Vertical mixing, critical depths, and phytoplankton growth in the Ross Sea
Phytoplankton growth and biomass accumulation vary spatially and temporally in the Ross Sea, largely as a function of ice concentrations, vertical mixing depths, and iron concentrations. To assess the role of vertical mixing in bloom initiation, we used a high-resolution numerical model to estimate...
| Published in: | ICES Journal of Marine Science |
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W&M ScholarWorks
2015
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| Online Access: | https://scholarworks.wm.edu/vimsarticles/837 https://scholarworks.wm.edu/context/vimsarticles/article/1837/viewcontent/fsu234.pdf |
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ftwilliammarycol:oai:scholarworks.wm.edu:vimsarticles-1837 |
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ftwilliammarycol:oai:scholarworks.wm.edu:vimsarticles-1837 2023-06-11T04:06:09+02:00 Vertical mixing, critical depths, and phytoplankton growth in the Ross Sea Smith, Walker O., Jr. Jones, RM 2015-01-01T08:00:00Z application/pdf https://scholarworks.wm.edu/vimsarticles/837 doi: 10.1093/icesjms/fsu234 https://scholarworks.wm.edu/context/vimsarticles/article/1837/viewcontent/fsu234.pdf unknown W&M ScholarWorks https://scholarworks.wm.edu/vimsarticles/837 doi: 10.1093/icesjms/fsu234 https://scholarworks.wm.edu/context/vimsarticles/article/1837/viewcontent/fsu234.pdf VIMS Articles Primary Productivity Southern-Ocean Ice Shelf Antarctica Oceanography Variability Patterns Biomass System Blooms Biological Sciences Peer-Reviewed Articles Aquaculture and Fisheries text 2015 ftwilliammarycol https://doi.org/10.1093/icesjms/fsu234 2023-05-04T17:52:16Z Phytoplankton growth and biomass accumulation vary spatially and temporally in the Ross Sea, largely as a function of ice concentrations, vertical mixing depths, and iron concentrations. To assess the role of vertical mixing in bloom initiation, we used a high-resolution numerical model to estimate changes in mixed layer depths from October 1 through early December, the period where phytoplankton growth begins and biomass accumulates, and estimate critical depths for this period. Mixed layers in October ranged from the complete water column (>600 m) to ca. 200 m; over a 60-day period, the mixed layers decreased on average by 70%. Estimated critical depths were exceeded in October, but would allow growth to proceed in late October due to shoaling of mixed layer depths, consistent with the known onset of the spring bloom in the Ross Sea. We also analysed a series of stations sampled near the Ross Ice Shelf during January 2012. Mean vertical profiles for the stations indicated deep vertical mixing; mixed layer depths averaged 60 m and ranged up to 96 m. Chlorophyll concentrations within the mixed layer averaged 6.60 mu g l(-1), and the pigment contributions were dominated by Phaeocystis antarctica. We suggest that this mesoscale region near the ice shelf is elevated in phytoplankton biomass due to frequent mixing events that redistribute biomass to depth and replenish nutrients, which in turn are utilized by an assemblage capable of utilizing low mean irradiance levels. Thus, the deep mixed layers and high biomass concentrations represent growth over long periods under reduced mixing punctuated by short periods of deeper vertical mixing that redistribute biomass. Water column vertical mixing and phytoplankton biomass in the Ross Sea are consistent with the critical depth concept as originally proposed by Sverdrup. Text Antarc* Antarctica Ice Shelf Ross Ice Shelf Ross Sea Southern Ocean W&M ScholarWorks Southern Ocean Ross Sea Ross Ice Shelf ICES Journal of Marine Science 72 6 1952 1960 |
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Open Polar |
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W&M ScholarWorks |
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ftwilliammarycol |
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unknown |
| topic |
Primary Productivity Southern-Ocean Ice Shelf Antarctica Oceanography Variability Patterns Biomass System Blooms Biological Sciences Peer-Reviewed Articles Aquaculture and Fisheries |
| spellingShingle |
