Carbon dioxide mitigation potential of seaweed aquaculture beds (SABs)
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 (C...
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| Published in | Journal of applied phycology Vol. 29; no. 5; pp. 2363 - 2373 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Dordrecht
Springer Netherlands
01.10.2017
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
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| Abstract | 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. |
|---|---|
| AbstractList | 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. 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 CO2 assimilation. The use of SABs in potential carbon dioxide (CO2) 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 CO2. 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 × 106 t dw. Total carbon accumulated annually was more than 0.78 × 106 t y−1, equivalent to over 2.87 × 106 t CO2 y−1. By increasing the area available for SABs, biomass production, carbon accumulation, and CO2 drawdown can be enhanced. The conversion of biomass to biofuel can reduce the use of fossil fuels and provide additional mitigation of CO2 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 CO2 emissions. 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 CO₂ assimilation. The use of SABs in potential carbon dioxide (CO₂) 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 CO₂. 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 × 10⁶ t dw. Total carbon accumulated annually was more than 0.78 × 10⁶ t y⁻¹, equivalent to over 2.87 × 10⁶ t CO₂ y⁻¹. By increasing the area available for SABs, biomass production, carbon accumulation, and CO₂ drawdown can be enhanced. The conversion of biomass to biofuel can reduce the use of fossil fuels and provide additional mitigation of CO₂ 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 CO₂ emissions. |
| Author | Gerung, Grevo S. Largo, Danilo Sondak, Calvyn F. A. Oak, Jung Hyun Sahoo, Dinabandhu Mayakun, Jaruwan Peerapornpis, Yuwadee Hepburn, Christopher D. Lee, Jin Ae Beardall, John Bellgrove, Alecia Kawai, Hiroshi Lim, Phaik-Eem Ang, Put O. Boo, Sung Min Chung, Ik Kyo Hong, Dang Diem Yang, Yufeng Nelson, Wendy A. Phang, Siew-Moi Hu, Zhengyu |
| Author_xml | – sequence: 1 givenname: Calvyn F. A. surname: Sondak fullname: Sondak, Calvyn F. A. organization: Department of Oceanography, Pusan National University, Faculty of Fisheries and Marine Science, Sam Ratulangi University – sequence: 2 givenname: Put O. surname: Ang fullname: Ang, Put O. organization: Marine Science Laboratory, School of Life Sciences, The Chinese University of Hong Kong – sequence: 3 givenname: John surname: Beardall fullname: Beardall, John organization: School of Biological Sciences, Monash University – sequence: 4 givenname: Alecia surname: Bellgrove fullname: Bellgrove, Alecia organization: Deakin University, School of Life and Environmental Sciences, Centre for Integrative Ecology – sequence: 5 givenname: Sung Min surname: Boo fullname: Boo, Sung Min organization: Chungnam National University – sequence: 6 givenname: Grevo S. surname: Gerung fullname: Gerung, Grevo S. organization: Faculty of Fisheries and Marine Science, Sam Ratulangi University – sequence: 7 givenname: Christopher D. surname: Hepburn fullname: Hepburn, Christopher D. organization: Department of Marine Science, University of Otago – sequence: 8 givenname: Dang Diem surname: Hong fullname: Hong, Dang Diem organization: Institute of Biotechnology, Vietnam Academy of Science and Technology – sequence: 9 givenname: Zhengyu surname: Hu fullname: Hu, Zhengyu organization: Institute of Hydrobiology, Chinese Academy of Sciences – sequence: 10 givenname: Hiroshi surname: Kawai fullname: Kawai, Hiroshi organization: Kobe University – sequence: 11 givenname: Danilo surname: Largo fullname: Largo, Danilo organization: University of San Carlos – sequence: 12 givenname: Jin Ae surname: Lee fullname: Lee, Jin Ae organization: School of Environmental Science and Engineering, Inje University – sequence: 13 givenname: Phaik-Eem surname: Lim fullname: Lim, Phaik-Eem organization: Institute of Biological Sciences and Institute of Ocean and Earth Sciences (IOES) University of Malaya – sequence: 14 givenname: Jaruwan surname: Mayakun fullname: Mayakun, Jaruwan organization: Department of Biology, Faculty of Science, Prince of Songkla University – sequence: 15 givenname: Wendy A. surname: Nelson fullname: Nelson, Wendy A. organization: National Institute of Water and Atmospheric Research, School of Biological Sciences, University of Auckland – sequence: 16 givenname: Jung Hyun surname: Oak fullname: Oak, Jung Hyun organization: Marine Research Institute, Pusan National University – sequence: 17 givenname: Siew-Moi surname: Phang fullname: Phang, Siew-Moi organization: Institute of Biological Sciences and Institute of Ocean and Earth Sciences (IOES) University of Malaya – sequence: 18 givenname: Dinabandhu surname: Sahoo fullname: Sahoo, Dinabandhu organization: Marine Biotechnology Laboratory, Department of Botany, University of Delhi – sequence: 19 givenname: Yuwadee surname: Peerapornpis fullname: Peerapornpis, Yuwadee organization: Chiang Mai University – sequence: 20 givenname: Yufeng surname: Yang fullname: Yang, Yufeng organization: Institute of Hydrobiology, Jinan University – sequence: 21 givenname: Ik Kyo surname: Chung fullname: Chung, Ik Kyo email: ikchung@pusan.ac.kr organization: Department of Oceanography, Pusan National University, Marine Research Institute, Pusan National University |
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| Copyright | Springer Science+Business Media Dordrecht 2016 Journal of Applied Phycology is a copyright of Springer, 2017. |
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| Keywords | Blue carbon mitigation Seaweed aquaculture bed (SAB) Macroalgae Asian Pacific region CO Carbon donor |
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| ProviderPackageCode | CITATION AAYXX |
| PublicationCentury | 2000 |
| PublicationDate | 20171000 |
| PublicationDateYYYYMMDD | 2017-10-01 |
| PublicationDate_xml | – month: 10 year: 2017 text: 20171000 |
| PublicationDecade | 2010 |
| PublicationPlace | Dordrecht |
| PublicationPlace_xml | – name: Dordrecht |
| PublicationTitle | Journal of applied phycology |
| PublicationTitleAbbrev | J Appl Phycol |
| PublicationYear | 2017 |
| Publisher | Springer Netherlands Springer Nature B.V |
| Publisher_xml | – name: Springer Netherlands – name: Springer Nature B.V |
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| SubjectTerms | 22nd International Seaweed Symposium Algae Anthropogenic factors Aquaculture Australia Biofuels Biomass biomass production Biomedical and Life Sciences carbon Carbon dioxide Carbon dioxide emissions Carbon sequestration China Coastal zone coasts Copenhagen Drawdown Ecology Ecosystem services Ecosystems Fossil fuels Freshwater & Marine Ecology greenhouse gas emissions India Indonesia industry Japan Life Sciences macroalgae Malaysia Mineral nutrients Mitigation New Zealand Nutrient removal Philippines Plant Physiology Plant Sciences Removal seaweed culture Seaweed industry Seaweeds South Korea Thailand Vietnam |
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