.JPEG
topic_facet Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
phytoplankton
NPP
carbon
photoacclimation
modeling
optics
North Atlantic
description The ability to quantify spatio-temporal variability in phytoplankton growth and productivity is essential to improving our understanding of global carbon dynamics and trophic energy flow. Satellite-based observations offered the first opportunity to estimate depth-integrated net primary production (NPP) at a global scale, but early modeling approaches could not effectively address variability in algal physiology, particularly the effects of photoacclimation on changes in cellular chlorophyll. Here, a previously developed photoacclimation model was used to derive depth-resolved estimates of phytoplankton division rate (μ) and NPP. The new approach predicts NPP values that closely match discrete measurements of 14 C-based NPP and effectively captured both spatial and temporal variability observed during the four field campaigns of the North Atlantic Aerosols and Marine Ecosystems Study (NAAMES). We observed favorable growth conditions for phytoplankton throughout the annual cycle in the subtropical western North Atlantic. As a result, high rates of μ are sustained year-round resulting in a strong coupling between growth and loss processes and a more moderate spring bloom compared to the high-latitude subarctic region. Considerable light limitation was observed in the subarctic province during the winter, which resulted in divergent growth dynamics, stronger decoupling from grazing pressure and a taxonomically distinct phytoplankton community. This study demonstrates how detailed knowledge of phytoplankton division rate furthers our understanding of global carbon cycling by providing insight into the resulting influence on phytoplankton taxonomy and the loss processes that dictate the fate of fixed carbon.
format Still Image
author James Fox (306484)
Michael J. Behrenfeld (8416701)
Nils Haëntjens (8114249)
Alison Chase (5134157)
Sasha J. Kramer (8416704)
Emmanuel Boss (6010568)
Lee Karp-Boss (648174)
Nerissa L. Fisher (8416707)
W. Bryce Penta (8416710)
Toby K. Westberry (8416713)
Kimberly H. Halsey (8416716)
author_facet James Fox (306484)
Michael J. Behrenfeld (8416701)
Nils Haëntjens (8114249)
Alison Chase (5134157)
Sasha J. Kramer (8416704)
Emmanuel Boss (6010568)
Lee Karp-Boss (648174)
Nerissa L. Fisher (8416707)
W. Bryce Penta (8416710)
Toby K. Westberry (8416713)
Kimberly H. Halsey (8416716)
author_sort James Fox (306484)
title Image_2_Phytoplankton Growth and Productivity in the Western North Atlantic: Observations of Regional Variability From the NAAMES Field Campaigns.JPEG
title_short Image_2_Phytoplankton Growth and Productivity in the Western North Atlantic: Observations of Regional Variability From the NAAMES Field Campaigns.JPEG
title_full Image_2_Phytoplankton Growth and Productivity in the Western North Atlantic: Observations of Regional Variability From the NAAMES Field Campaigns.JPEG
title_fullStr Image_2_Phytoplankton Growth and Productivity in the Western North Atlantic: Observations of Regional Variability From the NAAMES Field Campaigns.JPEG
title_full_unstemmed Image_2_Phytoplankton Growth and Productivity in the Western North Atlantic: Observations of Regional Variability From the NAAMES Field Campaigns.JPEG
title_sort image_2_phytoplankton growth and productivity in the western north atlantic: observations of regional variability from the naames field campaigns.jpeg
publishDate 2021
url https://doi.org/10.3389/fmars.2020.00024.s002
genre North Atlantic
Subarctic
genre_facet North Atlantic
Subarctic
op_relation https://figshare.com/articles/figure/Image_2_Phytoplankton_Growth_and_Productivity_in_the_Western_North_Atlantic_Observations_of_Regional_Variability_From_the_NAAMES_Field_Campaigns_JPEG/14046896
doi:10.3389/fmars.2020.00024.s002
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fmars.2020.00024.s002
_version_ 1766121340176171008

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