2022.03---        Institute of Desert Meteorology China Meteorological Administration, Urumqi, Professor, Director

2019.12-2022.03   Institute of Desert Meteorology China Meteorological Administration, Urumqi, Professor, Deputy Director

2008.09-2019.12   Institute of Desert Meteorology China Meteorological Administration, Urumqi, Assistant Professor, Deputy Section Chief , Section Chief ,Deputy Director

2003.07-2008.09   Institute of Desert Meteorology China Meteorological Administration, Urumqi，Assistant Researcher

1997.07-2003.07   Minfeng Meteorological Service, Hotan Meteorological Service, technician

1.   Observation and simulation study of desert land atmosphere interaction

2.   Carbon cycle of terrestrial ecosystems

3.   Refined assessment of wind and solar energy resources

4.   Monitoring and evaluation of Atmospheric cloud water resources 

1.2024: Outstanding Advanced Worker, Eighth Council of the Xinjiang Geographical Society.

2.2024: First Prize, Xinjiang Meteorological Science and Technology Achievement Award (2023), for "Evolution Law of Land-Atmosphere Interaction in Xinjiang Deserts andGobi and Its Application in Numerical Simulation." (Awardees: Wang Yu, Gao Jiacheng, Meng Lu, Maimaiti Ali Maimaitiyiming, Yang Fan, Eliyar Aihaiti, Song Meiqi, Ma Mingjie, Wen Cong)

3.2024: Second Prize (Scientific and Technological Innovation Award), China Meteorological Service Association Science and Technology Award, for "Evolution Characteristics and Forecasting Methods of Extreme Precipitation in Central Asia." (Awardees: Yang Lianmei, Zhang Jie, Ran Lingkun, Abduweli Ablikim, Maimaiti Ali Maimaitiyiming, Yao Junqiang, Li Jiangang, et al.)

4.2024: Excellent Frontier Dynamics Report (2023), China Meteorological Administration, for "Frontier Dynamics Review of Atmospheric Three-Dimensional Wind Field Monitoring." (Primary Authors: Maimaiti Ali Maimaitiyiming, Song Meiqi, Wang Yu, Eliyar Aihaiti, Gao Jiacheng, Huo Wen, Yang Fan, Wang Minzhong, Zhou Chenglong, Wen Cong, Meng Lu, Pan Honglin, Zhang Jiantao, Chen Rongyi)5.2023: Excellent Frontier Dynamics Report, China Meteorological Administration, for "Research Status and Prospects of Desert Carbon Sequestration Mechanisms." (Primary Authors: Yang Fan, Huang Jianping, Maimaiti Ali Maimaitiyiming, Zhou Chenglong, Yang Xinghua, Huo Wen, Han Dongliang, Wang Yu, Sun Yingwei, Song Meiqi, Gao Jiacheng, Meng Lu, Pan Honglin, Ma Mingjie, Zhang Jiantao, Zhu Congzhen)

6.2023: Second Prize, Excellent Author Award (2022), Desert and Oasis Meteorology journal.

7.2022: Meteorological Leading Talent, Xinjiang Meteorological Bureau.

8.2024: Commendation for Outstanding Contribution to Meteorological Work (2023), Xinjiang Meteorological Bureau.

9.2022: Commendation for Outstanding Contribution to Meteorological Work (2021), Xinjiang Meteorological Bureau.

10.2026: First-Class Science and Technology Leading Talent, Xinjiang Strategic Talent Cultivation Plan.

11.2026: Commendation for Outstanding Contribution to Meteorological Work (2025), Xinjiang Meteorological Bureau.

12.2025: Commendation for Outstanding Contribution to Meteorological Work (2024), Xinjiang Meteorological Bureau.

13.2019: Commendation for Outstanding Contribution to Meteorological Work (2018), Xinjiang Meteorological Bureau.

14.2018: Professor Dr. Vilho Väisälä Award for the Development and Implementation of Instruments and Methods of Observation (WMO), World Meteorological Organization (WMO) - Seventh Award for Developing Countries. (Ranked 4th).

15.2015: Third Prize, Xinjiang Uygur Autonomous Region Science and Technology Progress Award, for "Integrated Application of Desert Atmospheric Boundary Layer Detection Technology." (Ranked 3rd).

