Geochemical behavior of sedimentary phosphorus species in northernmost artificial mangroves in China

Mangroves are typically found in tropical coastal areas, and these ecosystems face deterioration and loss due to threats from climate and human factors. In this study, sediment cores were collected from human-planted mangroves in sub-tropical Ximen Island, China, and were determined for sedimentary...

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Main Authors: You, Shuzhen, Loh, Peisun, Li, Zilong, Qin, Haiyan, Pradit, Siriporn, Le, Thi Phuong Quynh, Oeurng, Chantha, Mohamed, Che Abdul Rahim, Lee, Choon Weng, Lu, Xixi, Anshari, Gusti Z., Kandasamy, Selvaraj, Wang, Jianjun, Ji, Lili, Guo, Jian
Format: Article
Published: MDPI 2022
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Online Access:http://eprints.um.edu.my/42945/
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Summary:Mangroves are typically found in tropical coastal areas, and these ecosystems face deterioration and loss due to threats from climate and human factors. In this study, sediment cores were collected from human-planted mangroves in sub-tropical Ximen Island, China, and were determined for sedimentary phosphorus (P) species. The objective was to investigate the ability of mangroves planted in a zone bordering their temperature limit to preserve and regulate P. Our results showed that bioavailable P (BAP), which includes exchangeable-P (Ex-P), iron-bound P (Fe-P), and organic P (OP), accounted for approximately 64% of total P (TP). Apatite P (Ca-P), which accounted for 24% of TP, most likely originated from aquaculture activities surrounding the island. The vertical distribution of sedimentary P species along the sediment cores showed a rather constant trend along the salt marsh stand but considerable fluctuations for the mangroves and bare mudflat. These results indicate that mangroves accumulated P when there was a high P discharge event, and that this P was eventually released during organic matter decomposition and contributed to Ca-P formation. Nevertheless, old and young mangroves accumulated higher sedimentary P species, OP, and BAP compared to the salt marsh stand and bare mudflat areas. This study showed the potential of mangroves planted outside their suitable climate zone to preserve and regulate P.