1986.07--2000.04 Xinjiang Uygur Autonomous Region Institute of Meteorological Science

2000.05--2002.03 Deputy Director, Xinjiang Environmental Meteorology Research Institute / Deputy Director, Xinjiang Environmental Meteorology Center

2002.04--2002.10 Executive Deputy Director & Researcher, Institute of Desert Meteorology, China Meteorological Adminstration, Urumqi

2008.05--2017.12 Director & Researcher, Institute of Desert Meteorology, China Meteorological Adminstration, Urumqi

2017.12—2019.07 Director, Xinjiang Uygur Autonomous Region Meteorological Observatory

2019.07-- Deputy Director, Xinjiang Uygur Autonomous Region Meteorological Bureau

Xinjiang climate change, Desert meteorology, Atmospheric environment

1、Project Awards:4 Provincial/Ministerial Sci-Tech Progress Second Prizes, 1 Third Prize,1 First-class/2 Third-class Outstanding Paper Prizes

Research on Xinjiang Climate Change and Short-term Climate Prediction System: 2002 Xinjiang Sci-Tech Progress Second Prize (Rank 6)

Xinjiang Sandstorm Monitoring and Prediction Research: 2003 Xinjiang Sci-Tech Progress Third Prize (Rank 3)

Oasis Ecosystem Structure, Function and Stability Research: 2004 Xinjiang Sci-Tech Progress Second Prize (Rank 6)

Sandstorm Classification Index System Construction: 2007 Xinjiang Sci-Tech Progress Second Prize (Rank 4)

Desert and Snow Cover with Regional Climate Change Research: 2008 Xinjiang Sci-Tech Progress Second Prize (Rank 3)

The distribution of Sandstorms in Taklimakan Desert: 1997 Xinjiang 4th Natural Science Outstanding Paper First Prize (Rank 1)

Study on Temporal-Spatial Distribution of Floating Dust in Tarim Basin and Its Environmental Impact: 1999 Xinjiang 5th Natural Science Outstanding Paper Third Prize (Rank 1)

Heat Variation in Xinjiang's Major Cotton Regions and Its Impact on Cotton Production: 2003 Xinjiang 7th Natural Science Outstanding Paper Third Prize (Rank 1)

Honorary Titles:

1997: "Outstanding Young/Middle-aged Science Worker in Xinjiang Meteorological Department"

1998: "National Outstanding Young Meteorological Science Worker"

2001: "Outstanding Contribution Honorary Award for 'National Level-2' Archives Management Target" by National Archives Administration

2004: "Xinjiang Advanced Individual in Sci-Tech Agriculture Promotion"

2007: CMA 3rd Western Region Outstanding Young Talent Allowance Award

2009: "National Advanced Individual in Field Science and Technology Work"

2010: Xinjiang Meteorological Bureau Science and Technology Contribution Award

2018: 7th WMO Dr. Vilho Väisälä Award

[1] NSFC Project, 41830968, Land-Air Exchange Process and Atmospheric Boundary Layer Structure over Undulating Terrain in Taklimakan Desert, 2018-2023, 1.4956 million yuan, Participant

[2] MOST Project, 2019QZKK010206, Second Tibetan Plateau Scientific Expedition Task 1 Topic 2 "Climate Change and Westerly-Monsoon Synergy" Sub-topic 6 "Extreme Weather Events and Disaster Risks in Tianshan-Pamir Region", 2019-2024, 3.5 million yuan, Host

[3] NSFC Project, 42030612, Linkage between "Northward Expansion" of Tibetan Plateau Summer Heat Source and Radiative Heating of "Suspended" Dust Aerosols in Tarim Basin and Its Impact on Regional Precipitation Variability, 2019-2024, 3.6 million yuan, Host

[4] Third Xinjiang Comprehensive Scientific Expedition Project 3 Topic 5, SQ2021xjkk0305, Wind-Sand Disaster Investigation and Risk Assessment in Tarim Basin, 2021-2025, 1.75 million yuan, Host