16.2014: Sixth Western China Outstanding Young Talent Award, China Meteorological Administration. (Ranked 1st).

17.2013: Second Prize, Xinjiang Meteorological Bureau Science and Technology Development Award, for the CMA New Technology Promotion Project "Application and Promotion of Near-Surface Dust Flux Observation Methods." (Ranked 1st).

18.2011: Second Prize, Xinjiang Meteorological Science and Technology Work Award, for the CMA New Technology Promotion Project "Integrated Application of Boundary Layer Flux Detection Data in the Taklimakan Desert." (Ranked 2nd).

19.2008: Second Prize, Xinjiang Meteorological Science and Technology Work Award, for the Xinjiang Meteorological Bureau Project "Development of an Operational Hail Zonal Forecasting System for Xinjiang." (Ranked 2nd).

20.2007: Second Prize, Xinjiang Meteorological Science and Technology Work Award, for the China Meteorological Desert Fund Project "Preliminary Calculation of Surface Snowmelt Volume." (Ranked 2nd).

21.2007: Third Prize, Ninth Xinjiang Uygur Autonomous Region Natural Science Excellent Paper Award (2007), for the paper "Impact of Spring 2004 Sand-Dust Weather on Air Quality in Hotan City."

22.2006: Second Prize, Xinjiang Meteorological Science and Technology Work Award, for the Project "Climate Zoning, Introduction, and Market Prediction of Xinjiang's 'Famous, Special, and High-Quality' Agricultural Products." (Ranked 6th).

23.2006: Sixth National Outstanding Young Meteorological Scientist and Technologist Award.

24.2005: Third Prize, Fourth Xinjiang Meteorological Industry Youth Excellent Academic Paper Award (2005), for the paper "Microclimatic Effects of Shelterbelts in the Tazhong Oilfield Operation Area."

[1]     2023年，塔克拉玛干沙漠固碳机理及碳汇能力评估，中气科成登[2023]058，买买提艾力·买买提依明，杨帆，黄建平，何清，郑新倩，周成龙，霍文，杨兴华，王豫，马明杰，宋美琪，高佳程。

[2]     2023年，中亚极端降水演变特征及预报方法研究，中气科成登[2023]069，杨莲梅，张杰，冉令坤，阿布都外力·阿不力克木，买买提艾力·买买提依明，姚俊强，李建刚，等.

[3]     2022年，多源资料快速更新循环同化预报系统睿图-中亚，中气科成登[2022]0106，刘军建，张海亮，琚陈相，李火青，马玉芬，李曼，买买提艾力·买买提依明，张广兴，范水勇，辛渝，艾力亚尔·艾海提，刘宗会

1.National Natural Science Foundation of China (NSFC) General Program, No. 42375084, Study on Flux Budget Patterns and Influencing Factors of High Global Warming Potential Greenhouse Gases (CH4, N2O) in the Taklimakan Desert, Jan 2024 - Dec 2027.

2.Xinjiang Uygur Autonomous Region Natural Science Foundation Key Program, No. 2024D01D34, Mechanisms of Atmospheric Water Resource Transport and Transformation and Precipitation Efficiency in the Eastern Tianshan Mountains, Oct 2024 - Dec 2028.

3.Xinjiang Uygur Autonomous Region Key R&D Program, Key Technologies and Demonstration Applications for Assessing Xinjiang's Atmospheric Water Resource Development Potential, Jan 2026 - Dec 2028.

4.Xinjiang Strategic Talent Cultivation Plan - Top-tier Leading Scientist Program, Optimization of Dust Disaster Prevention and Control in Southern Xinjiang Based on Precise Identification of Source-Path-Sink: Case Study of the Taklimakan Desert Edge Combat Project, Jan 2026 - Dec 2028.

5.Third Xinjiang Scientific Expedition Project, Sub-project of Project No. 2022xjkk030502 "Ecological Suitability Survey in Key Areas of the Tarim River Basin" – Sub-topic: "60-Year Climate Change and Future Climate Projections in the Tarim River Basin", Oct 2022 - Sep 2025.

