Do coastal salt mudflats (sabkhas) contribute to the blue carbon sequestration?

Blue carbon represents the organic carbon retained in marine coastal ecosystems. Sabkhas (an Arabic for “mudflats”), formed in tidal environments under arid conditions, have been proposed to be capable of carbon sequestrating. Despite the growing understanding of the critical role of blue carbon eco...

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Veröffentlicht in:	Biogeochemistry 2025-01, Vol.168 (1), p.15, Article 15
Hauptverfasser:	Elsayed, Hadil, Al Disi, Zulfa Ali, Naja, Khaled, Strakhov, Ivan, Mundle, Scott O. C., Al-Kuwari, Hamad Al Saad, Sadooni, Fadhil, Diloreto, Zach, Al-Khayat, Jassim Abdulla A., Dittrich, Maria
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Sprache:	eng
Schlagworte:	Aluminum Atmosphere Biogeosciences Blue carbon Carbon dioxide Carbon sequestration Carbonates Coastal ecosystems Earth and Environmental Science Earth Sciences Ecosystems Environmental Chemistry Inorganic carbon Life Sciences Magnesium Mangroves Marine ecosystems Mud flats Organic carbon Retention capacity Sabkhas Saltmarshes
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container_title	Biogeochemistry
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creator	Elsayed, Hadil Al Disi, Zulfa Ali Naja, Khaled Strakhov, Ivan Mundle, Scott O. C. Al-Kuwari, Hamad Al Saad Sadooni, Fadhil Diloreto, Zach Al-Khayat, Jassim Abdulla A. Dittrich, Maria
description	Blue carbon represents the organic carbon retained in marine coastal ecosystems. Sabkhas (an Arabic for “mudflats”), formed in tidal environments under arid conditions, have been proposed to be capable of carbon sequestrating. Despite the growing understanding of the critical role of blue carbon ecosystems, there is a current dispute about whether sabkhas around the Persian Gulf can contribute to carbon retention as a blue carbon ecosystem. The arguments often lack data on a critical contributor, inorganic carbon in the form of carbonates, which can drive the net carbon exchange with the atmosphere. In this study we inventory organic and inorganic carbon retention capacity in two contrasting sabkhas of the Qatar Peninsula: carbonaceous Dohat Faishakh and siliciclastic Khor Al-Adaid. Despite the differences in organic carbon stock between the two sabkhas, the Dohat Faishakh sabkha has higher (37.17 ± 0.81 Mg C org ha −1 ) than it is in the Khor Al-Adaid sabkha (13.75 ± 0.38 Mg C org ha −1 ) for 0. 44 m sediment depth, the organic carbon retained in sabkhas is similar to those reported for mangroves and salt marshes. Notably, calculated CO 2 net sequestration indicated that both sabkhas evade CO 2 into the atmosphere. Thus, carbonate formation negated organic carbon accumulation in carbonaceous sabkha. Consequently, for proper evaluation of sabkhas as a blue carbon ecosystem, an inorganic carbon analysis, especially of carbonate formation, is inevitable. Considering only organic carbon stock may ay overestimate carbon sequestration capacity.
