IMHE OpenIR  > 山地表生过程与生态调控重点实验室
modelingeffectsoftemperatureandprecipitationoncarboncharacteristicsandghgsemissionsinabiesfabricforestofsubaipine
LU Xuyang; CHENG Genwei; XIAO Feipeng; FAN Jihui
2008
Source Publicationjournalofenvironmentalsciences
ISSN1001-0742
Volume020Issue:003Pages:339
AbstractAbies fabric forest in the eastern slope of Gongga mountain is one type of subalpine dark coniferous forests of southwestern China. It is located on the southeastern edge of the Qinghai-Tibet plateau and is sensitive to climatic changes. A process-oriented biogeochemical model, Forest-DNDC, was applied to simulate the effects of climatic factors, temperature and precipitation changes on carbon characteristics, and greenhouse gases (GHGs) emissions in A. fabric forest. Validation indicated that the Forest-DNDC could be used to predict carbon characteristics and GHGs emissions with reasonable accuracy. The model simulated carbon fluxes, soil carbon dynamics, soil CO2, N2O, and NO emissions with the changes of temperature and precipitation conditions. The results showed that with variation in the baseline temperature from -2℃ to +2℃, the gross primary production (GPP) and soil organic carbon (SOC) increased, and the net primary production (NPP) and net ecosystem production (NEP) decreased because of higher respiration rate. With increasing baseline precipitation the GPP and NPP increased slightly, and the NEP and SOC showed decreasing trend. Soil CO2 emissions increased with the increase of temperature, and CO2 emissions changed little with increased baseline precipitation. With increased temperature and decreased baseline temperature, the total annual soil N2O emissions increased. With the variation of baseline temperature from -2℃ to +2℃, the total annual soil NO emissions increased. The total annual N2O and NO emissions showed increasing trends with the increase of precipitation. The biogeochemical simulation of the typical forest indicated that temperature changes strongly affected carbon fluxes, soil carbon dynamics, and soil GHGs emissions. The precipitation was not a principal factor affecting carbon fluxes, soil carbon dynamics, and soil CO2 emissions, but changes in precipitation could exert strong effect on soil N2O and NO emissions.
Language英语
Document Type期刊论文
Identifierhttp://ir.imde.ac.cn/handle/131551/31613
Collection山地表生过程与生态调控重点实验室
Affiliation中国科学院成都山地灾害与环境研究所
First Author Affilication中国科学院水利部成都山地灾害与环境研究所
Recommended Citation
GB/T 7714
LU Xuyang,CHENG Genwei,XIAO Feipeng,et al. modelingeffectsoftemperatureandprecipitationoncarboncharacteristicsandghgsemissionsinabiesfabricforestofsubaipine[J]. journalofenvironmentalsciences,2008,020(003):339.
APA LU Xuyang,CHENG Genwei,XIAO Feipeng,&FAN Jihui.(2008).modelingeffectsoftemperatureandprecipitationoncarboncharacteristicsandghgsemissionsinabiesfabricforestofsubaipine.journalofenvironmentalsciences,020(003),339.
MLA LU Xuyang,et al."modelingeffectsoftemperatureandprecipitationoncarboncharacteristicsandghgsemissionsinabiesfabricforestofsubaipine".journalofenvironmentalsciences 020.003(2008):339.
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