6.Xinjiang Uygur Autonomous Region Key R&D Program, Sub-topic of Project No. 2023B02004 "Intelligent Monitoring Research and Demonstration of Meteorological Disasters Based on Big Data of Forest and Fruit Resources" – Research and Development of Disaster Mechanisms and Risk Early Warning Technology for Forest and Fruit Meteorological Disasters, Jan 2024 - Dec 2027.

7.Xinjiang Tianshan Talent Program - Science and Technology Innovation Team (Tianshan Innovation Team) Sub-project, No. 2022TSYCTD0007, Desert Land-Atmosphere Interaction and New Technology Development for Dust Environment Detection, Mar 2023 - Mar 2026.

8.China Meteorological Administration (CMA) Capability Enhancement Joint Research Special Project, No. 24NLTSZ006, Impact of Dust on Photovoltaic Power Generation in Xinjiang and Forecast Correction Technology Research, Jan 2025 - Dec 2026.

9.Yiwu County Science and Technology Innovation Special Fund Project, Development and Refined Assessment of Solar Energy Resource Data in Yiwu County, Jan 2025 - Dec 2026.

10.Yiwu County Science and Technology Innovation Special Fund Project Sub-topic, Assessment of Atmospheric Water Resources and Comprehensive Cloud-Precipitation Observation Experiment in Yiwu County, Jan 2025 - Dec 2026.

11.Xinjiang Uygur Autonomous Region Innovation Environment Construction (Resource Sharing Platform) Project, No. PT2203, Greenhouse Gas Flux Monitoring Sharing Platform for the Taklimakan Desert Meteorology National Field Scientific Observation and Research Station, Xinjiang, Jan 2022 - Dec 2023.

12.Xinjiang Meteorological Bureau Key Project, No. ZD202306, Refined Assessment of Wind and Solar Energy Resources and Improvement of Power Forecasting Research, Jan 2023 - Dec 2024.

13.Xinjiang Meteorological Bureau Disaster Survey Project, Technical Service for Sandstorm Meteorological Disaster Risk Survey, Jan 2023 - Dec 2023, 277,000 CNY.

14.Desert Research Institute Science and Technology Development Fund, No. KJFZ202302, Study on the Evolution of Surface Heat Sources in the Northern Xinjiang Deserts and Their Impact on Precipitation, Jan 2023 - Apr 2024, 24,000 CNY.

15.National Natural Science Foundation of China (NSFC) General Program, No. 41875023, Observation and Simulation Research on Land-Atmosphere Interaction over Non-Uniform Underlying Surfaces in the Gurbantunggut Desert, Jan 2019 - Dec 2022.

16.Sub-topic of Sub-project for the Second Comprehensive Scientific Expedition to the Qinghai-Tibet Plateau, No. 2019QZKK010206-04, Extreme Weather and Climate Events and Disaster Risk in the Tianshan-Pamir Region – Observation Study on Water-Heat Interaction in the Central Tianshan Area, Oct 2020 - Dec 2022.

17.China Meteorological Administration (CMA) Mountain Torrent Project, No. B-2022-068, "Industry Standards for Sandstorm Disaster Investigation and Risk Assessment", Jan 2022 - Dec 2022.

18.Sub-topic of National Key R&D Program of China, No. 2018YFC1507105, Key Technologies for Fine-Scale Seamless Forecasting of Extreme Precipitation in Central Asia, Nov 2018 - Dec 2021.

19.Sub-topic of China Meteorological Administration (CMA) Innovation and Development Special Project, No. CXFZ2021J044, Monitoring of Climate Change on the Qinghai-Tibet Plateau and Research on Coping Strategies, Jan 2021 - Dec 2021.

20.Basic Scientific Research Project of Central-Level Public Welfare Research Institutes, No. IDM2021001, Comprehensive Observation Experiment in the Tarim Basin – Enhanced Observation Experiment on Land-Atmosphere Interaction in the Taklimakan Desert, Jan 2021 - Dec 2022.

21.China Meteorological Administration (CMA) Meteorological Radar Data Application in Numerical Weather Prediction System Construction (Phase I) Project, Subsystem for Radar Data Assimilation and Forecasting in the Economic Belt along the Northern Tianshan Mountains, Jan 2020 - Dec 2020.

22.Central Asia Atmospheric Science Research Fund, No. CASS201711, Observation Study on Boundary Layer Structure and Land Surface Processes in the Gurbantunggut Desert, Jan 2017 - Dec 2018.

