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马俊杰

作者:   时间:2025-04-24   点击数:

基本信息

姓名:马俊杰      性别:女

民族:汉         出生年月:199002

学历:博士研究生    职称:讲师  

电子邮箱:majunjie@nynu.edu.cn

专业:大气物理学与大气环境

科研方向:寒区陆面过程与气候变化

主讲课程:气象学与气候学,遥感概论,地理文献检索与论文写作


学习及工作经历

2010.9-2014.6  兰州大学  大气科学学院  大气科学基地班(本科)

2018.9-2023.6  中国科学院大学  中国科学院西北生态环境资源研究院 大气物理学与大气环境(硕博连读)

2023.6-至今   南阳师范学院

教科研项目

(1) 河南省科技厅,河南省自然科学青年基金,252300421758,青藏高原及环北极多年冻土区陆面能水过程参数化方案改进,2025-01至2026-12,5万元,在研,主持

(2) 甘肃省科技厅,甘肃省优秀博士生项目,22JR5RA054,兰州马衔山与青藏高原多年冻土区陆面关键参数差异及其对气候变化的响应, 2022-10 至 2023-09,4万元,结题,主持

(3) 南阳师范学院,博士专项,2024ZX005,气候变化背景下青藏高原多年冻土区地表能量收支时空格局及其对冻融过程的影响,2023-12-,30万元,在研,主持

(4) 南阳师范学院,国家自然科学基金培育项目,2025PY002,青藏高原及环北极多年冻土区陆面能水过程参数化方案改进及优化,2024-12-,3万元,在研,主持

(5) 南阳师范学院,实验室开放项目,243407,基于气象学与气候学的校园气象观测实验设计,2024-11-,0.4万元,在研,主持

(6) 科技部, 国家重点研发计划项目子课题,2020YFA0608502,北极地—气系统能—水交换过程及参数化方案改进, 2020-11 至 2025-10, 32万元,在研,参与

(7) 国家自然科学基金委员会, 面上项目,42471168,北半球典型多年冻土区活动层冻融阶段陆面关键参数焓的变化过程、机理及空间格局, 2025-01-01至2028-12-31,48万元,在研,参与

(8) 国家自然科学基金委员会, 面上项目,42071093, 青藏高原与环北极典型多年冻土陆面关键参数变化机理及空间格局的区域差异, 2021-01-01至2024-12-31,56万元,资助期满,参与

(9) 甘肃省科技厅,甘肃省自然科学基金一般项目,22JR5RA061,兰州马衔山和青藏高原典型多年冻土区不同下垫面活动层导热率的对比研究,2023-01至2024-12,6万元,结题,参与

(10) 中国科学院西北生态环境资源研究院,研究所自选/自主部署,E1550102,北半球多年冻土热状况区域差异及其对气候变化的响应,2021-01至2021-12,8万元,结题,参与

(11) 中国科学院西北生态环境资源研究院, 研究所自选/自主部署,E1550107,青藏高原多年冻土区活动层土壤水热过程观测与模拟研究,2021-01至2021-12,6万元,结题,参与

(12) 冰冻圈科学国家重点实验室, 研究所自选, SKLCS-ZZ-2023-LR, 青藏高原和北极多年冻土区地表能量收支和关键陆面参数研究,2023-012023-12, 11万元,结题,参与

教科研论文

(1) Junjie Ma; Ren Li; Hongchao Liu; Zhongwei Huang; Tonghua Wu; Xiaodong Wu; Lin Zhao;

Guojie Hu; Yao Xiao; Yongliang Jiao; Wenhao Liu; Shenning Wang; Jianzong Shi; Yongping Qiao ; Evaluation of CLM5.0 for simulating surface energy budget and soil hydrothermal regime in

permafrost regions of the Qinghai-Tibet Plateau, Agricultural and Forest Meteorology, 2023, 332:

109380 (中科院一区TOP )

(2) Junjie Ma; Ren Li; Zhongwei Huang; Tonghua Wu; Xiaodong Wu; Lin Zhao; Hongchao Liu;

Guojie Hu; Yao Xiao; Yizhen Du; Shuhua Yang; Wenhao Liu; Yongliang Jiao; Shenning Wang ;

Evaluation and spatio-temporal analysis of surface energy flux in permafrost regions over the

Qinghai-Tibet Plateau and Arctic using CMIP6 models, International Journal of Digital Earth,

2022, 15(1): 1948-1966 (中科院一区)

(3) Junjie Ma; Ren Li; Hongchao Liu; Zhongwei Huang; Tonghua Wu; Guojie Hu; Yao Xiao; Lin

Zhao; Yizhen Du; Shuhua Yang ; The Surface Energy Budget and Its Impact on the Freeze-thaw

Processes of Active Layer in Permafrost Regions of the Qinghai-Tibetan Plateau, Advances in

Atmospheric Sciences, 2022, 39(1): 189-200 (中科院一区TOP )