doi_str_mv	10.1007/s10533-024-01204-5
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C. ; Al-Kuwari, Hamad Al Saad ; Sadooni, Fadhil ; Diloreto, Zach ; Al-Khayat, Jassim Abdulla A. ; Dittrich, Maria</creator><creatorcontrib>Elsayed, Hadil ; Al Disi, Zulfa Ali ; Naja, Khaled ; Strakhov, Ivan ; Mundle, Scott O. C. ; Al-Kuwari, Hamad Al Saad ; Sadooni, Fadhil ; Diloreto, Zach ; Al-Khayat, Jassim Abdulla A. ; Dittrich, Maria</creatorcontrib><description>Blue carbon represents the organic carbon retained in marine coastal ecosystems. Sabkhas (an Arabic for “mudflats”), formed in tidal environments under arid conditions, have been proposed to be capable of carbon sequestrating. Despite the growing understanding of the critical role of blue carbon ecosystems, there is a current dispute about whether sabkhas around the Persian Gulf can contribute to carbon retention as a blue carbon ecosystem. The arguments often lack data on a critical contributor, inorganic carbon in the form of carbonates, which can drive the net carbon exchange with the atmosphere. In this study we inventory organic and inorganic carbon retention capacity in two contrasting sabkhas of the Qatar Peninsula: carbonaceous Dohat Faishakh and siliciclastic Khor Al-Adaid. Despite the differences in organic carbon stock between the two sabkhas, the Dohat Faishakh sabkha has higher (37.17 ± 0.81 Mg C org ha −1 ) than it is in the Khor Al-Adaid sabkha (13.75 ± 0.38 Mg C org ha −1 ) for 0. 44 m sediment depth, the organic carbon retained in sabkhas is similar to those reported for mangroves and salt marshes. Notably, calculated CO 2 net sequestration indicated that both sabkhas evade CO 2 into the atmosphere. Thus, carbonate formation negated organic carbon accumulation in carbonaceous sabkha. Consequently, for proper evaluation of sabkhas as a blue carbon ecosystem, an inorganic carbon analysis, especially of carbonate formation, is inevitable. 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C.</creatorcontrib><creatorcontrib>Al-Kuwari, Hamad Al Saad</creatorcontrib><creatorcontrib>Sadooni, Fadhil</creatorcontrib><creatorcontrib>Diloreto, Zach</creatorcontrib><creatorcontrib>Al-Khayat, Jassim Abdulla A.</creatorcontrib><creatorcontrib>Dittrich, Maria</creatorcontrib><title>Do coastal salt mudflats (sabkhas) contribute to the blue carbon sequestration?</title><title>Biogeochemistry</title><addtitle>Biogeochemistry</addtitle><description>Blue carbon represents the organic carbon retained in marine coastal ecosystems. Sabkhas (an Arabic for “mudflats”), formed in tidal environments under arid conditions, have been proposed to be capable of carbon sequestrating. Despite the growing understanding of the critical role of blue carbon ecosystems, there is a current dispute about whether sabkhas around the Persian Gulf can contribute to carbon retention as a blue carbon ecosystem. The arguments often lack data on a critical contributor, inorganic carbon in the form of carbonates, which can drive the net carbon exchange with the atmosphere. In this study we inventory organic and inorganic carbon retention capacity in two contrasting sabkhas of the Qatar Peninsula: carbonaceous Dohat Faishakh and siliciclastic Khor Al-Adaid. Despite the differences in organic carbon stock between the two sabkhas, the Dohat Faishakh sabkha has higher (37.17 ± 0.81 Mg C org ha −1 ) than it is in the Khor Al-Adaid sabkha (13.75 ± 0.38 Mg C org ha −1 ) for 0. 44 m sediment depth, the organic carbon retained in sabkhas is similar to those reported for mangroves and salt marshes. Notably, calculated CO 2 net sequestration indicated that both sabkhas evade CO 2 into the atmosphere. Thus, carbonate formation negated organic carbon accumulation in carbonaceous sabkha. Consequently, for proper evaluation of sabkhas as a blue carbon ecosystem, an inorganic carbon analysis, especially of carbonate formation, is inevitable. Considering only organic carbon stock may ay overestimate carbon sequestration capacity.