Spatiotemporal variability and environmental effects of greenhouse gases, nutrients, and dissolved carbons in an ice-covered reservoir

溶解有机碳 冰芯 环境化学 温室气体 环境科学 一氧化二氮 化学 大气科学 海洋学 地质学 有机化学
作者
Jin Ye,Jingu Kang,Xiaoqiang Chen,Haopeng Guan,Tao Hu,Zhao Huade,Zhijun Li,Shiguo Xu
出处
期刊:Environmental Research [Elsevier BV]
卷期号:239: 117375-117375
标识
DOI:10.1016/j.envres.2023.117375
摘要

Ice cover restructures the distribution of substances in ice and underlying water and poses non-negligible environmental effects. This study aimed to clarify the spatiotemporal variability and environmental effects of methane (CH4), nitrous oxide (N2O), total nitrogen (TN), total phosphorus (TP), dissolved organic carbon (DOC), and dissolved inorganic carbon (DIC) in ice and water columns during different ice-covered periods. We surveyed the ice-growth, ice-stability, and ice-melt periods in an ice-covered reservoir located in Northeast China. The results showed that underlying water (CH4: 1218.9 ± 2678.9 nmol L−1 and N2O: 19.3 ± 7.3 nmol L−1) and ice (CH4: 535.2 ± 2373.1 nmol L−1 and N2O: 9.9 ± 1.5 nmol L−1) were sources of atmospheric greenhouse gases. N2O concentrations were the highest in the bottom water of the reservoir while CH4 accumulated the most below the ice in the riverine zone. These can be attributed to differences in the solubilities and relative molecular masses of the two gases. Higher concentrations of N2O, TN, TP, DOC, and DIC were recorded in the underlying water than those in the ice due to the preferential redistribution of these substances in the aqueous phase during ice formation. Additionally, we distinguished between bubble and no-bubble areas in the riverine zone and found that the higher CH4 concentrations in the underlying water than those in the ice were due to CH4 bubbles. In addition, we reviewed various substances in ice-water systems and found that the substances in ice-water systems can be divided into solute exclusion and particle entrapment, which are attributed to differences between dissolved and particulate states. These findings are important for a comprehensive understanding of substances dynamics during ice-covered periods.

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