[5] NSFC Project, 41175017, Sand Particle Transport Characteristics and Dynamic-Thermal Parameters in Northwest Deserts, 2012-2015, 800,000 yuan, Host

[6] National Public Welfare (Meteorology) Research Special, GYHY201006012, Disastrous Weather Monitoring and Warning Technology in Desert and Surrounding Areas, 2010-2013, 4.57 million yuan, Host

[7] International S&T Cooperation Program Sub-project, 2010DFA92720-14, Central Asia Climate Change Investigation, 2010-2013, 1 million yuan, Host

[8] National 11th Five-Year Support Plan Sub-topic, 2008BAC40B05-01, Intensive Observational Study on Sandstorm Initiation Mechanism, 2009-2011, 340,000 yuan, Host

[9] National 11th Five-Year Support Plan Sub-topic, 2009BAC54B01, Wind-Sand Activity Characteristics and Driving Mechanism in Southwest Tarim Basin, 2010-2012, 200,000 yuan, Host

[10] CMA Urban Meteorological Disaster Prevention Fund, Xinjiang Railway Meteorological Disaster Risk Zoning and Planning, 2011, 300,000 yuan, Host

[11] NSFC Project, 40775019, Experimental Study on Land-Air Interaction Observation in Taklimakan Desert, 2008-2010, 400,000 yuan, Host

[12] Xinjiang Tech Tackling Project, 200833119, Xinjiang Sand Source Region Dust Storm Tracking Monitoring and Disaster Warning Technology Development, 2008-2010, 400,000 yuan, Host

[13] CMA New Tech Promotion Project, CMATG2007M27, Taklimakan Desert Boundary Layer Flux Detection Data Integration Application, 2008-2009, 100,000 yuan, Host

[14] CMA Climate Change Special, CCSF2006-20, Ebinur Lake Basin Climate and Water Area Change and Impact Study, 2007-2008, 50,000 yuan, Host

Total >400 papers published in domestic and international journals including Journal of Cleaner Production, Remote Sensing, China Environmental Science, Acta Meteorologica Sinica

[1] Li J, He Q, Ge X. Spatiotemporal distribution of aerosols over the Tibet Plateau and Tarim Basin (1980–2020)[J]. Journal of Cleaner Production, 2022, 374: 133958.

[2] Yang J, He Q, Liu Y. Winter–Spring Prediction of Snow Avalanche Susceptibility Using Optimisation Multi-Source Heterogeneous Factors in the Western Tianshan Mountains, China[J]. Remote Sensing, 2022, 14(6): 1340.

[3] Meng L, Zhao T, He Q, et al. Dust Radiative Effect Characteristics during a Typical Springtime Dust Storm with Persistent Floating Dust in the Tarim Basin, Northwest China[J]. Remote Sensing, 2022, 14(5): 1167.

[4] Abbas A, Zhang T, He Q, et al. Variations in different types and levels of daily precipitation in the Tarim Basin, Northwest China[J]. Theoretical and Applied Climatology, 2022, 149(3): 1509-1520.

[5] Zhao Z, Lu Z, He Q, et al. Characteristics and source analysis of greenhouse gas concentration changes at Akedala Station in Central Asia[J]. Theoretical and Applied Climatology, 2022, 149(3): 1813-1825.

[6] Zhao Z, He Q, Lu Z, et al. Analysis of Atmospheric CO₂ and CO at Akedala Atmospheric Background Observation Station, a Regional Station in Northwestern China[J]. International Journal of Environmental Research and Public Health, 2022, 19(11): 6948.

[7] Zhu C, He Q, Zhao Z, et al. Comparative analysis of particulate matter pollution characteristics in urban vs. mountainous southern Urumqi[J]. China Environmental Science (in Chinese), 2022, 42(9): 4073-4085.

[8] Yang J, Zhang X, Mao W, et al. Investigation and analysis of snow avalanche disasters in Tianshan Mountains, China[J]. Journal of Natural Disasters (in Chinese), 2022, 31(1): 188-197.

