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Water chemistry in forested acid sensitive sites in sub-tropical Asia receiving acid rain and alkaline dust

Vitenskapelig artikkel
Publiseringsår
2007
Tidsskrift
Applied Geochemistry
Eksterne nettsted
Cristin
Doi
NIVA-involverte
Rolf David Vogt
Forfattere
Rolf David Vogt, Jingheng Guo, Jiahai Luo, Xiaoyu Peng, Renjun Xiang, Jinsong Xiao, Xiaoshan Zhang, Zhao Dawei, Yu Zhao

Sammendrag

Acid rain, due to wet and dry deposition of S and N compounds, is an increasing environmental problem in China. A considerable deposition of alkaline dust serves to mitigate the acidifying effect to varying extent. Data from 3 years, a monitoringof water chemistry in 10 water compartments (i.e., two qualities of deposition, two types of throughfall, solution infive genetic soil horizons, and runoff) at five well documented sub-tropical forested catchments, have been interpreted in order to identify key processes govening the water chemistry in catchments suffering acid rain. This study of water chemistry in regions with sub-tropical climate supplements similar monitoring studies conducted in temperate regions with different types of soils and compositions of deposition. Natural organic acids as well as nutrient cycling of K+ have strong influence on the water chemistry in throughfall and upper soil horizons at the relatively pristine sites. At sites receiving elevated S and N deposition an accelerated cycling of K+ removes much of the mineral acidity in throughfall. The soil uptake of this K+ results in release of H+. Nitrification and/or assimilation of a substantial deposition of reduced N contributes at some sites also significantly to the acidity in the soils. During the study period, Ca2+ in solution was exchanged for Al3+ in the soils with an effective base saturation less than 20%. In deeper soil horizons most of this mobilized Al is readsorbed along with SO4 2- .