Primary Productivity Southern-Ocean Ice Shelf Antarctica Oceanography Variability Patterns Biomass System Blooms Biological Sciences Peer-Reviewed Articles Aquaculture and Fisheries Smith, Walker O., Jr. Jones, RM Vertical mixing, critical depths, and phytoplankton growth in the Ross Sea |
| topic_facet |
Primary Productivity Southern-Ocean Ice Shelf Antarctica Oceanography Variability Patterns Biomass System Blooms Biological Sciences Peer-Reviewed Articles Aquaculture and Fisheries |
| description |
Phytoplankton growth and biomass accumulation vary spatially and temporally in the Ross Sea, largely as a function of ice concentrations, vertical mixing depths, and iron concentrations. To assess the role of vertical mixing in bloom initiation, we used a high-resolution numerical model to estimate changes in mixed layer depths from October 1 through early December, the period where phytoplankton growth begins and biomass accumulates, and estimate critical depths for this period. Mixed layers in October ranged from the complete water column (>600 m) to ca. 200 m; over a 60-day period, the mixed layers decreased on average by 70%. Estimated critical depths were exceeded in October, but would allow growth to proceed in late October due to shoaling of mixed layer depths, consistent with the known onset of the spring bloom in the Ross Sea. We also analysed a series of stations sampled near the Ross Ice Shelf during January 2012. Mean vertical profiles for the stations indicated deep vertical mixing; mixed layer depths averaged 60 m and ranged up to 96 m. Chlorophyll concentrations within the mixed layer averaged 6.60 mu g l(-1), and the pigment contributions were dominated by Phaeocystis antarctica. We suggest that this mesoscale region near the ice shelf is elevated in phytoplankton biomass due to frequent mixing events that redistribute biomass to depth and replenish nutrients, which in turn are utilized by an assemblage capable of utilizing low mean irradiance levels. Thus, the deep mixed layers and high biomass concentrations represent growth over long periods under reduced mixing punctuated by short periods of deeper vertical mixing that redistribute biomass. Water column vertical mixing and phytoplankton biomass in the Ross Sea are consistent with the critical depth concept as originally proposed by Sverdrup. |
| format |
Text |
| author |
Smith, Walker O., Jr. Jones, RM |
| author_facet |
Smith, Walker O., Jr. Jones, RM |
| author_sort |
Smith, Walker O., Jr. |
| title |
Vertical mixing, critical depths, and phytoplankton growth in the Ross Sea |
| title_short |
Vertical mixing, critical depths, and phytoplankton growth in the Ross Sea |
| title_full |
Vertical mixing, critical depths, and phytoplankton growth in the Ross Sea |
| title_fullStr |
Vertical mixing, critical depths, and phytoplankton growth in the Ross Sea |
| title_full_unstemmed |
Vertical mixing, critical depths, and phytoplankton growth in the Ross Sea |
| title_sort |
vertical mixing, critical depths, and phytoplankton growth in the ross sea |
| publisher |
W&M ScholarWorks |
| publishDate |
2015 |
| url |
https://scholarworks.wm.edu/vimsarticles/837 https://scholarworks.wm.edu/context/vimsarticles/article/1837/viewcontent/fsu234.pdf |
| geographic |
Southern Ocean Ross Sea Ross Ice Shelf |
| geographic_facet |
Southern Ocean Ross Sea Ross Ice Shelf |
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Antarc* Antarctica Ice Shelf Ross Ice Shelf Ross Sea Southern Ocean |
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Antarc* Antarctica Ice Shelf Ross Ice Shelf Ross Sea Southern Ocean |
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VIMS Articles |
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https://scholarworks.wm.edu/vimsarticles/837 doi: 10.1093/icesjms/fsu234 https://scholarworks.wm.edu/context/vimsarticles/article/1837/viewcontent/fsu234.pdf |
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https://doi.org/10.1093/icesjms/fsu234 |
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ICES Journal of Marine Science |
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72 |
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6 |
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1952 |
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1960 |
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1768377937656020992 |