• Gender:Female
• Education Level:Graduate student graduate
• Alma Mater:兰州大学
• Degree:Doctorate
• Status:在岗
• School/Department:地理与环境科学学院
• Date of Employment:2023-09-04
• Business Address:17幢-802
• Contact Information:chenhl2023@zjnu.edu.cn
• E-Mail:ab7196176168e7946e93f3d325486e3afc6c10fc207e16911d88274033dd5eeddd8e685176349d95666aead312d881b5b3aa713b27cd56ebe91891e5095f085e16b59b274f4afc1581b4d89029054728d8bf51536534a2a5f4b2e2f2eda5a35b82da246458d7ae71b319b03e08f9bddc6757c6d70fbc636baba02be18fa6303e

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陈惠玲，女，湖北荆门人，博士，硕士生导师。2023年6月毕业于兰州大学地理学专业，获得博士学位，同年入职浙江师范大学地理与环境科学学院。

主要研究生态水文方向，涉及遥感蒸散发模型，模型参数优化，模型-数据融合方面。已在《Agricultural and Forest Meteorology》、《Journal of Hydrology》、《 Journal of Climate》和《Geoderma》等期刊发表多篇SCI论文。

主要科研成果：

1.参与开发了全球尺度的生态水文模型——SiTH (Simple Terrestrial Hydrosphere model)。

2.揭示了ET分割的不确定性来源——模型结构和参数。

3.探究了绿洲农田能量通量在不同时间尺度的变化特征及原因。

4.分析并量化了不同主导区域对全球地表蒸散发趋势和年际变化的贡献。

主持和参与的基金项目：

1、浙江省自然科学基金青年基金项目（QN26D010033）：亚热带人工杉木林根-土界面水分传输机制与耗水模拟研究，2026.1-2027.12，主持。

2、国家自然科学基金委员会面上项目（42171019）：基于地下水-土壤-植被-大气连续体理论的干旱灌丛生态系统蒸散发机制与模型研究, 2022-01-2025-12, 在研, 参与。

发表的代表性论文：

[1] Chen, H. L., Zhang, K*., Zhu, G. F*., Fan, L., Li. X., Wang, Y. Q., Wang, X. F., Shang, S. S., Jia, J., Zhu, Y. T., Xiao, J. F. The trend and interannual variability in the global terrestrial evapotranspiration are respectively dominated by humid regions and drylands. Journal of Hydrology. 2026. (Accepted)

[2] Chen, H. L., Zhu, Y. T., Zhu, G. F*., Zhang, Y., He, L. Y, Xu, C., Zhang, K., Ramamoorthy, A., Wang, J., Fan, H. C., Wang, B. Y. (2024). Energy partitioning over an irrigated vineyard in arid northwest China: Variation characteristics, influence degree, and path of influencing factors. Agricultural and Forest Meteorology, 350, 109972.

[3] Chen, H. L., Zhu, G. F*., Shang, S. S., Qin, W. H., Zhang, Y., Su, Y. H., Zhang, K., Zhu, Y. T., Xu, C. Uncertainties in partitioning evapotranspiration by two remote sensing-base models. Journal of Hydrology. 2022, 604, 127223.

[4] Chen, H. L., Zhu, G. F*., Zhang, K., Bi, J., Jia, X.P., Ding, B.Y., Zhang, Y., Shang, S.S., Zhao, N., Qin, W.H. Evaluation of evapotranspiration models using different LAI and meteorological forcing data from 1982 to 2017. Remote Sensing. 2020, 12, 2473. 

[5] Zhang, K¹, Chen, H. L¹., Ma, N., Shang, S. S., Wang, Y. Q., Qinglin Xu, Q. L.,  Zhu, G. F*. A global dataset of terrestrial evapotranspiration and soil moisture from 1982 to 2020. Scientific Data, 2024. (共同一作)

[6] Zhu, G.F*., Zhang, K*., Chen, H. L., Wang, Y.Q., Sun, Y.H., Zhang, Y., Ma, J.Z. Development and evaluation of a simple hydrologically based model for terrestrial evapotranspiration simulations. Journal of Hydrology. 2019, 577, 123928. 

