Log InRegister
Quick Links : The Mindat ManualThe Rock H. Currier Digital LibraryMindat Newsletter [Free Download]
Home PageAbout MindatThe Mindat ManualHistory of MindatCopyright StatusWho We AreContact UsAdvertise on Mindat
Donate to MindatCorporate SponsorshipSponsor a PageSponsored PagesMindat AdvertisersAdvertise on Mindat
Learning CenterWhat is a mineral?The most common minerals on earthInformation for EducatorsMindat ArticlesThe ElementsThe Rock H. Currier Digital LibraryGeologic Time
Minerals by PropertiesMinerals by ChemistryMineral Visual ExplorerAdvanced Locality SearchRandom MineralRandom LocalitySearch by minIDLocalities Near MeSearch ArticlesSearch GlossaryMore Search Options
Search For:
Mineral Name:
Locality Name:
Keyword(s):
 
The Mindat ManualAdd a New PhotoRate PhotosLocality Edit ReportCoordinate Completion ReportAdd Glossary Item
Mining CompaniesStatisticsUsersMineral MuseumsClubs & OrganizationsMineral Shows & EventsThe Mindat DirectoryDevice SettingsThe Mineral QuizTime Machine
Photo SearchPhoto GalleriesSearch by ColorPhoto Colour ExplorerNew Photos TodayNew Photos YesterdayMembers' Photo GalleriesPast Photo of the Day GalleryPhotography

Chen, Xuelong; Ma, Yaoming (2025) The unique atmospheric boundary layer over the Tibetan Plateau. Chinese Science Bulletin, 70 (24). doi:10.1360/tb-2024-1294

Advanced
   -   Only viewable:
Reference TypeJournal (article/letter/editorial)
TitleThe unique atmospheric boundary layer over the Tibetan Plateau
JournalChinese Science Bulletin
AuthorsChen, XuelongAuthor
Ma, YaomingAuthor
Year2025 (August 1)Volume70
Issue24
PublisherScience China Press., Co. Ltd.
DOIdoi:10.1360/tb-2024-1294Search in ResearchGate
Generate Citation Formats
Mindat Ref. ID18831785Long-form Identifiermindat:1:5:18831785:7
GUID0
Full ReferenceChen, Xuelong; Ma, Yaoming (2025) The unique atmospheric boundary layer over the Tibetan Plateau. Chinese Science Bulletin, 70 (24). doi:10.1360/tb-2024-1294
Plain TextChen, Xuelong; Ma, Yaoming (2025) The unique atmospheric boundary layer over the Tibetan Plateau. Chinese Science Bulletin, 70 (24). doi:10.1360/tb-2024-1294
In(2025, August) Chinese Science Bulletin Vol. 70 (24). Science China Press., Co. Ltd.

References Listed

These are the references the publisher has listed as being connected to the article. Please check the article itself for the full list of references which may differ. Not all references are currently linkable within the Digital Library.

Chen, Xuelong, Škerlak, Bojan, Rotach, Mathias W., Añel, Juan A., Su, Zhonbgo, Ma, Yaoming, Li, Maoshan (2016) Reasons for the Extremely High-Ranging Planetary Boundary Layer over the Western Tibetan Plateau in Winter. Journal of the Atmospheric Sciences, 73 (5). 2021-2038 doi:10.1175/jas-d-15-0148.1
Li M S, Ma Y M, Ma W Q, et al. Structural difference of atmospheric boundary layer between dry and rainy seasons over the Central Tibetan Plateau (in Chinese). J Glaciol Geocryol, 2011, 33: 72‒79 [李茂善, 马耀明, 马伟强, 等. 藏北高原地区干、雨季大气边界层结构的不同特征. 冰川冻土, 2011, 33: 72‒79].
Not Yet Imported: - journal-article : 10.2151/jmsj.82.1777

If you would like this item imported into the Digital Library, please contact us quoting Journal ID
Not Yet Imported: - journal-article : 10.1080/10020070512331342050

If you would like this item imported into the Digital Library, please contact us quoting Journal ID
Not Yet Imported: PLoS ONE - journal-article : 10.1371/journal.pone.0056909

