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Anthropogenically Enhanced Chemical Weathering and Carbon Evasion in the Yangtze Basin

Overview
Journal Sci Rep
Specialty Science
Date 2015 Jul 8
PMID 26150000
Citations 8
Authors
Jingheng Guo
Fushun Wang
Rolf David Vogt
Yuhang Zhang
Cong-Qiang Liu
Affiliations
Soon will be listed here.
Abstract

Chemical weathering is a fundamental geochemical process regulating the atmosphere-land-ocean fluxes and earth's climate. It is under natural conditions driven primarily by weak carbonic acid that originates from atmosphere CO2 or soil respiration. Chemical weathering is therefore assumed as positively coupled with its CO2 consumption in contemporary geochemistry. Strong acids (i.e. sulfuric- and nitric acid) from anthropogenic sources have been found to influence the weathering rate and CO2 consumption, but their integrated effects remain absent in the world largest river basins. By interpreting the water chemistry and overall proton budget in the Yangtze Basin, we found that anthropogenic acidification had enhanced the chemical weathering by 40% during the past three decades, leading to an increase of 30% in solute discharged to the ocean. Moreover, substitution of carbonic acid by strong acids increased inorganic carbon evasion, offsetting 30% of the CO2 consumption by carbonic weathering. Our assessments show that anthropogenic loadings of sulfuric and nitrogen compounds accelerate chemical weathering but lower its CO2 sequestration. These findings have significant relevance to improving our contemporary global biogeochemical budgets.

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References
1.
Bianchi T . The role of terrestrially derived organic carbon in the coastal ocean: a changing paradigm and the priming effect. Proc Natl Acad Sci U S A. 2011; 108(49):19473-81. PMC: 3241778. DOI: 10.1073/pnas.1017982108. View
2.
Aquilina L, Poszwa A, Walter C, Vergnaud V, Pierson-Wickmann A, Ruiz L . Long-term effects of high nitrogen loads on cation and carbon riverine export in agricultural catchments. Environ Sci Technol. 2012; 46(17):9447-55. DOI: 10.1021/es301715t. View
3.
Guo J, Liu X, Zhang Y, Shen J, Han W, Zhang W . Significant acidification in major Chinese croplands. Science. 2010; 327(5968):1008-10. DOI: 10.1126/science.1182570. View
4.
Bian Z, Miao X, Lei S, Chen S, Wang W, Struthers S . The challenges of reusing mining and mineral-processing wastes. Science. 2012; 337(6095):702-3. DOI: 10.1126/science.1224757. View
5.
Raymond P, Hartmann J, Lauerwald R, Sobek S, McDonald C, Hoover M . Global carbon dioxide emissions from inland waters. Nature. 2013; 503(7476):355-9. DOI: 10.1038/nature12760. View