[9] Zhao Z, Lu Z, He Q, et al. Characteristics of methane concentration and influencing factors at Akedala atmospheric background station[J]. China Environmental Science (in Chinese), 2022, 42(2): 519-527.

[10] Li H, He Q, Zhao Q, et al. Grain size characteristics and migration paths of surface sediments in eastern Pamir Plateau[J]. Bulletin of Soil and Water Conservation (in Chinese), 2022, 42(2): 82-88.

[11] Bi D, He Q, Li J, et al. Study of a dust pollution process in Taklimakan Desert based on UAV vertical observation[J]. Acta Scientiae Circumstantiae (in Chinese), :1-13[2022-11-26].

[12] Meng L, Zhao T, He Q, et al. Climatic characteristics of floating dust weather and persistent suspended dust in Tarim Basin over recent 30 years[J]. Acta Meteorologica Sinica (in Chinese), 2022, 80(2): 322-333. 

Patents (Total 16, including 10 as first inventor)

[1] Jin L, Li Z, He Q, et al. Vertical layered sampler for dry sand layers in mobile dunes[P]. CN209027871U. 2019.

[2] Yang X, Yang F, Mamtimin A, Zhou C, Huo W, He Q. Method for obtaining near-surface horizontal dust transport flux[P]. CN109541724A. 2019.

[3] Yang F, Mamtimin A, Yang X, Huo W, Zhou C, He Q. Integrated installation bracket for monitoring sensors in mobile soil[P]. CN207586231U. 2018.

[4] He Q, Yang X, Huo W, Mamtimin A, Yang F, et al. Automatic dune imaging system[P]. CN204575070U. 2015.

[5] Mamtimin A, Yang X, He Q, Huo W, Yao Y. Automatic optical path cleaning device for field analyzer[P]. CN104226640A. 2014.

[6] Mamtimin A, Yang X, He Q, Huo W, Yao Y. Automatic optical path cleaning device for field analyzer[P]. CN203437379U. 2014.

[7] He Q, Huo W, Yao Y, et al. Camera system for remote monitoring of dune movement via wireless network[P]. CN202759544U. 2013.

[8] He Q, Yang X, Yao Y, et al. Portable high-precision automatic sand collector[P]. CN202720104U. 2013.

[9] Mamtimin A, He Q, Yang X, Liu X, Huo W. Soil carbon dioxide concentration measuring instrument[P]. CN202471692U. 2012.

[10] He Q, Mamtimin A, Huo W, Liu X, Yao Y. Measurement system for vertical profile distribution of atmospheric CO₂/H₂O concentration in desert[P]. CN202230067U. 2012.

[11] He Q, Mamtimin A, Yao Y, Yang X, Huo W, et al. Fully automatic high-precision dust collector[P]. CN102073071A. 2011.

[12] He Q, Mamtimin A, Yao Y, Yang X, Huo W, et al. Fully automatic high-precision dust collector[P]. CN201615848U. 2010.

[13] He Q, Mamtimin A, Huo W, Yang X, Liu X. Air pressure balancing device[P]. CN201607439U. 2010.

[14] He Q, Maimaiti A, Maimaiti Y, et al. Portable automatic weighing sand collector[P]. CN201514270U. 2010.

[15] He Q, Maimaiti A, Maimaiti Y, et al. Sand collector with real-time inlet orientation detection[P]. CN201514418U. 2010.

[16] He Q, Maimaiti A, Maimaiti Y, et al. Surface micro-gradient sand collector[P]. CN201497626U. 2010.

Books

[1] Land-Atmosphere Interaction Observation and Simulation Research in Taklimakan Desert, China Meteorological Press, 2020.9, ISBN 978-7-5029-7278-3 (First author)

[2] Central Asia Climate Change Investigation and Research, China Meteorological Press, 2016.1, ISBN 978-7-5029-6273-9 (First author)