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Why are some marginal seas sources of atmospheric CO 2 ?
Author(s) -
Dai Minhan,
Cao Zhimian,
Guo Xianghui,
Zhai Weidong,
Liu Zhiyu,
Yin Zhiqiang,
Xu Yanping,
Gan Jianping,
Hu Jianyu,
Du Chuanjun
Publication year - 2013
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1002/grl.50390
Subject(s) - biogeochemical cycle , oceanography , sink (geography) , environmental science , carbon sink , carbon cycle , oceanic basin , carbon flux , ocean heat content , climatology , pacific ocean , ocean current , structural basin , climate change , geology , geography , ecosystem , ecology , paleontology , cartography , biology
A bstract The contemporary coastal ocean, characterized by abundant nutrients and high primary productivity, is generally seen as a significant CO 2 sink at the global scale. However, mechanistic understanding of the coastal ocean carbon cycle remains limited, leading to the unanswered question of why some coastal systems are sources while others are sinks of atmospheric CO 2 . Here we proposed a distinct physical‐biogeochemical setting, Ocean‐dominated Margin (OceMar), in order for better shaping the concept of the coastal ocean carbon study. OceMars, in contrast to previously recognized River‐dominated Ocean Margins, are characterized by dynamic interactions with the open ocean, which may provide nonlocal CO 2 sources thereby modulating the CO 2 fluxes in OceMars. Using the basin areas of the largest marginal seas of the Pacific and the Atlantic, the South China Sea and the Caribbean Sea as examples of OceMars, we demonstrated that such external CO 2 sources controlled the CO 2 fluxes.