23.Basic Scientific Research Project of Central-Level Public Welfare Research Institutes, No. IDM2017001, Study on Atmospheric Boundary Layer Structure and Land Surface Process Characteristics in the Eastern Xinjiang Gobi Region, Jan 2017 - Dec 2018.

24.National Natural Science Foundation of China (NSFC) General Program, No. 41175140, Observation Study on Atmospheric CO2 Flux and Soil Carbon Respiration in the Taklimakan Desert, Jan 2012 - Dec 2015.

25.Public Welfare (Meteorological) Industry Special Project, No. GYHY201306066, Observation Experiment on Desert Land Surface Processes and Parametrization Scheme Research, Jan 2013 - Dec 2015.

26.Basic Scientific Research Project of Central-Level Public Welfare Research Institutes, No. IDM2014022, Software Development for Phases I & II of the Urumqi Regional Air Pollution Monitoring and Early Warning Forecast Operational Platform, Jan 2014 - Dec 2015.

27.China Meteorological Administration (CMA) Meteorological New Technology Promotion Project, No. CMATG2010M29, "Application and Promotion of Near-Surface Dust Flux Observation Methods", Jan 2010 - Dec 2010.

28.China Desert Meteorology Scientific Research Fund, No. SQJ2010007, "Observation Study on Near-Surface CO2 Flux in the Taklimakan Desert", Jan 2011 - Dec 2012.

29.China Desert Meteorology Scientific Research Fund, No. SQJ2006005, "Development of Data Integration System for the 80m Gradient Detection System at Tazhong", Jan 2007 - Dec 2008.

30.Arid Zone Research Fund, No. IAM200814, "Monitoring and Analysis of Dust Flux at Tazhong in the Taklimakan Desert", Jan 2008 - Dec 2009. 

31.Basic Scientific Research Project of Central-Level Public Welfare Research Institutes, "Research on Dust Flux Monitoring and Analysis in the Heart of the Taklimakan Desert", Jan 2008 - Dec 2009.

[1]      Ali Mamtimin, Kun Zhang, Hajigul Sayit, et al. The construction of shelterbelts along the desert highway has increased the carbon sequestration capacity of the Taklimakan Desert, China. Ecological Informatics,2025,86,103027, https://doi.org/10.1016/j.ecoinf.2025.103027

[2]      Ali Mamtimin,Gulnur Amar,Yu Wang,et al. Assessment of CO₂ fluxes in the hinterland of the Gurbantunggut Desert and its response to climate change. Journal of Environmental Management,2025,375,124351, https://doi.org/10.1016/j.jenvman.2025.124351

[3]      Ali Mamtimin, Wang Y, Zhao T, Sayit H, Yang F, Huo W, Zhou C and Gao J .Impacts of Winter and Summer COVID-19 Lockdowns on Urban Air Quality in Urumqi, Northwest China, Front. Environ. Sci. ,2022,10:910579. https://doi.org/10.3389/fenvs.2022.910579

[4]      Ali Mamtimin, Yu Wang, Hajigul Sayit, et al. Characteristics of turbulence over the semi-fixed desert area in north of Xinjiang, China.Earth Surface Processes and Landforms,2021,  https://doi.org/10.1002/esp.5182

[5]      Ali Mamtimin, Yu Wang, Hajigul Sayit, et al. Seasonal Variations of the Near-Surface Atmospheric Boundary Layer Structure in China’s Gurbantünggüt Desert. Advances in Meteorology, 2020, 1-13, https://doi.org/10.1155/2020/6137237.