If you would like this item imported into the Digital Library, please contact us quoting Journal ID
Wei Z G, Lü S H, Hu Z Y, et al. A primary research on the characteristics of wind, temperature and humidity in the boundary layer over Jinta summer (in Chinese). Plateau Meteorol, 2005, 24: 846‒856 [韦志刚, 吕世华, 胡泽勇, 等. 夏季金塔边界层风、温度和湿度结构特征的初步分析. 高原气象, 2005, 24: 846‒856].
Zhang Q, Wang S. A study on atmospheric boundary layer structure on a clear day in the arid region in northwest China (in Chinese). Acta Meteorol Sin, 2008, 66: 599‒608 [张强, 王胜. 西北干旱区夏季大气边界层结构及其陆面过程特征. 气象学报, 2008, 66: 599‒608].
De Wekker, Stephan F. J., Kossmann, Meinolf (2015) Convective Boundary Layer Heights Over Mountainous Terrain—A Review of Concepts. Frontiers in Earth Science, 3. doi:10.3389/feart.2015.00077
Lee, Xuhui, Gao, Zhiqiu, Zhang, Chaolin, Chen, Fei, Hu, Yinqiao, Jiang, Weimei, Liu, Shuhua, Lu, Longhua, Sun, Jielun, Wang, Jiemin, Zeng, Zhihua, Zhang, Qiang, Zhao, Ming, Zhou, Mingyu (2015) Priorities for Boundary Layer Meteorology Research in China. Bulletin of the American Meteorological Society, 96. doi:10.1175/bams-d-14-00278.1
Not Yet Imported: - book : 10.1007/978-94-009-3027-8

If you would like this item imported into the Digital Library, please contact us quoting Book ID 9789027727695
Not Yet Imported: Journal of the Meteorological Society of Japan. Ser. II - journal-article : 10.2151/jmsj.2017-010

If you would like this item imported into the Digital Library, please contact us quoting Journal ID
von Engeln, Axel, Teixeira, João (2013) A Planetary Boundary Layer Height Climatology Derived from ECMWF Reanalysis Data. Journal of Climate, 26 (17). 6575-6590 doi:10.1175/jcli-d-12-00385.1
Guo, Jianping, Zhang, Jian, Yang, Kun, Liao, Hong, Zhang, Shaodong, Huang, Kaiming, Lv, Yanmin, Shao, Jia, Yu, Tao, Tong, Bing, Li, Jian, Su, Tianning, Yim, Steve H. L., Stoffelen, Ad, Zhai, Panmao, Xu, Xiaofeng (2021) Investigation of near-global daytime boundary layer height using high-resolution radiosondes: first results and comparison with ERA5, MERRA-2, JRA-55, and NCEP-2 reanalyses. Atmospheric Chemistry and Physics, 21 (22) 17079-17097 doi:10.5194/acp-21-17079-2021
Zhang, Wanchun, Guo, Jianping, Miao, Yucong, Liu, Huan, Song, Yu, Fang, Zhang, He, Jing, Lou, Mengyun, Yan, Yan, Li, Yuan, Zhai, Panmao (2018) On the Summertime Planetary Boundary Layer with Different Thermodynamic Stability in China: A Radiosonde Perspective. Journal of Climate, 31 (4). 1451-1465 doi:10.1175/jcli-d-17-0231.1
Li M, Dai Y, Ma Y, et al. Analysis on structure of atmospheric boundary layer and energy exchange of surface layer over Mount Qomolangma Region (in Chinese). Plateau Meteorol, 2006, 25: 807‒813 [李茂善, 戴有学, 马耀明, 等. 珠峰地区大气边界层结构及近地层能量交换分析. 高原气象, 2006, 25: 807‒813].
Not Yet Imported: - journal-article : 10.1007/BF02690793

