Seasonal and spatial dynamics of iron availability in the Scotia Sea
Seasonal and spatial dynamics of iron availability in the Scotia Sea
The Southern Ocean is the world's largest high nutrient low chlorophyll (HNLC) region. However, satellite images highlight several areas associated with island chains and shallow topographic features which display high phytoplankton biomass. Here we present the first study of seasonal variations in phytoplankton biomass and iron availability in the Scotia Sea over both austral spring and summer seasons. Based on dissolved iron (dFe) and Chlorophyll a (Chl a) concentrations, the study area is be divided into three regions: North of South Georgia, south of South Georgia and the vicinity of South Orkney Islands. The Scotia Sea to the south of South Georgia exhibited low dFe concentrations (< 0.027–0.05 nM) in surface waters during both the spring and summer seasons. Nevertheless, nitrate concentrations were considerably lower in spring compared to summer (difference ~ 8 ?M). Summer Chl a concentrations were ~ 1.4 mg m? 3 and in situ phytoplankton populations displayed evidence of iron stress, suggesting the development of seasonal iron limitation. Surface water dFe concentrations in the South Georgia bloom waters (north of the islands) were elevated and slightly lower during spring than summer (0.20 nM compared to 0.31 nM, P > 0.05). Nitrate concentrations were 16 ?M lower in summer compared to spring, whilst Chl a standing stocks remained high. Enhanced dFe (~ 0.25 nM) and Chl a concentrations were furthermore observed in the vicinity of the South Orkney Islands, located in the southern Scotia Sea. Iron addition experiments showed that in situ phytoplankton were iron replete spring and summer north of South Georgia and in the vicinity of South Orkney Islands during summer. We thus suggest that increased iron supply in high productivity areas including the area north of South Georgia and the South Orkney Islands, was sustained by a continuous benthic supply from their shelf systems, with a potential additional input from seasonally retreating sea ice in the South Orkney system.
62-72
Nielsdóttir, Maria C.
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Bibby, Thomas S.
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Moore, C. Mark
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Hinz, Daria J.
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Sanders, Richard
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Whithouse, Michael
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Korb, Rebecca
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Achterberg, Eric P.
685ce961-8c45-4503-9f03-50f6561202b9
20 February 2012
Nielsdóttir, Maria C.
f0a5d11d-f039-423e-8457-62b08b6deaa3
Bibby, Thomas S.
e04ea079-dd90-4ead-9840-00882de27ebd
Moore, C. Mark
7ec80b7b-bedc-4dd5-8924-0f5d01927b12
Hinz, Daria J.
5f4466f4-df5a-49e9-aa8a-ab9f724c1ae3
Sanders, Richard
02c163c1-8f5e-49ad-857c-d28f7da66c65
Whithouse, Michael
5299dfd2-610d-4a65-89f6-9dde94d71121
Korb, Rebecca
9480379d-9ad1-4518-ab3d-3e1e13654ea9
Achterberg, Eric P.
685ce961-8c45-4503-9f03-50f6561202b9
Nielsdóttir, Maria C., Bibby, Thomas S., Moore, C. Mark, Hinz, Daria J., Sanders, Richard, Whithouse, Michael, Korb, Rebecca and Achterberg, Eric P.
(2012)
Seasonal and spatial dynamics of iron availability in the Scotia Sea.
Marine Chemistry, 130–131, .
(doi:10.1016/j.marchem.2011.12.004).
Abstract
The Southern Ocean is the world's largest high nutrient low chlorophyll (HNLC) region. However, satellite images highlight several areas associated with island chains and shallow topographic features which display high phytoplankton biomass. Here we present the first study of seasonal variations in phytoplankton biomass and iron availability in the Scotia Sea over both austral spring and summer seasons. Based on dissolved iron (dFe) and Chlorophyll a (Chl a) concentrations, the study area is be divided into three regions: North of South Georgia, south of South Georgia and the vicinity of South Orkney Islands. The Scotia Sea to the south of South Georgia exhibited low dFe concentrations (< 0.027–0.05 nM) in surface waters during both the spring and summer seasons. Nevertheless, nitrate concentrations were considerably lower in spring compared to summer (difference ~ 8 ?M). Summer Chl a concentrations were ~ 1.4 mg m? 3 and in situ phytoplankton populations displayed evidence of iron stress, suggesting the development of seasonal iron limitation. Surface water dFe concentrations in the South Georgia bloom waters (north of the islands) were elevated and slightly lower during spring than summer (0.20 nM compared to 0.31 nM, P > 0.05). Nitrate concentrations were 16 ?M lower in summer compared to spring, whilst Chl a standing stocks remained high. Enhanced dFe (~ 0.25 nM) and Chl a concentrations were furthermore observed in the vicinity of the South Orkney Islands, located in the southern Scotia Sea. Iron addition experiments showed that in situ phytoplankton were iron replete spring and summer north of South Georgia and in the vicinity of South Orkney Islands during summer. We thus suggest that increased iron supply in high productivity areas including the area north of South Georgia and the South Orkney Islands, was sustained by a continuous benthic supply from their shelf systems, with a potential additional input from seasonally retreating sea ice in the South Orkney system.
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Published date: 20 February 2012
Organisations:
Marine Biogeochemistry, Ocean Biochemistry & Ecosystems
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Local EPrints ID: 301162
URI: http://eprints.soton.ac.uk/id/eprint/301162
ISSN: 0304-4203
PURE UUID: 1720f9cb-1d13-4dc9-b1b5-7595d7d3e7a2
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Date deposited: 28 Feb 2012 10:12
Last modified: 15 Mar 2024 03:03
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Author:
Maria C. Nielsdóttir
Author:
Daria J. Hinz
Author:
Richard Sanders
Author:
Michael Whithouse
Author:
Rebecca Korb
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