[6]    买买提艾力·买买提依明，阿吉古丽·沙依提，王豫，等.东疆黑戈壁陆面过程参数及陆面模式离线模拟[J].沙漠与绿洲气象，2024，18（1）：20-27.doi：10.12057/j.issn.1002-0799.2024.01.003

[7]      买买提艾力·买买提依明,霍文,杨兴华,王敏仲,杨帆,刘艳,孟露,潘红林,李红军,金莉莉,何清.新疆沙尘暴研究进展[J].沙漠与绿洲气象,2022,16(2):1~7

[8]      Cong Wen, Ali Mamtimin*, Haitao Wang,et al.Nonlinear drivers of canopy and surface urban heat islands across China’s climate zones: marginal and interaction effects from explainable machine learning.Sustainable Cities and Society, 2026,142,107307,https://doi.org/10.1016/j.scs.2026.107307

[9]      Jinru Zhang,Yi Chang*,Ali Mamtimin*,et al. Characteristics of clouds in the easterern Tianshan Mountains in summer using Ka-band millimeter-wave cloud radar observation.Atmospheric Research,2026,337,108926,https//doi.org/10.1016/j.atmosres.2026.108926

[10]    Cong Wen , Yu Wang, Ali Mamtimin*,et al.Observed and modeled interactions between atmospheric pollutants and urban thermal environment in an arid city: Urumqi as a case study.Atmospheric Environment,2026, 372 (2026) 121879 ,https://doi.org/10.1016/j.atmosenv.2026.121879

[11]    Yufen Ma, Ali Mamtimin*,Kang Zeng, Ailiyaer Aihaiti,Junjian Liu,Zonghui Liu.Infrared land surface emissivity dynamics in the Taklimakan desert from 2001 to 2023.Scientific Reports,2026,16(2175), https://doi.org/10.1038/s41598-025-31933-y

[12]    Xinghua Yang,Chenglong Zhou,Fan Yang,Wen Huo, Ali Mamtimin*,Qing He. Study on snowfall characteristics in the hinterland of the Taklimakan desert and its effects on dust weather. Environmental Earth Sciences，2025，https://doi.org/10.1007/s12665-025-12584-8

[13]    Wang, Y., Chen, C. Ali Mamtimin*, et al. Evolution patterns of carbon flux in the alpine meadow ecosystem. Journal of Geophysical Research: Biogeosciences，2025,130, e2025JG009295. https://doi.org/10.1029/2025JG009295

[14]    Kun Zhang, Yu Wang, Ali Mamtimin*, et al. Variation characteristics and influencing mechanisms of CO2 flux from grassland ecosystem in the Central Tianshan Mountains, China. Ecological Indicators,2025,170 ,113069, https://doi.org/10.1016/j.ecolind.2024.113069.

[15]    Guo, J.; Song, M.; Ali Mamtimin*, et al. An Evaluation of the Applicability of a Microwave Radiometer Under Different Weather Conditions at the Southern Edge of the Taklimakan Desert. Remote Sens., 2025,17, 1171. https://doi.org/10.3390/rs17071171

[16]    Ma, Y.; Zeng, K.; Aihaiti,A.; Liu, J.; Liu, Z.; Ali Mamtimin*. Diurnal Variations of Infrared Land Surface Emissivity in the Taklimakan Desert: An Observational Analysis. Remote Sens. 2025, 17, 1276.https://doi.org/10.3390/rs17071276

[17]    Yang, X.; Ma, M.; Zhou, C.;Yang, F.; Huo,W.; Ali Mamtimin*; He,Q.; Wang, G. Contributions of Dust and Non-DustWeather to Dust Emissions: A Case Study from the Central Taklimakan Desert. Remote Sens. 2025, 17, 2531. https://doi.org/10.3390/rs17142531

[18]    温聪，王豫，买买提艾力·买买提依明*，阿吉古丽·沙依提，彭坚，巩庆，宋美琪，如克亚·麦麦提吐尔逊，张冠峰，艾力亚尔·艾海提，杨帆．塔克拉玛干沙漠春夏沙尘气溶胶垂直结构研究[J/OL].中国环境科学.https://doi.org/10.19674/j.cnki.issn1000-6923.20251117.005

[19]    Wang, S.; Aihaiti, A.; Ali Mamtimin*,et al. Increases in Temperature and Precipitation in the Different Regions of the Tarim River Basin Between 1961 and 2021 Show Spatial and Temporal Heterogeneity. Remote Sens., 2024, 16, 4612. https://doi.org/10.3390/rs16234612

[20]    Wen, C.; Sayit, H.; Ali Mamtimin* ,et al. The Role of Subsurface Changes and Environmental Factors in Shaping Urban Heat Islands in Southern Xinjiang. Remote Sens. ,2024, 16, 4089.https://doi.org/10.3390/rs16214089

