Satellite evidence of ecosystem changes in the White Sea: A semi-enclosed arctic marginal shelf sea

Satellite evidence of ecosystem changes in the White Sea: A semi-enclosed arctic marginal shelf sea

Recent observations suggest an arctic climate system in broad transformation, yet the regional marine‐ecosystem response is poorly known. Here, we develop and analyze a comprehensive biogeophysical dataset of key water constituents – chlorophyll (chl), suspended sediments (sm) and dissolved organic...

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Bibliographic Details
Published in:Geophysical research letters Vol. 34; no. 8; pp. L08604 - n/a
Main Authors: Pozdnyakov, Dmitry V., Johannessen, Ola M., Korosov, Anton A., Pettersson, Lasse H., Grassl, Hartmut, Miles, Martin W.
Format: Journal Article
Language:English
Published: American Geophysical Union 01-04-2007
Blackwell Publishing Ltd
Subjects:
Arctic region
Biogeosciences
Geographic Location
Global Change
Impacts of global change
Marginal and semi-enclosed seas
Marine
marine ecosystem
Marine systems
Oceanography
Remote sensing
satellite ocean color
White Sea
PNE, White Sea
PN, Arctic
marine ecosystem
satellite ocean color
White Sea
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Summary:Recent observations suggest an arctic climate system in broad transformation, yet the regional marine‐ecosystem response is poorly known. Here, we develop and analyze a comprehensive biogeophysical dataset of key water constituents – chlorophyll (chl), suspended sediments (sm) and dissolved organic matter (doc) – using satellite ocean‐color data from the White Sea in the Russian Arctic, for the period 1998–2004. The revealed changes in chl, sm and doc are more pronounced in the bays (e.g., the southeastern bay trends are −20%, +18% and +11%, respectively) than in the central basin (−5%, +5% and +3%, respectively). The chlorophyll decreases reflect the impact of enhanced runoff on sm and doc, which make the water more turbid and less favourable for phytoplankton growth, in contrast to other arctic seas where increased phytoplankton is expected. This case study supports our hypothesis that the marine ecosystems of semi‐enclosed arctic shelf seas respond rapidly to climate change and are thus particularly vulnerable to future global warming.
Bibliography:ArticleID:2006GL028947
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content type line 23
ISSN:0094-8276
1944-8007
DOI:10.1029/2006GL028947