</description><subject>Aluminum</subject><subject>Atmosphere</subject><subject>Biogeosciences</subject><subject>Blue carbon</subject><subject>Carbon dioxide</subject><subject>Carbon sequestration</subject><subject>Carbonates</subject><subject>Coastal ecosystems</subject><subject>Earth and Environmental Science</subject><subject>Earth Sciences</subject><subject>Ecosystems</subject><subject>Environmental Chemistry</subject><subject>Inorganic carbon</subject><subject>Life Sciences</subject><subject>Magnesium</subject><subject>Mangroves</subject><subject>Marine ecosystems</subject><subject>Mud flats</subject><subject>Organic carbon</subject><subject>Retention capacity</subject><subject>Sabkhas</subject><subject>Saltmarshes</subject><issn>1573-515X</issn><issn>0168-2563</issn><issn>1573-515X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2025</creationdate><recordtype>article</recordtype><sourceid>C6C</sourceid><recordid>eNp9UMtKAzEUDaJgrf6Aq4AbXYwmk8dkVkXqEwrdKLgLSSbTTp1OapIR_Htjp_jYuLoXzuOeewA4xegSI1RcBYwYIRnKaYZwjmjG9sAIs4JkDLOX_V_7ITgKYYUQKgtERmB-46BxKkTVwqDaCNd9VbcqBngelH5dqnCR8C76RvfRwuhgXFqo295Co7x2HQz2rbchehUb102OwUGt2mBPdnMMnu9un6YP2Wx-_zi9nmUmx4xltipKRrlQpiBUl5ogWquqMKakNq8KbquKcmNzTg0VtOKKMyyoqJni2nKmyRhMBt9Nr9e2MjZFVK3c-Gat_Id0qpF_ka5ZyoV7lxgXhDGKk8PZzsG77Qdy5XrfpdCSpIhC5IKLxMoHlvEuBG_r7xMYya_q5VC9TNXLbfWSJREZRCGRu4X1P9b_qD4BFM6IPA</recordid><startdate>20250115</startdate><enddate>20250115</enddate><creator>Elsayed, Hadil</creator><creator>Al Disi, Zulfa Ali</creator><creator>Naja, Khaled</creator><creator>Strakhov, Ivan</creator><creator>Mundle, Scott O. 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C.</au><au>Al-Kuwari, Hamad Al Saad</au><au>Sadooni, Fadhil</au><au>Diloreto, Zach</au><au>Al-Khayat, Jassim Abdulla A.</au><au>Dittrich, Maria</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Do coastal salt mudflats (sabkhas) contribute to the blue carbon sequestration?</atitle><jtitle>Biogeochemistry</jtitle><stitle>Biogeochemistry</stitle><date>2025-01-15</date><risdate>2025</risdate><volume>168</volume><issue>1</issue><spage>15</spage><pages>15-</pages><artnum>15</artnum><issn>1573-515X</issn><issn>0168-2563</issn><eissn>1573-515X</eissn><abstract>Blue carbon represents the organic carbon retained in marine coastal ecosystems. Sabkhas (an Arabic for “mudflats”), formed in tidal environments under arid conditions, have been proposed to be capable of carbon sequestrating. Despite the growing understanding of the critical role of blue carbon ecosystems, there is a current dispute about whether sabkhas around the Persian Gulf can contribute to carbon retention as a blue carbon ecosystem. The arguments often lack data on a critical contributor, inorganic carbon in the form of carbonates, which can drive the net carbon exchange with the atmosphere. In this study we inventory organic and inorganic carbon retention capacity in two contrasting sabkhas of the Qatar Peninsula: carbonaceous Dohat Faishakh and siliciclastic Khor Al-Adaid. Despite the differences in organic carbon stock between the two sabkhas, the Dohat Faishakh sabkha has higher (37.17 ± 0.81 Mg C org ha −1 ) than it is in the Khor Al-Adaid sabkha (13.75 ± 0.38 Mg C org ha −1 ) for 0. 44 m sediment depth, the organic carbon retained in sabkhas is similar to those reported for mangroves and salt marshes. Notably, calculated CO 2 net sequestration indicated that both sabkhas evade CO 2 into the atmosphere. Thus, carbonate formation negated organic carbon accumulation in carbonaceous sabkha. Consequently, for proper evaluation of sabkhas as a blue carbon ecosystem, an inorganic carbon analysis, especially of carbonate formation, is inevitable. Considering only organic carbon stock may ay overestimate carbon sequestration capacity.</abstract><cop>Cham</cop><pub>Springer International Publishing</pub><doi>10.1007/s10533-024-01204-5</doi><orcidid>https://orcid.org/0000-0002-8112-2661</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Aluminum Atmosphere Biogeosciences Blue carbon Carbon dioxide Carbon sequestration Carbonates Coastal ecosystems Earth and Environmental Science Earth Sciences Ecosystems Environmental Chemistry Inorganic carbon Life Sciences Magnesium Mangroves Marine ecosystems Mud flats Organic carbon Retention capacity Sabkhas Saltmarshes
title	Do coastal salt mudflats (sabkhas) contribute to the blue carbon sequestration?
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