If you would like this item imported into the Digital Library, please contact us quoting Journal ID
Cuesta, Juan, Edouart, Dimitri, Mimouni, Mohamed, Flamant, Pierre H., Loth, Claude, Gibert, Fabien, Marnas, Fabien, Bouklila, Abdelkrim, Kharef, Mohamed, Ouchène, Bouziane, Kadi, Mohamed, Flamant, Cyrille (2008) Multiplatform observations of the seasonal evolution of the Saharan atmospheric boundary layer in Tamanrasset, Algeria, in the framework of the African Monsoon Multidisciplinary Analysis field campaign conducted in 2006. Journal of Geophysical Research, 113. doi:10.1029/2007jd009417
Not Yet Imported: - journal-article : 10.1007/s00376-011-0207-4

If you would like this item imported into the Digital Library, please contact us quoting Journal ID
Wang, Minzhong, Xu, Xiangde, Xu, Hongxiong, Lenschow, Donald H., Zhou, Mingyu, Zhang, Jiantao, Wang, Yinjun (2019) Features of the Deep Atmospheric Boundary Layer Over the Taklimakan Desert in the Summertime and its Influence on Regional Circulation. Journal of Geophysical Research: Atmospheres, 124 (23). 12755-12772 doi:10.1029/2019jd030714
Li J, Ao Y, Li Z, et al. Characteristics of atmospheric boundary layer over the Badain Jaran Desert in Summer (in Chinese). J Desert Res, 2014, 34: 488‒497 [李建刚, 奥银焕, 李照国, 等. 巴丹吉林沙漠夏季大气边界层结构. 中国沙漠, 2014, 34: 488‒497].
Takemi T. Structure and evolution of a severe squall line over the arid region in Northwest China. Mon Wea Rev, 1999, 127: 1301-1309.
Not Yet Imported: Atmospheric Environment. Part A. General Topics - journal-article : 10.1016/0960-1686(90)90273-P

If you would like this item imported into the Digital Library, please contact us quoting Journal ID
Whiteman, C. D., Zhong, S., Bian, X., Fast, J. D., Doran, J. C. (2000) Boundary layer evolution and regional-scale diurnal circulations over the and Mexican plateau. Journal of Geophysical Research: Atmospheres, 105. 10081-10102 doi:10.1029/2000jd900039
Nyeki, S., Kalberer, M., Colbeck, I., De Wekker, S., Furger, M., Gäggeler, H. W., Kossmann, M., Lugauer, M., Steyn, D., Weingartner, E., Wirth, M., Baltensperger, U. (2000) Convective boundary layer evolution to 4 km asl over High-alpine terrain: Airborne lidar observations in the Alps. Geophysical Research Letters, 27 (5) 689-692 doi:10.1029/1999gl010928
LIU, JingFeng, LU, ChangGui, LI, ChuanJin, XIAO, CunDe, FU, Liang, BIAN, LinGen, YANG, YuanQin, WANG, JiZhi (2014) Ekman dynamics of the atmospheric boundary layer over the Antarctic Plateau in summer. Chinese Science Bulletin, 59 (11). 999-1005 doi:10.1360/972013-864
Not Yet Imported: - journal-article : 10.1029/2020JD033928

