Installing kelp forests/seaweed beds for mitigation and adaptation against global warming: Korean Project Overview

Chung, I. K., Oak, J. H., Lee, J. A., Shin, J. A., Kim, J. G., and Park, K.-S. 2013. Installing kelp forests/seaweed beds for mitigation and adaptation against global warming: Korean Project Overview. - ICES Journal of Marine Science, 70: 1038-1044.Seaweed beds can serve as a significant carbon diox...

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Published in:ICES journal of marine science 2013-09, Vol.70 (5), p.1038-1044
Main Authors: Chung, Ik Kyo, Oak, Jung Hyun, Lee, Jin Ae, Shin, Jong Ahm, Kim, Jong Gyu, Park, Kwang-Seok
Format: Article
Language:English
Subjects:
Adaptation
Carbon
Carbon dioxide
Coastal
Ecklonia
Forests
Global warming
Marine
Seaweeds
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Summary:Chung, I. K., Oak, J. H., Lee, J. A., Shin, J. A., Kim, J. G., and Park, K.-S. 2013. Installing kelp forests/seaweed beds for mitigation and adaptation against global warming: Korean Project Overview. - ICES Journal of Marine Science, 70: 1038-1044.Seaweed beds can serve as a significant carbon dioxide (CO sub(2)) sink while also satisfying global needs for food, fodder, fuel, and pharmaceutical products. The goal of our Korean Project has been to develop new baseline and monitoring methodologies for mitigation and adaptation within the context of climate change. Using innovative research approaches, we have established the Coastal CO sub(2) Removal Belt (CCRB), which comprises both natural and man-made plant communities in the coastal region of southern Korea. Implemented on various spatial-temporal scales, this scheme promotes the removal of CO sub(2) via marine forests. For example, when populated with the perennial brown alga Ecklonia, a pilot CCRB farm can draw down similar to 10 t of CO sub(2) per ha per year. This success is manifested by an increment in biomass accumulations and a decrease in the amount of dissolved inorganic carbon in the water column.
ISSN:1054-3139
1095-9289
DOI:10.1093/icesjms/fss206