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Responses of soil nitrogen mineralization of evergreen broad-leaved forest in rainy area of western China to moisture and temperature

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ã€Authorã€‘ TANG Hai-long;WANG Jing-yan;HUANG Shuai;GONG Wei;ZHOU Yu-bo;College of Forestry,Sichuan Agricultural University,Sichuan Provincial Key Laboratory of Ecological Forestry Engineering;State Key Laboratory of Soil and Sustainable Agriculture,Institute of Soil Science,Chinese Academy of Sciences,Nanjing;

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ã€Abstractã€‘ ã€Objectiveã€‘ To clarify the response of nitrogen mineralization to soil moisture and temperature in order to provide a scientific basis for the evaluation on regional soil nitrogen supply potential,and prediction of the impacts of regional hydrothermal changes on soil nitrogen mineralization.ã€Methodã€‘ A laboratory incubation experiment was conducted to study the effects of different temperaturesï¼ˆ5,15,25 and 35 â„ƒï¼‰ and moisturesï¼ˆ20%,40%,60% and 80% field water capacity,FWCï¼‰ on soil nitrogen mineralizationï¼ˆ0 to 20 cmï¼‰ of the evergreen broad-leaved forest in rainy area of western China.ã€Resultã€‘ Soil temperature and moisture significantly affected the soil nitrogen mineralizationï¼ˆP<0.05ï¼‰.Under same moisture condition,soil net ammonification rate,net nitrification rate and net nitrogen mineralization rate increased with the increase of temperature and reached the maximum under 25 â„ƒ treatment,and then decreased with the increase of temperature.Under same temperature,the soil net ammonification rate,net nitrification rate and net nitrogen mineralization rate increased with the increase of moisture and reached the maximum under 60% FWC treatment,and then decreased with increase of moisture.In all treatments,the soil net ammonification rate,net nitrification rate and net nitrogen mineralization rate were highest under 25 â„ƒ and 60% FWC treatment;and they reached the minimum under 5â„ƒ and 20% FWC treatment.The optimal temperature and moisture of soil net nitrogen mineralization were 25.8 â„ƒ and 57.4% FWC.Ammonium accounted for 54.1% to 61.7% of inorganic nitrogen derived from net N mineralization.Q₁₀ decreased with the increase of temperature in range of 5 to 35â„ƒ.Net nitrogen mineralization was most sensitive at 5 to 15 â„ƒ.ã€Conclusionã€‘ Appropriate soil temperature and moisture are important for promoting nitrogen mineralization rate of the evergreen broad-leaved forest.To some extent,the climate warming can promote nitrogen mineralization and enhance soil nitrogen supply potential,but rainfall increases the risk of soil nitrogen leaching in research area.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ nitrogen mineralizationï¼› Q₁₀ï¼› moisture and temperatureï¼› evergreen broad-leaved forestï¼› rainy area of western Chinaï¼›

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Responses of soil nitrogen mineralization of evergreen broad-leaved forest in rainy area of western China to moisture and temperature

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