pCO2 and CO2 fluxes of the metropolitan river network in relation to the urbanization of Chongqing, China

环境科学 二氧化碳 水文学(农业) 背景(考古学) 城市化 总有机碳 大都市区 温室气体 焊剂(冶金) 环境化学 地理 化学 地质学 生态学 海洋学 生物 考古 有机化学 岩土工程
作者
Xiaofeng Wang,Yixin He,Xingzhong Yuan,Huai Chen,Changhui Peng,Qiuan Zhu,Junsheng Yue,Haiqing Ren,Wei Deng,Honggao Liu
出处
期刊:Journal Of Geophysical Research: Biogeosciences [Wiley]
卷期号:122 (3): 470-486 被引量:96
标识
DOI:10.1002/2016jg003494
摘要

Abstract Most rivers of the world are supersaturated with carbon dioxide (CO 2 ), resulting in a large gas flux that has only recently been included in global carbon budgeting. However, little is known about CO 2 emissions from urban river networks suffering anthropogenic disturbance in the context of global urbanization. We surveyed the partial pressure of carbon dioxide ( p CO 2 ) and CO 2 flux from 84 locations in the Chongqing metropolitan river network, with an area of 5494 km 2 . The overall mean p CO 2 and CO 2 fluxes were 2152 µatm and 163.0 mol C m −2 yr −1 , respectively, with 318.9 mol C m −2 yr −1 from rivers in the completely urban area and 49.6 mol C m −2 yr −1 from the least urbanized area. The riverine p CO 2 level increased with the proportion of urban land, with 2–4 times higher CO 2 flux in the urban areas than the remote rural ones. Sites with low flow velocity, narrow channel, and factitious bottom sediment appeared to be local hot spots of CO 2 emission. The p CO 2 and CO 2 degassing was positively correlated with the nutrients content of surface water (i.e., nitrogen and phosphorus). Carbon was released to the atmosphere as CO 2 from Chongqing metropolitan river network at a rate of 12.3 × 10 9 mol C yr −1 . p CO 2 exhibited a clear seasonality with lower values in March 2015 and June 2015 but a higher value in September 2014, which was coregulated by temperature, flood dilution, and in situ photosynthesis. The results highlight that rapid urbanization, with increasing nutrients loading and anthropogenic activities, will alter the carbon biogeochemical cycle in the terrestrial‐aqueous‐atmospheric ecosystem and then impact global CO 2 budgets.
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