张方月 助理研究员
个人履历
教育经历:
2012年~2019年 中国科学院地理科学与资源研究所 理学博士
2012年~2015年 中国科学院沈阳应用生态研究所 理学硕士
2008年~2012年 南京信息工程大学 理学学士
主要工作经历:
2025年至今 泥巴影院 助理研究员
2024-2025年 美国亚利桑那大学 助理研究员
2019-2023年 美国亚利桑那大学,美国农业部西南流域研究中心 博士后
科学研究
科研项目
1. 美国亚利桑那大学RII Seed Grant基金项目 2021-2022 主持
2. 美国宇航局Carbon Uptake in a Drier World项目 2021-2025 骨干
3. 国家自然科学基金面上项目 草地生态系统碳循环对降雨的响应阈值及机理 2015-2018 骨干
代表性学术论文(*通讯作者):
1. Zhang, F.*, Biederman, J. A., Pierce, N. A., Potts, D. L., Reed, S. C., & Smith, W. K. (2025). Direct and Legacy Effects of Varying Cool-Season Precipitation Totals on Ecosystem Carbon Flux in a Semi-Arid Mixed Grassland. Plant, Cell & Environment, 48 (2), 943–952.
2. Tang, W., Zhang, F.*, Stoy, P. C., Scott, R. L., Tang, A. C. I., & Fu, Z.* (2025) Contribution of carbon dioxide concentration to the diurnal variation in land surface carbon dioxide uptake from the atmosphere. Plant, Cell & Environment, pce.15638.
3. Zhang, F.*, Biederman, J. A., Devine, C. J., Pierce, N. A., Yan, D., Potts, D. L., & Smith, W. K. (2025). Differential phenological responses of plant functional types to the temporal repackaging of precipitation in a semiarid grassland. Plant and Soil.
4. Zhang, F.*, Biederman, J. A., Schlaepfer, D. R., Bradford, J. B., Reed, S. C., & Smith, W. K. (2025). Increasing Soil Water Drought in Response to Altered Precipitation Timing Across the Western United States. Ecohydrology, 18(2), e2749.
5. Zhang, F.*, Biederman, J. A., Devine, C. J., Pierce, N. A., Yan, D., Javadian, M., Potts, D. L., & Smith, W. K. (2023). Using high frequency digital repeat photography to quantify the sensitivity of a semi-arid grassland ecosystem to the temporal repackaging of precipitation. Agricultural and Forest Meteorology, 338, 109539.
6. Zhang, F.*, Biederman, J. A., Pierce, N. A., Potts, D. L., Devine, C. J., Hao, Y., & Smith, W. K. (2022). Precipitation temporal repackaging into fewer, larger storms delayed seasonal timing of peak photosynthesis in a semi-arid grassland. Functional Ecology, 36(3), 646–658.
7. Zhang, F.*, Biederman, J. A., Dannenberg, M. P., Yan, D., Reed, S. C., & Smith, W. K. (2021). Five Decades of Observed Daily Precipitation Reveal Longer and More Variable Drought Events Across Much of the Western United States. Geophysical Research Letters, 48(7), e2020GL092293. (ESI高被引论文)
8. Zhang, F., Quan, Q., Ma, F., Tian, D., Hoover, D. L., Zhou, Q., & Niu, S.* (2019). When does extreme drought elicit extreme ecological responses? Journal of Ecology, 107(6), 2553–2563.
9. Zhang, F., Quan, Q., Ma, F., Tian, D., Zhou, Q., & Niu, S.* (2019). Differential responses of ecosystem carbon flux components to experimental precipitation gradient in an alpine meadow. Functional Ecology, 33(5), 889–900.
10. Zhang, F., Quan, Q., Ma, F., Zhou, Q., & Niu, S.* (2021). Clipping increases ecosystem carbon sequestration and its sensitivity to precipitation change in an alpine meadow. Plant and Soil, 458(1), 165–174.
11. Zhang, F., Quan, Q., Song, B., Sun, J., Chen, Y., Zhou, Q., & Niu, S.* (2017). Net primary productivity and its partitioning in response to precipitation gradient in an alpine meadow. Scientific Reports, 7(1), 15193.
12. Biederman, J. A., Zhang, F., Dannenberg, M. P., Yan, D., Reed, S. C., & Smith, W. K. (2024). Reply to Comment on “Five Decades of Observed Daily Precipitation Reveal Longer and More Variable Drought Events Across Much of the Western United States.” Geophysical Research Letters, 51(1), e2023GL105124.
13. Feldman, A. F., Reed, S., Amaral, C., …, Zhang, F., … (2024). Adaptation and Response in Drylands (ARID): Community Insights for Scoping a NASA Terrestrial Ecology Field Campaign in Drylands. Earth’s Future, 12(9), e2024EF004811.
14. Ma, F., Zhang, R., Svenning, J.-C., Zhang, F., He, Y., Wang, J., Tian, D., Zhou, Q., & Niu, S. (2024). Decoupled responses of the stability of above- and belowground productivity to drought and clipping in an alpine meadow. Journal of Ecology, 112(11), 2585–2597.