If you would like this item imported into the Digital Library, please contact us quoting Journal ID
Lai Y. Diurnal and seasonal variations of the atmospheric boundary layer structure over the central Himalayas (in Chinese). Doctor Dissertation. Beijing: University of Chinese Academy of Sciences, 2021 [赖悦. 喜马拉雅山中段大气边界层结构的日变化和季节变化研究. 博士学位论文. 北京: 中国科学院大学, 2021.
Chen, X. L., Ma, Y. M., Kelder, H., Su, Z., Yang, K. (2011) On the behaviour of the tropopause folding events over the Tibetan Plateau. Atmospheric Chemistry and Physics, 11 (10). 5113-5122 doi:10.5194/acp-11-5113-2011
李, 维亮, 丛, 春华, 周, 秀骥 (2001) 青藏高原及其邻近地区上空平流层-对流层之间大气的质量交换. Chinese Science Bulletin, 46 (22). 1914-1918 doi:10.1360/csb2001-46-22-1914
Zhou S, Yang S, Zhang R, et al. Seasonal variation characteristics of two types of tropopause heights over the Tibetan Plateau (in Chinese). Chin J Atmos Sci, 2010, 33: 307‒314 [周顺武, 杨双艳, 张人禾, 等. 青藏高原两类对流层顶高度的季节变化特征. 大气科学学报, 2010, 33: 307‒314].
Chen B, Xu X, Bian J, et al. Simulation study on the source regions, pathways, and timescales of troposphere-to-stratosphere transport in the Asian monsoon region in summer (in Chinese). Chin J Atmos Sci, 2010, 34: 495‒505 [陈斌, 徐祥德, 卞建春, 等. 夏季亚洲季风区对流层向平流层输送的源区、路径及其时间尺度的模拟研究. 大气科学, 2010, 34: 495‒505].
Xia X, Ren R, Wu G, et al. An analysis on the spatio-temporal variations and dynamic effects of the tropopause and the related stratosphere-troposphere coupling surrounding the Tibetan Plateau area (in Chinese). Acta Meteorol Sin, 2016, 74: 525‒541 [夏昕, 任荣彩, 吴国雄, 等. 青藏高原周边对流层顶的时空分布、热力成因及动力效应分析. 气象学报, 2016, 74: 525‒541].
Škerlak, B., Sprenger, M., Wernli, H. (2014) A global climatology of stratosphere–troposphere exchange using the ERA-Interim data set from 1979 to 2011. Atmospheric Chemistry and Physics, 14 (2). 913-937 doi:10.5194/acp-14-913-2014
Chou, Yan, Huang, Qian, Zhang, Yongpeng, Luo, Jiali, Wang, Mengyuan, Liao, Huiren, Zhang, Yunshuai, Bai, Zhixuan (2023) Impacts of deep boundary layer on near-surface ozone concentration over the Tibetan Plateau. Atmospheric Environment, 294. 119532 doi:10.1016/j.atmosenv.2022.119532
周, 秀骥 (1995) 中国地区臭氧总量变化与青藏高原低值中心. Chinese Science Bulletin, 40 (15). 1396-1398 doi:10.1360/csb1995-40-15-1396
Ma, J., Lin, W. L., Zheng, X. D., Xu, X. B., Li, Z., Yang, L. L (2014) Influence of air mass downward transport on the variability of surface ozone at Xianggelila Regional Atmosphere Background Station, southwest China. Atmospheric Chemistry and Physics, 14 (11). 5311-5325 doi:10.5194/acp-14-5311-2014
Itoh, Hisanori, Narazaki, Yukinori (2016) Fast descent routes from within or near the stratosphere to the surface at Fukuoka, Japan, studied using 7Be measurements and trajectory calculations. Atmospheric Chemistry and Physics, 16 (10). 6241-6261 doi:10.5194/acp-16-6241-2016
Rotach, Mathias W., Gohm, Alexander, Lang, Moritz N., Leukauf, Daniel, Stiperski, Ivana, Wagner, Johannes S. (2015) On the Vertical Exchange of Heat, Mass, and Momentum Over Complex, Mountainous Terrain. Frontiers in Earth Science, 3. doi:10.3389/feart.2015.00076
Ma, Yaoming, Xie, Zhipeng, Ma, Weiqiang, Han, Cunbo, Sun, Fanglin, Sun, Genhou, Liu, Lian, Lai, Yue, Wang, Binbin, Liu, Xin, Zhao, Wenqing, Ma, Weiyao, Wang, Fangfang, Sun, Lijun, Ma, Bin, Han, Yizhe, Wang, Zhongyan, Xi, Zhenhua (2023) QOMS: A Comprehensive Observation Station for Climate Change Research on the Top of Earth. Bulletin of the American Meteorological Society, 104 (3) doi:10.1175/bams-d-22-0084.1
Chen, Xuelong, Xu, Xiangde, Ma, Yaoming, Wang, Gaili, Chen, Deliang, Cao, Dianbin, Xu, Xin, Zhang, Qiang, Li, Luhan, Liu, Yajing, Liu, Liping, Li, Maoshan, Luo, Siqiong, Wang, Xin, Hu, Xie (2024) Investigation of Precipitation Process in the Water Vapor Channel of the Yarlung Zsangbo Grand Canyon. Bulletin of the American Meteorological Society, 105 (2) doi:10.1175/bams-d-23-0120.1
Not Yet Imported: - journal-article : 10.1029/2022JD037332

