Forest management causes soil carbon loss by reducing particulate organic carbon in Guangxi, Southern China

作     者：Xiaojie Li Qiufang Zhang Jiguang Feng Demeng Jiang Biao Zhu Xiaojie Li;Qiufang Zhang;Jiguang Feng;Demeng Jiang;Biao Zhu

作者机构：Institute of EcologyCollege of Urban and Environmental SciencesKey Laboratory for Earth Surface Processes of the Ministry of EducationPeking UniversityBeijing100871China 

出 版 物：《Forest Ecosystems》 (森林生态系统（英文版）)

年 卷 期：2023年第10卷第1期

页      面：73-81页

核心收录：

学科分类：0907[农学-林学] 09[农学] 0903[农学-农业资源与环境] 

基　　金：supported by the National Natural Science Foundation of China(Grant Nos.31988102 and 42141006)。 

主　　题：Soil organic carbon Forest management Mineral-associated organic carbon Particulate organic carbon Microbial necromass carbon 

摘      要：Background: The loss of soil organic carbon(SOC) following conversion of natural forests to managed plantations has been widely reported. However, how different SOC fractions and microbial necromass C(MNC) respond to forest management practices remains unclear.Methods: We sampled 0–10 cm mineral soil from three different management plantations and one protected forest in Guangxi, Southern China, to explore how forest management practices affect SOC through changing mineralassociated C(MAOC) and particulate organic C(POC), as well as fungal and bacterial necromass C.Results: Compared with the protected forest, SOC and POC in the abandoned, mixed and Eucalyptus plantations significantly decreased, but MAOC showed no significant change, indicating that the loss of SOC was mainly from decreased POC under forest management. Forest management also significantly reduced root biomass, soil extractable organic C, MNC, and total microbial biomass(measured by phospholipid fatty acid), but increased fungi-to-bacteria ratio(F:B) and soil peroxidase activity. Moreover, POC was positively correlated with root biomass, total microbial biomass and MNC, and negatively with F:B and peroxidase activity. These results suggested that root input and microbial properties together regulated soil POC dynamics during forest management.Conclusion: Overall, this study indicates that forest management intervention significantly decreases SOC by reducing POC in Guangxi, Southern China, and suggests that forest protection can help to sequester more soil C in forest ecosystems.