[7] Shang S. S, Arnault J., Zhu G.*, Chen H. L., Wei J., Zhang K., Zhang Z., Laux P., and Kunstmann H. Recentincrease of spring precipitation over the Three-river Headwater region-water budget analysis based on global reanalysis (ERA5) and regional climate modeling (WRF). Journal of Climate. 2022, 35(22): 3599−3617.

[8] Zhang, K., Zhu, G. F*., Ma, N., Chen, H. L., Shang, S. S. Improvement of evapotranspiration simulation in a physically based ecohydrological model for the groundwater-soil-plant-atmosphere continuum. Journal of Hydrology. 2022, 613, 128440. 

[9] Zhang, Y., Zhu, G. F*, Yin, L., Ma, L., Xu, C., Chen, H. L., Ma, T., Su, Y. H., Zhu, Y. T., He, L. Y., Han, L. Optimal soil water content and temperature sensitivity differ among heterotrophic and autotrophic respiration from oasis agroecosystems. Geoderma. 2022, 425, 116071. 

[10] Shang, S. S., Zhu, G. F*., Li, R. L., Xu, J., Gu, J., Chen, H. L., Liu, X. W., Han, T., Decadal change in summer precipitation over the east of Northwest China and its associations with atmospheric circulations and sea surface temperatures.International Journal of Climate. 2020, 40(8): 3731−3747.

[11] Zhang, Y., Zhu, G. F*., Zhang, K., Huang, H., He, L. Y, Xu, C., Chen, H. L., Su, Y. H., Zhang, Y. Z., Fan, H. C., Wang, B. Y. (2024). Exploring the ecological meanings of temperature sensitivity of ecosystem respiration from different methods. Science of The Total Environment, 171403.

[12] Zhu, G. F*, Wang, X. F*, Xiao, J. F*, Zhang, K., Wang, Y. Q., He, H. L., Li, W. D., Chen, H. L. Daytime and nighttime warming has no opposite effects on vegetation phenology and productivity in the northern hemisphere. Science of The Total Environment. 2022, 822, 153386. 

[13] Su, Y. H*., Feng, Q., Zhu, G. F., Gu, C., Wang, Y. Q., Shang, S. S., Zhang, K., Han, T., Chen, H. L., Ma, J. Z. A hierarchical Bayesian approach for multi‐site optimization of a satellite‐based evapotranspiration model. Hydrological Processes. 2018, 32(26): 3907−3923. 

[14] 朱永泰, 陈惠玲, 秦文华, 徐聪, 张扬, 朱高峰. 干旱绿洲区葡萄园蒸腾特征及其对环境因子的响应[J]. 兰州大学学报（自然科学版）, 2022, 58(05): 569−578+587.

[15] 朱永泰, 陈惠玲, 徐聪, 秦文华, 张扬, 何力扬, 朱高峰. 西北干旱荒漠绿洲区葡萄园水热通量特征及其主要影响因素[J]. 广西植物,2022, 1−15.

[16] 许洁, 陈惠玲, 商沙沙, 杨欢, 朱高峰, 刘晓文. 2000—2014年青藏高原植被净初级生产力时空变化及对气候变化的响应[J]. 干旱区地理, 2020, 43(03): 592−601.

[17] 刘晓文, 韩拓, 陈惠玲, 许洁, 牛忠恩, 朱高峰. CEVSA模型参数敏感性分析及参数优化—以千烟洲亚热带人工针叶林为例[J]. 兰州大学学报（自然科学版）, 2020, 56(05): 700−710.

[18] 王尚涛, 许洁, 韩拓, 陈惠玲, 刘晓文, 朱高峰, 马金珠. 干旱绿洲区葡萄根系分布及水分利用策略[J]. 兰州大学学报（自然科学版）, 2020, 56(04): 537−544+552.

获得荣誉：

[1] 金华市自然科学优秀论文奖，二等奖，第一获奖者

[2] 2025年全国研学课程设计大赛，一等奖，第一指导老师

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