Atmospheric deposition coupled terrestrial export of organic carbon in Ganga River (India): linking cross-domain carbon transfer to river DOC

Jitendra Pandey; Anand V. Singh; Rachna Singh; Pooja Kaushik; Usha Pandey

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Atmospheric deposition coupled terrestrial export of organic carbon in Ganga River (India): linking cross-domain carbon transfer to river DOC

机译：恒河（印度）的大气沉积与地球有机碳输出耦合：将跨域碳转移与DOC河联系起来

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The atmosphere–land–water connectivity of dissolved organic carbon (DOC) is not altogether accounted in major rivers of India despite recent researches highlighting its importance. We studied the coupled effect of atmospheric deposition (AD) and local land use on DOC buildup in Ganga River for a period of 6?years. The AD-OC input increased consistently over time and there was over 1.5- to 1.8-fold increase in 2012 relative to 2007. Microbial activity and water soluble organic carbon (WSOC) in sub-catchment and DOC in land surface runoff increased consistently over time along the gradient of AD input. The river DOC showed positive correlation (R2?=?0.24–0.84; p?

机译：尽管最近的研究强调了溶解有机碳（DOC）在大气-土地-水之间的连通性，但在印度的主要河流中并未完全说明这一点。我们研究了恒河中大气沉降（AD）和当地土地利用对DOC堆积的耦合效应，历时6年。 AD-OC输入随时间持续增加，与2007年相比，2012年增加了1.5至1.8倍。子汇水区的微生物活性和水溶性有机碳（WSOC）和地表径流中的DOC随着时间的推移持续增加。沿AD输入的梯度。河流DOC与AD-OC呈正相关（R2≤0.24–0.84;p≤0.001），径流DOC和WSOC与土壤微生物活性呈正相关（R2≤0.96;p≤0.001）。。主成分分析将研究地点分为四组，划分了源关系。我们的研究形成了关于恒河中有机碳在大气-水-土地-水之间转移的第一份报告，建议未来的气候模型应包括特定区域的时间序列数据，这些数据涉及大气-土地-水的连通性变化以及碳的相关变化平衡主要河流，以更准确地预测气候变化驱动因素。

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《International Aquatic Research》 |2015年第4期|共13页
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Jitendra Pandey; Anand V. Singh; Rachna Singh; Pooja Kaushik; Usha Pandey;
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1. Impact of changing atmospheric deposition chemistry on carbon and nutrient loading to Ganga River: integrating land-atmosphere-water components to uncover cross-domain carbon linkages [J] . Pandey Jitendra, Pandey Usha, Singh Anand V. Biogeochemistry . 2014,第1a3期

机译：不断变化的大气沉积化学对恒河中碳和养分含量的影响：整合陆地-大气-水成分以揭示跨域碳连接
2. Integrating atmospheric deposition-driven nutrients (N and P), microbial and biogeochemical processes in the watershed with carbon and nutrient export to the Ganga River [J] . Siddiqui Ekabal, Pandey Jitendra, Pandey Usha, Biogeochemistry . 2020,第2期

机译：将大气沉积驱动的营养素（N和P），微生物和生物地球化学过程集成在流域中，用碳和营养出口到Ganga河流
3. Carbon dioxide emission coupled extracellular enzyme activity at land-water interface predict C-eutrophication and heavy metal contamination in Ganga River, India [J] . Jaiswal Deepa, Pandey Jitendra Ecological indicators . 2019,第APRa期

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4. River flux of dissolved organic carbon (DOC)and particulate organic carbon (POC) to theArctic Ocean: what are the consequences of theglobal changes? [C] . Viacheslav V. Gordeev, Marina D. Kravchishina NATO Advanced Research Workshop on Influence of Climate Change on the Changing Arctic and Sub-Arctic Conditions . 2009

机译：溶解有机碳（DOC）的河流通量和颗粒状有机碳（POC）到颅内海洋：GLOBAL变化的后果是什么？
5. Sources, fates, and export of organic carbon in the Colorado River Basin. [D] . Ulseth, Amber J. 2012

机译：科罗拉多河流域的有机碳的来源，命运和出口。
6. Alternative futures of dissolved inorganic nitrogen export from the Mississippi River Basin: influence of crop management atmospheric deposition and population growth [O] . Michelle L. McCrackin, John A. Harrison, Ellen J. Cooter, -1

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7. Atmospheric deposition coupled terrestrial export of organic carbon in Ganga River (India): linking cross-domain carbon transfer to river DOC [O] . 2015

机译：恒河（印度）的大气沉积与地球有机碳的出口耦合：将跨域碳转移与DOC河联系起来

Atmospheric deposition coupled terrestrial export of organic carbon in Ganga River (India): linking cross-domain carbon transfer to river DOC

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