If you would like this item imported into the Digital Library, please contact us quoting Journal ID
Not Yet Imported: - journal-article : 10.1029/2023JD039676

If you would like this item imported into the Digital Library, please contact us quoting Journal ID
Xian T, Guo J, Zhao R, et al. Impact of urbanization on mesoscale convective systems: insights from a radar wind profiler mesonet, theoretical analyses, and model simulations. J Geophys Res Atmos, 2024, 129: e2024JD042294.
Ma Y, Yao T, Zhong L. Comprehensive study of energy and water exchange over the Tibetan Plateau: a review and perspective: from GAME/Xizang and CAMP/Xizang to TORP, TPEORP, and TPEITORP. Earth Sci Rev, 2023, 237:
Chen X, Liu Y, Ma Y. TP-PROFILE: monitoring the thermodynamic structure of the troposphere over the third pole. Adv Atmos Sci, 2024, 41: 1264-1277.
Li Y., Zhao P., Che J, et al. Impacts of the east-west difference in convective boundary layer height on circulation over the Tibetan Plateau in summer (in Chinese). Acta Meteorol Sin, 2023, 81: 569‒579 [李怡霖, 赵平, 车军辉, 等. 夏季青藏高原对流边界层高度东西差异对环流场的影响. 气象学报, 2023, 81: 569‒579].
Not Yet Imported: - journal-article : 10.1029/2023JD039506

If you would like this item imported into the Digital Library, please contact us quoting Journal ID
He J, Xu H, Zhong S, et al. Characteristics of atmospheric heat sources over the tibetan plateau and their influences and possible mechanisms (in Chinese). Beijing: Meteorological Press, 2011. 243 [何金海, 徐海明, 钟珊珊, 等. 青藏高原大气热源特征及其影响和可能机制. 北京: 气象出版社. 2011. 243].
Li Y. The PBL wind field at the eastern edge of the Tibetan Plateau and its relations with heavy rain-flood of the Changjiang River in 1998 (in Chinese). Chin J Atmos Sci, 2000, 24: 641‒648 [李跃清. 1998年青藏高原东侧边界层风场与长江暴雨洪水的关系. 大气科学, 2000, 24: 641‒648].
Duan A, Liu Y, Wu G. Thermal conditions over the Tibetan Plateau in April-June and their relationship with summer East Asian precipitation and atmospheric circulation anomalies. Sci China Ser D Earth Sci, 2003, 33: 997‒1004 [段安民, 刘屹岷, 吴国雄. 4~6月青藏高原热状况与盛夏东亚降水和大气环流的异常. 中国科学: D辑, 2003, 33: 997‒1004].
Zhang, Jiaoshi, Gong, Xianda, Crosbie, Ewan, Diskin, Glenn, Froyd, Karl, Hall, Samuel, Kupc, Agnieszka, Moore, Richard, Peischl, Jeff, Rollins, Andrew, Schwarz, Joshua, Shook, Michael, Thompson, Chelsea, Ullmann, Kirk, Williamson, Christina, Wisthaler, Armin, Xu, Lu, Ziemba, Luke, Brock, Charles A., Wang, Jian (2024) Stratospheric air intrusions promote global-scale new particle formation. Science, 385 (6705) 210-216 doi:10.1126/science.adn2961

See Also

These are possibly similar items as determined by title/reference text matching only.

