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Research on acidification in forest soil driven by atmospheric nitrogen deposition

Authors :
Jiangming Mo
Xiankai Lu
Wei Zhang
Juan Huang
Source :
Acta Ecologica Sinica. 34:302-310
Publication Year :
2014
Publisher :
Elsevier BV, 2014.

Abstract

Soil acidification is defined as the process in which exchangeable cations are leaching and soil H+ concentration is raising thereby increases soil acidity. Changes in soil pH value and acid neutralizing capacity are mainly indicators of soil acidification. Soil acidification is considered to be a serious ecological and environmental issue, which not only reduces soil quality, but also decreases biodiversity of forest ecosystem and induces forest decline. With nitrogen (N) deposition rapidly increasing, its contribution to soil acidification becomes a major concern in the world. However, the impact of increased N deposition on soil acidification is not well addressed highlighting the need for further attention to the issue. In this paper, the studies on forest soil acidification induced by N deposition were reviewed. The factors related to soil acidification driven by N deposition were classified and discussed, which included soil acidic buffering capacity, N components in atmospheric N deposition, climate, plant species in forests, and N status in ecosystem. Iron (Fe) buffering phase and the consequent Fe toxicity occurring to the acidified soil caused by high N deposition were concerned. The scarcity of phosphorus (P) element induced by soil acidification was particularly emphasized. The research methods used to study soil acidification driven by N deposition were also evaluated. In the end we stressed the importance of the study on soil acidification especially in tropical and subtropical regions driven by N deposition and its mechanisms. This paper can serve for maintaining sustainable forest and agricultural ecosystems.

Details

ISSN :
18722032
Volume :
34
Database :
OpenAIRE
Journal :
Acta Ecologica Sinica
Accession number :
edsair.doi...........f96bb2374c166e2788ca60cea216ab3c