[21]    Liu, W.,Wang, Y., Ali Mamtimin*,et al. Research on Improving the Accuracy of SIF Data in Estimating Gross Primary Productivity in Arid Regions. Land,2024, 13, 1222. https://doi.org/10.3390/land13081222

[22]    Kun Zhang, Yu Wang, Ali Mamtimin*, et al. Simulation and Attribution Analysis of Spatial–Temporal Variation in Carbon Storage in the Northern Slope Economic Belt of Tianshan Mountains, China. Land,2024, 13,608. https://doi.org/10.3390/land13050608

[23]    Aihaiti, A.; Wang, Y.; Ali Mamtimin*, et al. Temporal and Spatial Surface Heat Source Variation in the Gurbantunggut Desert from 1950 to 2021. Remote Sens. 2023, 15,5731,https://doi.org/10.3390/rs15245731

[24]    Zhang, K.; Wang, Y.; Ali Mamtimin*,et al. Temporal and Spatial Variations in Carbon Flux and Their Influencing Mechanisms on the Middle Tien Shan Region Grassland Ecosystem, China. Remote Sens. ,2023, 15, 4091. https://doi.org/10.3390/rs15164091

[25]    Gulnur Amar, Ali Mamtimin*,Yonghui Wang*, et al. Factors controlling and variations of CO2 fluxes during the growing season in Gurbantunggut Desert. Ecological Indicators, 2023 ,https://doi.org/10.1016/j.ecolind.2023.110708

[26]    Li, W.; Gao, J.; Ali Mamtimin*, et al. Parameterization and Remote Sensing Retrieval of Land Surface Processes in the Gurbantunggut Desert, China. Remote Sens, 2023, 15,2646. https://doi.org/10.3390/rs15102646

[27]    Yu Wang , Jiacheng Gao , Ali Mamtimin*,et al.Evolution law of atmospheric boundary layer in Gurbantünggüt Desert based on reanalysis dataset and in situ observation data. Heliyon,9 ,2023,e14147, https://doi.org/10.1016/j.heliyon.2023.e14147

[28]    Liu, J.; Fan, S.; Ali Mamtimin*.; Li,H.; Zhang, H.;Wang, Y.; Aihaiti, A. Assimilation of Water Vapor Retrieved from Radar Reflectivity Data through the Bayesian Method.Remote Sens. 2022, 14, 5897. https://doi.org/10.3390/rs14225897

[29]    Song, M.;Wang, Y.; Ali Mamtimin*, Gao, J.; Aihaiti, A.;Zhou, C.; Yang, F.; Huo,W.;Wen, C.;Wang, B. Applicability Assessment of Coherent DopplerWind LiDAR for Monitoring during Dusty Weather at the Northern Edge of the Tibetan Plateau. Remote Sens. 2022, 14, 5264.https://doi.org/10.3390/rs14205264

[30]    Ailiyaer Aihaiti, Yu Wang, Ali Mamtimin*,et al. Probability distribution characteristics of summer extreme precipitation in Xinjiang, China during 1970–2021,Theoretical and Applied Climatology,2022，https://doi.org/10.1007/s00704-022-04272-5

[31]    Aihaiti A, Wang Y, Ali Mamtimin*, Huo W, Zhu L, Liu J, Gao J, Wen C and Song M.Probabilistic 2-meter surface temperature forecasting over Xinjiang based on Bayesian model averaging. Front. Earth Sci. ,2022,10:960156. https://doi.org/10.3389/feart.2022.960156

[32]    Huo,W.; Yang, F.; Zhi, X.; Ali Mamtimin*; He, Q.; Pan, H.;Wen,C.;Wang, Y.;Wu, Y.; Yang, X.; et al. A Comparative Study on the Difference in Meteorological Monitoring between Constructed Green Land and Natural Sandy Land.Sustainability，2022, 14, 1076.https://doi.org/10.3390/su14031076

[33]    Yao Wang, Yi Zheng, Yan Liu, Jian Huang and Ali Mamtimin*.Spatial Prediction Models for Soil Stoichiometry in Complex Terrains: A Case Study of Schrenk’s Spruce Forest in the Tianshan Mountains. Forests，2022, 13, 1407. https://doi.org/10.3390/f13091407