Cao, Dianbin, Chen, Xuelong, Chen, Deliang, Du, Yu, Luo, Yuhan, Hu, Yang, Zhang, Qiang, Ma, Yaoming, Chen, Fahu (2025) Two types of heavy precipitation in the southeastern Tibetan Plateau. Science Bulletin, 70 (5). doi:10.1016/j.scib.2024.12.031
Chen, Xuelong, Yuan, Ling, Ma, Yaoming, Chen, Deliang, Su, Zhongbo, Cao, Dianbin (2024) A doubled increasing trend of evapotranspiration on the Tibetan Plateau. Science Bulletin, 69 (12). doi:10.1016/j.scib.2024.03.046
Chen, Xuelong, Škerlak, Bojan, Rotach, Mathias W., Añel, Juan A., Su, Zhonbgo, Ma, Yaoming, Li, Maoshan (2016) Reasons for the Extremely High-Ranging Planetary Boundary Layer over the Western Tibetan Plateau in Winter. Journal of the Atmospheric Sciences, 73 (5). 2021-2038 doi:10.1175/jas-d-15-0148.1
Slättberg, Nils, Lai, Hui‐Wen, Chen, Xuelong, Ma, Yaoming, Chen, Deliang (2022) Spatial and temporal patterns of planetary boundary layer height during 1979–2018 over the Tibetan Plateau using ERA5. International Journal of Climatology, 42 (6) 3360-3377 doi:10.1002/joc.7420
Han, Cunbo, Ma, Yaoming, Chen, Xuelong, Su, Zhongbo (2016) Estimates of land surface heat fluxes of the Mt. Everest region over the Tibetan Plateau utilizing ASTER data. Atmospheric Research, 168. 180-190 doi:10.1016/j.atmosres.2015.09.012
Yuan, Cheng, Yao, Xiuping, Qu, Yawei, Chen, Tianmeng, Huang, Yifei, Ma, Jiali (2023) Variability of clouds over Southeast Tibetan Plateau: The roles of aerosols. Chinese Science Bulletin, 68 (5) 532-545 doi:10.1360/tb-2022-0209
Xia, Huan, Li, Yuanxin, Zhang, Dongju, Chen, Fahu (2024) New insights from the latest Denisovan fossil discovery on the Tibetan Plateau. Chinese Science Bulletin, 69 (35). doi:10.1360/tb-2024-1192
Han, Cunbo, Ma, Yaoming, Wang, Binbin, Zhong, Lei, Ma, Weiqiang, Chen, Xuelong, Su, Zhongbo (2021) Long-term variations in actual evapotranspiration over the Tibetan Plateau. Earth System Science Data, 13 (7) 3513-3524 doi:10.5194/essd-13-3513-2021
Wang, Chunxiao, Ma, Yaoming, Han, Cunbo, Zhang, Yunshuai (2024) The impact of the summer monsoon on the convective boundary layer height in different regions of the Tibetan Plateau. Atmospheric Research, 300. 107252 doi:10.1016/j.atmosres.2024.107252
Li, Yuxin, He, Wenke (2025) Thermoelectric materials with grain boundary: Strategies to parameters. Chinese Science Bulletin, 70 (6). doi:10.1360/tb-2024-0783
Yuan, Ling, Chen, Xuelong, Ma, Yaoming, Han, Cunbo, Wang, Binbin, Ma, Weiqiang (2024) Long-term monthly 0.05° terrestrial evapotranspiration dataset (1982–2018) for the Tibetan Plateau. Earth System Science Data, 16 (2) 775-801 doi:10.5194/essd-16-775-2024
 
and/or  
Mindat.org® is an outreach project of the Hudson Institute of Mineralogy, a 501(c)(3) not-for-profit organization. Mindat® and mindat.org® are registered trademarks of the Hudson Institute of Mineralogy.
Copyright © mindat.org and the Hudson Institute of Mineralogy 1993-2026, except where stated. Most political location boundaries are © OpenStreetMap contributors. Mindat.org relies on the contributions of thousands of members and supporters. Founded in 2000 by Jolyon Ralph and Ida Chau.
To cite: Ralph, J., Von Bargen, D., Martynov, P., Zhang, J., Que, X., Prabhu, A., Morrison, S. M., Li, W., Chen, W., & Ma, X. (2025). Mindat.org: The open access mineralogy database to accelerate data-intensive geoscience research. American Mineralogist, 110(6), 833–844. doi:10.2138/am-2024-9486.
Privacy Policy - Terms & Conditions - Contact Us / DMCA issues - Report a bug/vulnerability Current server date and time: June 6, 2026 18:35:26
Go to top of page