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Carbon sequestration and decreased CO2 emission caused by terrestrial aquatic photosynthesis:Insights from diel hydrochemical variations in an epikarst spring and two spring-fed ponds in different seasons
R. Yang; B. Chen; H. Liu; Z. Liu; H. Yan
2015
发表期刊Applied Geochemistry
卷号63期号:2页码:248-260
摘要Whether carbonate weathering could produce a stable carbon sink depends primarily on the utilization of dissolved inorganic carbon (DIC) by aquatic phototrophs (the so-called Biological Carbon Pump-BCP effect). On this basis, water temperature (T), pH, electrical conductivity (EC) and dissolved oxygen (DO) were synchronously monitored at 15-min resolution for one and two days respectively in January and October 2013 in Maolan Spring and the spring-fed midstream and downstream ponds in Maolan Nature Reserve, China. A thermodynamic model was used to link the continuous data to allow calculation of CO2 partial pressures (pCO(2)) and calcite saturation indexes (SIC). A floating static chamber was placed on the water surface successively at all sites to quantify CO2 exchange flux between atmosphere and water so as to evaluate the BCP effect. Results show that, in both winter and autumn, remarkable diel variations of hydrochemical parameters were present in the midstream pond where DO, pH, and SIC increased in the day and decreased during the night while EC, [HCO3-], [Ca2+] and pCO(2) showed inverse changes mainly due to the metabolic processes of the flourishing submerged plants, with photosynthesis dominating in the day and respiration dominating at night. However, hydrochemical parameters in the spring and downstream pond show less change since few submerged plants developed there. It was determined that the BCP effect in the midstream pond was 285 +/- 193 t C km(-2) a(-1) in winter and 892 +/- 300 t C km(-2) a(-1) in autumn, indicating a potential significant role of terrestrial aquatic photosynthesis in stabilizing the carbonate weathering-related carbon sink.
学科领域环境地球化学
收录类别SCI
语种英语
文献类型期刊论文
条目标识符http://ir.gyig.ac.cn/handle/352002/6064
专题环境地球化学国家重点实验室_环境地球化学国家重点实验室_期刊论文
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GB/T 7714
R. Yang,B. Chen,H. Liu,et al. Carbon sequestration and decreased CO2 emission caused by terrestrial aquatic photosynthesis:Insights from diel hydrochemical variations in an epikarst spring and two spring-fed ponds in different seasons[J]. Applied Geochemistry,2015,63(2):248-260.
APA R. Yang,B. Chen,H. Liu,Z. Liu,&H. Yan.(2015).Carbon sequestration and decreased CO2 emission caused by terrestrial aquatic photosynthesis:Insights from diel hydrochemical variations in an epikarst spring and two spring-fed ponds in different seasons.Applied Geochemistry,63(2),248-260.
MLA R. Yang,et al."Carbon sequestration and decreased CO2 emission caused by terrestrial aquatic photosynthesis:Insights from diel hydrochemical variations in an epikarst spring and two spring-fed ponds in different seasons".Applied Geochemistry 63.2(2015):248-260.
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