[34]    Zhang, L., Zhang, H. *, Li, Q., Wei, W.,Cai, X., Song, Y., Ali Mamtimin*, et al.. Turbulent mechanisms for the deep convective boundary layer in the Taklimakan Desert. Geophysical Research Letters,2022，49, e2022GL099447. https://doi.org/10.1029/2022GL099447

[35]    Yu Wang,Xueshang Zhao, Ali Mamtimin*, et al. Evaluation of Reanalysis Datasets with in situ observations over the Gobi Region of Xinjiang, China. Remote Sensing, 2021, 13(4191): 1-16，https://doi.org/10.3390/rs13214191

[36]    Junjian Liu, Hailiang Zhang,Huoqing Li,Ali Mamtimin*. Improving Forecast Accuracy with an Auto Machine Learning Post-Correction Technique in Northern Xinjiang.Aapplied Sciences,2021, https://doi.org/10.3390/app11177931

[37]    Yu Wang,Hajigul Sayit, Ali Mamtimin*,et al. Evaluation of five planetary boundary layer schemes in WRF over China’s largest semi-fixed desert, Atmospheric Research,2021,  https://doi.org/10.1016/j.atmosres.2021.105567

[38]    Li, H.; Liu, Z.; Mamtimin, A*.; Liu, J.; Liu, Y.; Ju, C.; Zhang, H.;Gao, Z. A New Linear Relation for Estimating Surface Broadband Emissivity in Arid Regions Based on FTIR and MODIS Products. Remote Sens. 2021, 13, 1686. https://doi.org/10.3390/rs13091686

[39]    Yufen Ma;Ali Mamtimin*;Guangxing Zhang. Observation error diagnostics and applicability evaluation of MHS brightness temperatures in RMAPS-CA. International Journal of Remote Sensing,2021, https://doi:10.1080/01431161.2021.1929544

[40]    艾力亚尔·艾海提，买买提艾力·买买提依明*，刘军建，等.新源县复杂地形下的风电场风场结构特征分析[J].沙漠与绿洲气象，2024，18（4）：1-8.doi：10.12057/j.issn.1002-0799.2024.04.001

[41]    陈辰光，高佳程，买买提艾力·买买提依明*，等. 古尔班通古特沙漠土壤物理参数时间变化特征及其影响因子研究[J].沙漠与绿洲气象，2024，18（5）：135-145. doi：10.12057/j.issn.1002-0799.2024.05.018

[42]    雅森江·库尔班，王豫，买买提艾力·买买提依明*，等.中国帕米尔高原太阳辐射演变规律[J].太阳能学报，2023，44（10）：237-244. DOI：10.19912/j.0254-0096.tynxb.2022-0894

[43]    古丽努尔·艾麦尔,买买提艾力·买买提依明*,王勇辉,等.基于VOSviewer的塔克拉玛干沙漠沙尘暴研究文献分析[J].沙漠与绿洲气象，2023，16（2）：1-7.doi：10.12057/j.issn.1002-0799.2023.02.001

[44]    阿吉古丽·沙依提，王豫，买买提艾力·买买提依明*，等.Noah-MP陆面模式在东疆黑戈壁的适用性[J].沙漠与绿洲气象，2023，17（5）：19-27.doi：10.12057/j.issn.1002-0799.2023.05.003

[45]    高佳程，司马义·阿不力孜，买买提艾力·买买提依明*，等.新疆东部黑戈壁地表辐射及能量收支演变特征[J].沙漠与绿洲气象，2022，16（1）：70-77.doi：10.12057/j.issn.1002-0799.2022.01.010

[46]    张海亮，李火青，买买提艾力·买买提依明*.新疆夏季行星边界层参数化方案模拟特征研究[J].干旱区研究，2021,38（1），DOI：10.13866/j.azr.2021.01.17

[47]    马玉芬; 李如琦; 张萌; 买买提艾力·买买提依明*.AIRS辐射亮温在中亚地区的偏差分析及适用性分析[J].干旱区研究, 2021,(38)：1-12

[48]    王豫，阿吉古丽·沙依提，买买提艾力·买买提依明*，等.古尔班通古特沙漠大气边界层参数化方案的模拟评估[J].沙漠与绿洲气象，2020,14（4）：1-10；

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