文献类型：期刊文献

英文题名：Responses of Soil Enzyme Activities and Microbial Community Structure and Functions to Cyclobalanopsis gilva Afforestation in Infertile Mountainous Areas of Eastern Subtropical China

作者：Huang, Shengyi[1,2] Ding, Yafei[1,2] Xu, Yonghong[3] Bao, Yuequn[4] Lin, Yukun[1,2] Zhou, Zhichun[1,2] Wang, Bin[1,2]

第一作者：Huang, Shengyi

机构：[1] Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Hangzhou, 311400, China; [2] Zhejiang Key Laboratory of Forest Genetics and Breeding, Hangzhou, 311400, China; [3] Shouchang Forest Farm, Jiande, 311600, China; [4] Jiande Municipal Forestry Bureau, Jiande, 311600, China

年份：2026

卷号：17

期号：2

外文期刊名：Forests

收录：EI(收录号：20260920179902)

语种：英文

外文关键词：Biomass - Biotic - Cultivation - Ecology - Forest ecology - Genes - Metabolism - Microorganisms - Physiology - Reforestation - Soil quality

摘要：The effect of afforestation in infertile mountainous areas is closely related to the soil ecological environment. Soil enzyme activities and the structure and functions of microbial communities are core indicators reflecting soil quality. Clarifying the response patterns of the two to Cyclobalanopsis gilva afforestation in infertile mountainous areas can provide a key scientific basis for targeted improvement of the cultivation efficiency of C. gilva plantations under different site conditions in the eastern subtropical region of China. In this study, 7-year-old C. gilva young forests in infertile mountainous areas and control woodland areas were selected in Shouchang Forest Farm, Jiande, Zhejiang Province, located in the subtropical region of China. Soil enzyme activities and microbial biomass in different soil layers, as well as metagenomes of rhizosphere and bulk soils, were determined to explore the effects and internal correlations of site conditions on soil enzyme activities and microbial community characteristics of C. gilva forests. The results showed that the activities of urease and catalase, as well as the content of microbial biomass nitrogen in the surface soil of infertile mountainous areas, were significantly lower than those in control woodland areas. The shared dominant phyla in the two types of sites included Proteobacteria and Acidobacteria, and the shared dominant genera included Bradyrhizobium. In addition, the relative abundances of three unclassified populations of Proteobacteria and functional genes related to cofactor and vitamin metabolism in the rhizosphere soil of infertile mountainous areas were significantly higher than those in control woodland areas. Meanwhile, the dominant microbial phyla in the rhizosphere soil of infertile mountainous areas had a closer correlation with soil enzyme activities and microbial biomass. This study clarified the ecological strategy of C. gilva young forests adapting to infertile mountainous areas: by increasing the relative abundances of functional genes related to cofactor and vitamin metabolism in rhizosphere microorganisms, promoting the enrichment of microorganisms associated with soil nitrogen cycling, and enhancing the correlations between dominant microbial phyla and soil enzyme activities and microbial biomass, the nitrogen resource limitation on soil microbial activity in infertile mountainous areas is balanced. This finding provides direct guidance for optimizing the afforestation and management techniques of C. gilva in infertile mountainous areas and has important practical value for promoting forest ecological restoration. ? 2026 by the authors.