(4) Ren Li; Junjie Ma; Tonghua Wu; Qinxue Wang; Xiaodong Wu; Lin Zhao; Shenning Wang; Guojie Hu; Wenhao Liu; Yongliang Jiao; Jimin Yao; Yao Xiao; Xiaofan Zhu; Jianzong Shi; Yongping Qiao ; The spatiotemporal variations of freezing index and its relationship with permafrost degradation over the Qinghai–Tibet Plateau from 1977 to 2016, Theoretical and Applied Climatology, 2023, 155: 985-995 (四区 )

(5) Junjie Ma; Ren Li; Tonghua Wu; Hongchao Liu; Xiaodong Wu; Guojie Hu; Wenhao Liu; Shenning Wang; Yao Xiao; Shengfeng Tang; Jianzong Shi; Yongping Qiao ; Dynamics of the Interaction between Freeze–Thaw Process and Surface Energy Budget on the Permafrost Region of the Qinghai-Tibet Plateau, Land, 2024, 13(10): 1609 (二区)

(6) 马俊杰, 李韧, 刘宏超, .青藏高原多年冻土区活动层水热特性研究进展[J. 冰川冻土,2020421):195-204.CSCD

(7) Liu, H.; Junjie Ma*. The Asian Tropopause Aerosol Layer: Spatio-Temporal Characteristics, Trends, and Climate Effects. Sustainability, 2025, 17, 3381. (三区)

(8)刘宏超,李韧,马俊杰。基于KNN机器学习方法对青藏高原唐古拉地区表层土壤水热状况的模拟[J].冰川冻土,2021,43(04):1243-1252CSCD

(9) Ren Li, Shenning Wang, Tonghua Wu, Junjie Ma, et al., Dynamic changes and regional differences in permafrost active layer thickness along the Qinghai-Tibet Highway from 2004 to 2023, Agricultural and Forest Meteorology, 2025, 368: 110547. (中科院一区TOP )

(10) Ren Li, Shenning Wang, Junjie Ma, et al., The impacts of soil enthalpy change on land–atmosphere interactions of permafrost on the Qinghai-Tibet Plateau, Geoderma, 2025. (中科院一区TOP )

(11) Liu, H, Li R, Junjie Ma. Spatiotemporal and Vertical Distribution of Asian Tropopause Aerosol Layer Using Long-Term Multi-Source Data, Remote sensing. 2023. (中科院二区 TOP)

(12) Liu, W, Li R,…Junjie Ma…Spatiotemporal Patterns and Regional Differences in Soil Thermal Conductivity on the Qinghai–Tibet Plateau, Remote sensing. 2023. (中科院二区 TOP)

(13) Wang, S, Li, R…Junjie Ma…Evaluating the Impact of Soil Enthalpy upon the Thawing Process of the Active Layer in Permafrost Regions of the Qinghai–Tibet Plateau Using CLM5.0. Remote sensing. 2023. (中科院二区 TOP)

(14)Liu, W, Li R,…Junjie Ma…Preliminary simulation of spatial distribution patterns of soil thermal conductivity in permafrost of the Arctic. International Journal of Digital Earth. 2023(中科院一区)

(15) Shi J, Li R,... Junjie Ma et al. Research Progress in the Field of Peatlands in 1990–2022: A Systematic Analysis Based on Bibliometrics. Land, 2024 (二区)

(16)Liu, W, Li R,…Junjie Ma…,Spatio-temporal variation in soil thermal conductivity during the freeze-thaw period in the permafrost of the Qinghai–Tibet Plateau in 1980–2020, The Science of The Total Environment, 2024 (二区)

(17) Jiao Y, Li R... Junjie Ma et al. Percentile-Based Relationship between Daily Precipitation and Surface Air Temperature over the Qinghai–Tibet Plateau, Journal of Hydrometeorology,2023 (二区)

(18)Liu, W, Li R,…Junjie Ma…, Simulation of soil thermal conductivity based on different schemes: An empirical comparison of 13 models, International Journal of Thermal Sciences, 2022. (二区)

(19) DuY, LiR, …Junjie Ma …et al. A new model for predicting soil thermal conductivity for dry soils, International Journal of Thermal Sciences, 2022. (二区)

(20) DuY, LiR, …Junjie Ma …et al.. Evaluation of 11 soil thermal conductivity schemes for the permafrost region of the central Qinghai-Tibet Plateau. Catena, 2020, 193, 104608. https://doi.org/10.1016/j.catena.2020.104608. (中科院一区TOP)

(21)Yang S, Li R, ... Junjie Ma …et al. Evaluation of reanalysis soil temperature and soil moisture products in permafrost regions on the Qinghai-Tibetan Plateau. Geoderma, 2020, 377:114583. DOI: 10.1016/j.catena.2020.104608. (中科院一区TOP)

(22)Yang S., Li R., Wu T., …Junjie Ma … et al. Evaluation of soil thermal conductivity schemes incorporated into CLM5.0 in permafrost regions on the Tibetan Plateau. Geoderma, 2021, 401:115330. (中科院一区TOP)

教科研论文                                                      

长江上游冰冻圈变化及其影响  科学出版社  2024年  参编

获奖、荣誉及社会兼职                                                

1. 2023年度中科院院长奖

2. 20202022年中国科学院大学三好学生

3. 冰冻圈科学国家重点实验室学术年会口头报告三等奖

4. 《冰川冻土》2020年度优秀论文


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