
首　页	网络介绍	CERN新闻	规章制度	在研项目	论文与出版物	学术动态	生态知识	人员招聘	人员组成	English

　　　　　机构介绍

　　　　　新闻栏目

　　　　　人员组成

　　　　　人员招聘

　　　　　在研项目

　　　　　论文与出版物

Seasonal responses of soil respiration to elevated CO2and N additionin young subtropical forest ecosystems in southern China

------------------------------------------------------------------------------------------

出版社：Ecological Engineering 　

发表时间：2013 　

台　　站：鼎湖山森林生态系统定位研究站　

作　　者：邓琦，周国逸等　

点击率：583644

------------------------------------------------------------------------------------------

关键字(英文)：Elevated CO2,Nitrogen deposition,Soil water feedback,Soil respiration,Soil carbon sequestration,Subtropical forest 　

摘　　要(英文)：tAtmospheric carbon dioxide (CO2) concentration and nitrogen (N) deposition may interactively impactsoil respiration in terrestrial ecosystems. However, the effects of elevated CO2and N deposition on soilrespiration are not fully understood especially in subtropical forest ecosystems in southern China whereambient N deposition is high. In this study, we investigated the seasonal responses of soil respiration toelevated CO2and N addition in young subtropical forest ecosystems in southern China using open-topchambers. Two CO2treatment levels (i.e., ambient CO2and 700 mol mol−1) and two N levels (i.e., ambientand 100 kg N ha−1yr−1) were considered. Forty-eight 1–2 years old seedlings (eight seedlings per each of6 species) were planted in each chamber. In the wet season, soil respiration significantly enhanced underelevated CO2and N addition with no interactive effect. There was not significant relationship betweentreatment-enhanced soil respiration and soil moisture in the wet season, suggesting that increases in soilrespiration resulted in large part from treatment-induced increases in tree growth and C inputs. In the dryseason, soil respiration significantly enhanced under elevated CO2, but did not significantly change underN addition. The N-induced change in soil respiration negatively corrected with soil moisture in the dryseason, indicating that decrease in soil moisture under N addition, together with increase in tree growthinteractively resulted in negligible net change in soil respiration. Our results highlighted the seasonalimportance of environmental controls under elevated CO2and N deposition in the assessment of soil Csequestration potential in subtropical forest ecosystems in southern China. 　

------------------------------------------------------------------------------------------

邓琦-2013-Ecological Engineering-Seasonal responses of soil respiration to elevated CO2and N addition in young subtropical forest ecosystems in southern China.pdf

相关文章：
	Changes in leaf nutrient traits and photosynthesis of four tree species:effects of elevated [CO2],N fertilization and canopy positions
	Quantification of Ecosystem Carbon Exchange Characteristics in a Dominant Subtropical Evergreen Forest Ecosystem
	Responses of Soil Acid Phosphomonoesterase Activity to Simulated Nitrogen Deposition in Three Forests of Subtropical China
	Effects of elevated carbon dioxide and nitrogen addition on foliar stoichiometry of nitrogen and phosphorus of five tree species in subtropical model forest ecosystems
	Nitrogen and phosphorus status and their influence on aboveground production under increasing nitrogen deposition in three successional forests
	Effects of Precipitation Increase on Soil Respiration: A Three-Year Field Experiment in Subtropical Forests in China
	Effects of elevated CO2 and nitrogen addition on soil organic carbon fractions in a subtropical forest
	Effects of nitrogen deposition on soil organic carbon fractions in the subtropical forest ecosystems of S China
	Three-decade changes in chemical composition of precipitation in Guangzhou city, southern China:has precipitation recovered from acidification following sulphur dioxide emission control?
	Changes in soil carbon sequestration in Pinus massoniana forests along an urban-to-rural gradient of southern China
相关文章分页：　共 70 页 696 条记录 9 3[61][62][63][64][65][66][67][68][69][70]4 :

| 网络介绍 | 联系方式 | 网站地图 |