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Management actions mitigate the risk of carbon dioxide emissions from urban lakes

Lakes are recognized as important sources of carbon dioxide (CO2) emissions, which vary greatly across land use type. However, CO2 emissions from lakes in urban landscapes are generally overlooked despite their daily connections to human activity. Furthermore, the role of management actions in CO2 e...

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Bibliographic Details
Published in:Journal of environmental management 2023-10, Vol.344, p.118626-118626, Article 118626
Main Authors: Xiao, Qitao, Xiao, Wei, Luo, Juhua, Qiu, Yinguo, Hu, Cheng, Zhang, Mi, Qi, Tianci, Duan, Hongtao
Format: Article
Language:English
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Summary:Lakes are recognized as important sources of carbon dioxide (CO2) emissions, which vary greatly across land use type. However, CO2 emissions from lakes in urban landscapes are generally overlooked despite their daily connections to human activity. Furthermore, the role of management actions in CO2 emissions remained unclear mostly because of the lack of long-term observations. Here, the CO2 partial pressure (pCO2) from two urban lakes (Lake Wuli and Lake Donghu) in eastern China were investigated based on 16-year (2002–2017) field measurements. This long-term measurements showed the annual mean pCO2 were 1150 ± 612 μatm for Lake Wuli and 1143 ± 887 μatm for Lake Donghu, with corresponding estimated flux of 21.12 ± 19.60 mmol m−2 d−1 and 16.42 ± 20.39 mmol m−2 d−1, respectively. This indicates significant CO2 evasion into the atmosphere. Strong links between CO2 and human-derived nutrients (e.g., ammonium) and dissolved organic carbon, dissolved oxygen, and trophic state index were found. Although pCO2 was relatively uniform across sites and seasons in each lake, substantial inter-annual variability with significant decreasing trends were found. The decrease in annual CO2 can be partly explained by the reduction of pollutant loadings with management actions, which held the hypotheses that management actions mitigated the CO2 emission risks. Overall, management actions (e.g., ecological restoration and municipal engineering) should be considered for better understanding the roles of anthropogenic aquatic ecosystems in carbon cycle. •CO2 dynamics of two urban lakes were reported based on 16-year measurements.•Two eutrophic urban lakes acted as significant CO2 sources.•Anthropogenic input and organic carbon mineralization contributed to the emissions.•Management actions can significantly reduce the CO2 emissions from urban lakes.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2023.118626