15. Javadian, M., Scott, R. L., Biederman, J. A., Zhang, F., Fisher, J. B., Reed, S. C., Potts, D. L., Villarreal, M. L., Feldman, A. F., & Smith, W. K. (2023). Thermography captures the differential sensitivity of dryland functional types to changes in rainfall event timing and magnitude. New Phytologist, 240, 114–126.
16. He, Y. L., Wang, J. S., Tian, D. S., Quan, Q., Jiang, L., Ma, F. F., Yang, L., Zhang, F., Zhou, Q. P., & Niu, S. L. (2022). Long-term drought aggravates instability of alpine grassland productivity to extreme climatic event. Ecology, e3792.
17. Quan, Q., Zhang, F., Jiang, L., Chen, H. Y. H., Wang, J., Ma, F., Song, B., & Niu, S. (2021). High-level rather than low-level warming destabilizes plant community biomass production. Journal of Ecology, 109(4), 1607–1617.
18. Ma, F., Zhang, F., Quan, Q., Wang, J., Chen, W., Wang, B., Zhou, Q., & Niu, S. (2021). Alleviation of light limitation increases plant diversity and ecosystem carbon sequestration under nitrogen enrichment in an alpine meadow. Agricultural and Forest Meteorology, 298–299, 108269.
19. Li, Z., Zeng, Z., Tian, D., Wang, J., Fu, Z., Zhang, F., Zhang, R., Chen, W., Luo, Y., & Niu, S. (2020). Global patterns and controlling factors of soil nitrification rate. Global Change Biology, 26(7), 4147–4157.
20. Quan, Q., Zhang, F., Meng, C., Ma, F., Zhou, Q., Sun, F., & Niu, S. (2020). Shifting biomass allocation determines community water use efficiency under climate warming. Environmental Research Letters, 15(9), 094041.
21. Ma, F., Song, B., Quan, Q., Zhang, F., Wang, J., Zhou, Q., & Niu, S. (2020). Light Competition and Biodiversity Loss Cause Saturation Response of Aboveground Net Primary Productivity to Nitrogen Enrichment. Journal of Geophysical Research: Biogeosciences, 125(3), e2019JG005556.
22. Chen, W., Wang, B., Zhang, F., Li, Z., Wang, J., Yu, G., Wen, X., & Niu, S. (2020). Hysteretic relationship between plant productivity and methane uptake in an alpine meadow. Agricultural and Forest Meteorology, 288–289, 107982.
23. Ma, F., Zhang, F., Quan, Q., Song, B., Wang, J., Zhou, Q., & Niu, S. (2020). Common Species Stability and Species Asynchrony Rather than Richness Determine Ecosystem Stability Under Nitrogen Enrichment. Ecosystems.
24. Quan, Q., Tian, D., Luo, Y., Zhang, F., Crowther, T. W., Zhu, K., Chen, H. Y. H., Zhou, Q., & Niu, S. (2019). Water scaling of ecosystem carbon cycle feedback to climate warming. Science Advances, 5(8).
25. Chen, W., Zhang, F., Wang, B., Wang, J., Tian, D., Han, G., Wen, X., Yu, G., & Niu, S. (2019). Diel and Seasonal Dynamics of Ecosystem-Scale Methane Flux and Their Determinants in an Alpine Meadow. Journal of Geophysical Research: Biogeosciences, 124(6), 1731–1745.
26. Wang, J., Song, B., Ma, F., Tian, D., Li, Y., Yan, T., Quan, Q., Zhang, F., Li, Z., Wang, B., Gao, Q., Chen, W., & Niu, S. (2019). Nitrogen addition reduces soil respiration but increases the relative contribution of heterotrophic component in an alpine meadow. Functional Ecology, 33(11), 2239–2253.
27. Quan, Q., Zhang, F., Tian, D., Zhou, Q., Wang, L., & Niu, S. (2018). Transpiration Dominates Ecosystem Water-Use Efficiency in Response to Warming in an Alpine Meadow. Journal of Geophysical Research: Biogeosciences, 123(2), 453–462.
28. Ma, F., Song, B., Zhang, F., Quan, Q., Zhou, Q., & Niu, S. (2018). Ecosystem Carbon Use Efficiency Is Insensitive to Nitrogen Addition in an Alpine Meadow. Journal of Geophysical Research: Biogeosciences, 123(8), 2388–2398.
29. He, T., Wang, Q., Wang, S., & Zhang, F. (2016). Nitrogen Addition Altered the Effect of Belowground C Allocation on Soil Respiration in a Subtropical Forest. PLOS ONE, 11(5), e0155881.
30. Wang, Q., Xiao, F., Zhang, F., & Wang, S. (2013). Labile soil organic carbon and microbial activity in three subtropical plantations. Forestry: An International Journal of Forest Research, 86(5), 569–574.
31. 张方月, 王清奎, 于小军. CO2浓度升高和N沉降对中亚热带森林土壤呼吸的短期影响. 生态学杂志, 2015,34(6),1638-1643.
32. 贺同鑫, 李艳鹏, 张方月, 王清奎. 林下植被剔除对杉木林土壤呼吸和微生物群落结构的影响. 植物生态学 报 2015 (08),797-806.
33. 王清奎, 李艳鹏, 张方月, 贺同鑫. 短期施氮肥降低杉木幼林土壤的根系和微生物呼吸. 植物生态学报 2015(12),1166-1175.
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