地址:辽宁省沈阳市沈河区文化路72号永利娱高ylg060net
邮编:110016
邮箱:pency@outlook.com
植物功能性状;生态系统服务;微生物群落演替;城市植被生长
2018.09~2023.06,中南林业科技大学,生态学,博士,导师:刘曙光
2015.09~2018.06,中南林业科技大学,生态学,硕士,导师:闫文德
2011.09~2015.06,中南林业科技大学,生态学,本科,导师:闫文德 教授
2023/07-至今,永利娱高ylg060net,特别研究助理(博士后)
1. 湖南省教育厅,湖南省研究生科技创新项目,CX20200703,湘江微塑料环境行为与微生物群落互作机制研究,2020.07-2022.07,1万元,结题,主持
2. 湖南省教育厅,湖南省研究生科技创新项目,CX20210858,助力碳达峰/碳中和:湖南省陆地生态系统固碳供给能力研究,2021.07-2023.07,1万元,在研,参与
3. 国家自然科学基金联合基金项目,U20A2089,洞庭湖流域生态服务时空演变与调控机制研究,2021.01-2024.12,264万元,在研,参与
4. 国家自然科学基金面上项目,41971152,湘江流域物质横向迁移对C、N、P循环的影响,2020.01-2023.12,68万元,在研,参与
5. 国家自然科学基金青年项目,31600355,杉木叶脉特征与比叶性状的关联分析及过程调控研究,18万元,结题,参与
1. Peng, X., Jiang, S., Liu, S., Valbuena, R., Smith, A., Zhan, Y., et al., 2023. Long-term satellite observations show continuous increase of vegetation growth enhancement in urban environment. Science of The Total Environment, 898, 165515.
2. Peng, X., Zhao, M., Liu, S. and Yan, W. 2021. Half-leaf width symmetric distribution reveals buffering strategy of Cunninghamia lanceolata. BMC Plant Biology 21(1), 1-11.
3. Peng, X., Zhao, M., Liu, S. and Yan, W. 2023. Leaf traits of Chinese fir (Cunninghamia lanceolata) do not support the well-accepted ‘flux trait network’ hypothesis. Journal of Plant Ecology 16(2), rtac030.
4. 彭曦,闫文德, 王凤琪, 王光军, 玉昉永,赵梅芳 2018. 基于叶干质量比的杉木比叶面积估算模型的构建. 植物生态学报 42(2), 209-219.
5. 彭曦,闫文德, 王光军,赵梅芳 2018. 杉木叶形态特征与叶面积估算模型. 生态学报 38(10).
6. Feng, S., Liu, S., Huang, Z., Jing, L., Zhao, M., Peng, X., Yan, W., Wu, Y., Lv, Y. and Smith, A.R. 2019. Inland water bodies in China: Features discovered in the long-term satellite data. Proceedings of the National Academy of Sciences 116(51), 25491-25496.
7. Shi, Y., Liu, S., Yan, W., Zhao, S., Ning, Y., Peng, X., Chen, W., Chen, L., Hu, X. and Fu, B. 2021. Influence of landscape features on urban land surface temperature: Scale and neighborhood effects. Science of the Total Environment 771, 145381.
8. Jiang, Y., Liu, S., Liu, M., Peng, X., Liao, X., Wang, Z. and Gao, H. 2022. A systematic framework for continuous monitoring of land use and vegetation dynamics in multiple heterogeneous mine sites. Remote Sensing in Ecology and Conservation 8(6), 793-807.
9. Zhan, Y., Liu, F., Peng, X., & Wang, G. (2020). The effects of different burning intensities on soil properties during recovery stage of forests in subtropical China. Journal of Soil and Water Conservation, 75(2), 166-176.
10. Tang, W., Liu, S., Kang, P., Peng, X., Li, Y., Guo, R., Jia, J., Liu, M. and Zhu, L. 2021. Quantifying the lagged effects of climate factors on vegetation growth in 32 major cities of China. Ecological Indicators 132, 108290.
11. Gao, H., Liu, S., Feng, S., Peng, X., Ning, Y., Shi, Y., Wang, Z., Wei, B. and Yan, W. 2023. Nonlinear imprints of forest coverage on the relationships between gross primary production (GPP) and landscape patterns. Ecological Indicators 146, 109783.
12. Shu, Y., Liu, S., Wang, Z., Xiao, J., Shi, Y., Peng, X., Gao, H., Wang, Y., Yuan, W. and Yan, W. 2022. Effects of Aerosols on Gross Primary Production from Ecosystems to the Globe. Remote Sensing 14(12), 2759.
13. Gao, H., Liu, S., Lu, W., Smith, A.R., Valbuena, R., Yan, W., Wang, Z., Xiao, L., Peng, X. and Li, Q. 2021. Global analysis of the relationship between reconstructed solar-induced chlorophyll fluorescence (SIF) and gross primary production (GPP). Remote Sensing 13(14), 2824.
14. Wang, Z., Liu, S., Wang, Y.-P., Valbuena, R., Wu, Y., Kutia, M., Zheng, Y., Lu, W., Zhu, Y., Zhao, M., Peng, X., Gao, H., Feng, S., and Shi, Y. 2021. Tighten the Bolts and Nuts on GPP Estimations from Sites to the Globe: An Assessment of Remote Sensing Based LUE Models and Supporting Data Fields. Remote Sensing 13(2), 168.