• Gender:Female
• Education Level:Graduate student graduate
• Alma Mater:中国科学院大学
• Degree:Doctorate
• Status:在岗
• School/Department:地理与环境科学学院
• Date of Employment:2023-09-11
• Discipline:Geo Science
• Business Address:17-210
• E-Mail:53a96dbf7f7cdf9d6f3888f628db1b2a93a3b33ef250c80f8defe9606f24aab3091f5030b8f887bfed55ae30c6451e8384921aa68ebc0bb882c8906a52e744b0e00da099c6630748da6aba59314c6fda410759502350b66e22ecff06ba98d7d87f8e31b1e3b5eec2742680e04fa2d55c83661e65d6add26e74d30edc87a02e5a

No content

祝玲月，浙江衢州人，1992年09月生，中共党员。2023年6月获中国科学院南京土壤研究所土壤学博士学位。近年来，主要从事土壤养分循环的生物学机制与调控、土壤质量演化及其调控机理等领域的研究。擅长微宇宙实验和多组学分析。参与国家重点研发计划和多个国家自然科学基金项目。迄今共发表SCI论文10余篇，中文核心4篇。曾获全国研究生数学建模竞赛二等奖、湖南省第二届研究生数学建模一等奖、湖南省优秀硕士学位论文、南京土壤研究所研究生论坛一等奖等奖项。

主要论文著作：

Lingyue Zhu, et al. 2023. Resource dependent biodiversity and potential multi-trophic interactions determine belowground functional trait stability. Microbiome, 11, 95.

Lingyue Zhu, et al. 2024.Community assembly of organisma regulates soil microbial functional potential through dual mechanisms. Global Change Biology, 30, e17160

Lingyue Zhu,  et al. 2020. Soil characteristics of Eucalyptus urophylla × Eucalyptus grandis plantations under different management measures for harvest residues with soil depth gradient across time. Ecological Indicators, 117, 106530. 

Lingyue Zhu,  et al. 2019. Effects of the successive planting of Eucalyptus urophylla on soil bacterial and fungal community structure, diversity, microbial biomass, and enzyme activity. Land Degradation and Development, 30, 6, 636–646. 

Lingyue Zhu, et al. 2021. Effects of burning harvested residues on the archaeal and bacterial communities of Eucalyptus urophylla substituting native vegetation. Applied Soil Ecology, 158,103796.

Zhengye Wang, Lingyue Zhu, (共同一作), Gerty Gielen, et.al. 2023. Potential effects of soil chemical and biological properties on wood volume in Eucalyptus urophylla × Eucalyptus grandis hybrid plantations and their responses to different intensity applications of inorganic fertilizer. Environmental Science and Pollution Research, 30, 1, 773–787.

Xiaoyue Wang, Qing Bian, Yuji Jiang, Lingyue Zhu, et al. 2021. Organic amendments drive shifts in microbial community structure and keystone taxa which increase C mineralization across aggregate size classes. Soil Biology & Biochemistry,153.

Qing Bian, Xiaoyue Wang, Xingguo Bao, Lingyue Zhu, et al. 2022. Exogenous substrate quality determines the dominant keystone taxa linked to carbon mineralization: Evidence from a 30-year experiment. Soil Biology and Biochemistry,169, 108683.

Pin Chen, Wei He, Yi Shen, Lingyue Zhu, et al. 2022. Interspecific Neighbor Stimulates Peanut Growth Through Modulating Root Endophytic Microbial Community Construction. Frontiers in Plant Science, 13, 830666.

Yanlin Deng, Zhongcheng Wang, Sheng Lu, Jie Zhong, Lingyue Zhu, et al. 2022. Soil quality assessment via the factor analysis of karst rocky desertification areas in Hunan, China. Soil Use and Management, 38, 1, 248–261.

Zhengye Wang, …, Lingyue Zhu, et al. 2022. Ecological niche differences regulate the assembly of bacterial community in endophytic and rhizosphere of Eucalyptus. Forest Ecology and Management,524,120521.

Chen Chen, …, Lingyue Zhu, et al. 2023. Decomposition of harvest residues and soil chemical properties in a Eucalyptus urophylla × grandis plantation under different residue management practices in southern China. Forest Ecology and Management, 529, 120756.

祝玲月，王晓玥，陈晏，卞清，包兴国，张久东，车宗贤，孙波. 2023. 微生物关键种影响植物残体还田条件下木质素酚浓度. 土壤

No content

No content

No content

No content