Carbon dioxide mitigation potential of seaweed aquaculture beds (SABs)
© 2016, Springer Science+Business Media Dordrecht. Seaweed aquaculture beds (SABs) that support the production of seaweed and their diverse products, cover extensive coastal areas, especially in the Asian-Pacific region, and provide many ecosystem services such as nutrient removal and CO 2 assimilat...
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th-cmuir.6653943832-461532018-04-25T07:16:18Z Carbon dioxide mitigation potential of seaweed aquaculture beds (SABs) Calvyn F.A. Sondak Put O. Ang John Beardall Alecia Bellgrove Sung Min Boo Grevo S. Gerung Christopher D. Hepburn Dang Diem Hong Zhengyu Hu Hiroshi Kawai Danilo Largo Jin Ae Lee Phaik Eem Lim Jaruwan Mayakun Wendy A. Nelson Jung Hyun Oak Siew Moi Phang Dinabandhu Sahoo Yuwadee Peerapornpis Yufeng Yang Ik Kyo Chung Agricultural and Biological Sciences © 2016, Springer Science+Business Media Dordrecht. Seaweed aquaculture beds (SABs) that support the production of seaweed and their diverse products, cover extensive coastal areas, especially in the Asian-Pacific region, and provide many ecosystem services such as nutrient removal and CO 2 assimilation. The use of SABs in potential carbon dioxide (CO 2 ) mitigation efforts has been proposed with commercial seaweed production in China, India, Indonesia, Japan, Malaysia, Philippines, Republic of Korea, Thailand, and Vietnam, and is at a nascent stage in Australia and New Zealand. We attempted to consider the total annual potential of SABs to drawdown and fix anthropogenic CO 2 . In the last decade, seaweed production has increased tremendously in the Asian-Pacific region. In 2014, the total annual production of Asian-Pacific SABs surpassed 2.61 × 10 6 t dw. Total carbon accumulated annually was more than 0.78 × 10 6 t y −1 , equivalent to over 2.87 × 10 6 t CO 2 y −1 . By increasing the area available for SABs, biomass production, carbon accumulation, and CO 2 drawdown can be enhanced. The conversion of biomass to biofuel can reduce the use of fossil fuels and provide additional mitigation of CO 2 emissions. Contributions of seaweeds as carbon donors to other ecosystems could be significant in global carbon sequestration. The ongoing development of SABs would not only ensure that Asian-Pacific countries will remain leaders in the global seaweed industry but may also provide an added dimension of helping to mitigate the problem of excessive CO 2 emissions. 2018-04-25T06:50:49Z 2018-04-25T06:50:49Z 2017-10-01 Journal 15735176 09218971 2-s2.0-85001955843 10.1007/s10811-016-1022-1 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85001955843&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/46153 |
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Agricultural and Biological Sciences Calvyn F.A. Sondak Put O. Ang John Beardall Alecia Bellgrove Sung Min Boo Grevo S. Gerung Christopher D. Hepburn Dang Diem Hong Zhengyu Hu Hiroshi Kawai Danilo Largo Jin Ae Lee Phaik Eem Lim Jaruwan Mayakun Wendy A. Nelson Jung Hyun Oak Siew Moi Phang Dinabandhu Sahoo Yuwadee Peerapornpis Yufeng Yang Ik Kyo Chung Carbon dioxide mitigation potential of seaweed aquaculture beds (SABs) |
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© 2016, Springer Science+Business Media Dordrecht. Seaweed aquaculture beds (SABs) that support the production of seaweed and their diverse products, cover extensive coastal areas, especially in the Asian-Pacific region, and provide many ecosystem services such as nutrient removal and CO 2 assimilation. The use of SABs in potential carbon dioxide (CO 2 ) mitigation efforts has been proposed with commercial seaweed production in China, India, Indonesia, Japan, Malaysia, Philippines, Republic of Korea, Thailand, and Vietnam, and is at a nascent stage in Australia and New Zealand. We attempted to consider the total annual potential of SABs to drawdown and fix anthropogenic CO 2 . In the last decade, seaweed production has increased tremendously in the Asian-Pacific region. In 2014, the total annual production of Asian-Pacific SABs surpassed 2.61 × 10 6 t dw. Total carbon accumulated annually was more than 0.78 × 10 6 t y −1 , equivalent to over 2.87 × 10 6 t CO 2 y −1 . By increasing the area available for SABs, biomass production, carbon accumulation, and CO 2 drawdown can be enhanced. The conversion of biomass to biofuel can reduce the use of fossil fuels and provide additional mitigation of CO 2 emissions. Contributions of seaweeds as carbon donors to other ecosystems could be significant in global carbon sequestration. The ongoing development of SABs would not only ensure that Asian-Pacific countries will remain leaders in the global seaweed industry but may also provide an added dimension of helping to mitigate the problem of excessive CO 2 emissions. |
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Calvyn F.A. Sondak Put O. Ang John Beardall Alecia Bellgrove Sung Min Boo Grevo S. Gerung Christopher D. Hepburn Dang Diem Hong Zhengyu Hu Hiroshi Kawai Danilo Largo Jin Ae Lee Phaik Eem Lim Jaruwan Mayakun Wendy A. Nelson Jung Hyun Oak Siew Moi Phang Dinabandhu Sahoo Yuwadee Peerapornpis Yufeng Yang Ik Kyo Chung |
author_facet |
Calvyn F.A. Sondak Put O. Ang John Beardall Alecia Bellgrove Sung Min Boo Grevo S. Gerung Christopher D. Hepburn Dang Diem Hong Zhengyu Hu Hiroshi Kawai Danilo Largo Jin Ae Lee Phaik Eem Lim Jaruwan Mayakun Wendy A. Nelson Jung Hyun Oak Siew Moi Phang Dinabandhu Sahoo Yuwadee Peerapornpis Yufeng Yang Ik Kyo Chung |
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Calvyn F.A. Sondak |
title |
Carbon dioxide mitigation potential of seaweed aquaculture beds (SABs) |
title_short |
Carbon dioxide mitigation potential of seaweed aquaculture beds (SABs) |
title_full |
Carbon dioxide mitigation potential of seaweed aquaculture beds (SABs) |
title_fullStr |
Carbon dioxide mitigation potential of seaweed aquaculture beds (SABs) |
title_full_unstemmed |
Carbon dioxide mitigation potential of seaweed aquaculture beds (SABs) |
title_sort |
carbon dioxide mitigation potential of seaweed aquaculture beds (sabs) |
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2018 |
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https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85001955843&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/46153 |
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