代表性论文论著:
[1] Qiang Zhang, Zesu Yang,Xiaocui Hao,Ping Yue,Conversion features of evapotranspiration responding to climate warming in transitional climate regions in northern China,Climate Dynamics,2019,52:3891-3903。DOI 10.1007/s00382-018-4364-3。(被SCI收录)
[2] Zhang Qiang, Huang Ronghui, Water Vapor Exchange Between Soil and Atmosphere over a Gobi Surface Near An Oasis in Summer, Journal of Applied Meteorology, 2004,43(12),1917-1928。(被SCI收录)
[3] Zhang Qiang, Wang wenyu, Wang sheng, Increasing Trend of Pan Evaporation over the Semiarid Loess Plateau under a Warming Climate, Journal of Applied Meteorology and Climatology,2016,55(9), DOI: http://dx.doi.org/10.1175/JAMC-D-16-0041.1 . (被SCI收录)
[4] Qiang, Zhang, Sheng Wang, Ping Yue, Variation characteristics of non-rainfall water and its contribution to crop water requirements in China's summer monsoon transition zone, Journal of Hydrology, 2019, https://doi.org/10.1016/j.jhydrol.2019.124039 (被SCI收录) .
[5] Zhang Qiang, Wang Sheng, Michael Barlage , Tian Wenshou, Huang Ronghui, The Characteristics of the Sensible Heat and Momentum Transfer Coefficients over the Gobi in the Northwest China, International Journal of Climatology, 2011, 31(4), 621-629. (被SCI收录)
[6] Zhang Qiang, Huang Ronghui, Parameters of land surface processes for Gobi in Northwest China, Boundary-Layer Meteorology, 2004, 110(3), 471-478. (被SCI收录).
[7] Zhang Qiang, Wang Sheng, Yang Fulin, Yue Ping, The Characteristics of Dew Formation/Distribution and Its Contribution to the Surface Water Budget over a Semi-arid Region in China,Boundary-Layer Meteorology, 2015,,154(2),317-331. DOI 10.1007/s105476-014-9971-x. (被SCI收录)
[8] Q. Zhang, W. Wang, and F. Yang, Drought-stress modified crop coefficients for estimation of evapotranspiration of spring wheat in the southwest Loess Plateau of China,Journal of Soil and Water Conservation ,2019,74(2),91-100. doi:10.2489/jswc.74.2.91(被SCI收录)
[9] Zhang Qiang, Han Lanying, Management of Drought Risk Under Global Warming,Theoretical and Applied Climatology,2015,DOI: 10.1007/s00704-015-1503-1. .(被SCI收录)
[10] Zhang Qiang, Han Lanying,,North-South differences in Chinese agricultural losses due to climate-change-influenced droughts,Theoretical and Applied Climatology,2016,DOI: 10.1007/s00704-016-2000-x. (被SCI收录)
[11] Zhang Q, Yao Y, Wang Y, et al. Characteristics of drought in Southern China under climatic warming, the risk, and countermeasures for prevention and control[J]. Theoretical and Applied Climatology, 2018: 1-17.. (被SCI收录)
[12] Zhang, Q., Yang, Z., Hao, X. et al., Dynamic response of land–atmosphere coupling parameters to the inter-annual variability of effective precipitation, under sparse vegetation conditions in the Asian summer monsoon transition zone,Environ Earth Sci (2019) 78:524), 1-19. https://doi.org/10.1007/s12665-019-8525-4 (被SCI收录)
[13] Zhang Qiang, Zeng Jian, Yao Tong, Interaction of aerodynamic roughness length and windflow condition and its parameterization over vegetation surface, Chinese Science Bulletin, 2012, 57(13),1559-1567,doi: 10.1007/s11434-012-5000-y. (被SCI收录)..
[14] Zhang Qiang, Wei Guoan, Huang Ronghui,The bulk transfer coefficients of the atmospheric momentum and sensible heat over desert and Gobi in arid climate region of Northwest China, Science in China (Series D), 2002, 45(5),468-480. (被SCI收录).
[15] Zhang Qiang, Zhang Jie, Qiao Juan, Wang Sheng, Relationship of atmospheric boundary layer depth with thermodynamic processes at the land surface in arid regions of China, Science China Earth Sciences, 2012,54 (10): 1585–1594. doi: 10.1007/s11430-011-4207-0 (被SCI收录)
[16] Zhang Q, Li H Y, Zhao J H, et al. Modification of the land surface energy balance relationship by introducing vertical sensible heat advection and soil heat storage over the Loess Plateau. Science China Earth Sci,, 2012, 55(4):580-589.
[17] Zhang Q., Zeng J, Zhang, L Y. Characteristics of land surface thermal-hydrologic processes for different regions over North China during prevailing summer monsoon period, Science China Earth Sci, 2012, 55(11): 1872–1880,doi: 10.1007/s11430-012-4373-8. (被SCI收录)
[18] Zhang Q, Zhang, L,Huang J., The Spatial Distribution of Surface Energy Fluxes over Loess Plateau in China and its Relationship with Climate and Environment, Science China Earth Sci.,2014, 57(9), 2135-2147。 (被SCI收录)
[19] Zhang Qiang, Yao Tong, Yue Ping, Development and test of a multifactorial parameterization scheme of aerodynamic roughness length for flat land surfaces with short vegetation, Science China Earth Sci., 2016,.59(2).: 281–295. (被SCI收录)
[20] Zhang Qiang, Wang Sheng, Wang Shanshan,, Influence factors and variation characteristics of water vapor absorption by soil in semi-arid region,Science China Earth Sci.,2016,59(11),2240–2251. doi:10.1007/s11430-015-5531-5. (被SCI收录)
[21] Zhang Qiang, Lin Jingjing , Liu Weicheng,Precipitation Seesaw Phenomenon and its Formation Mechanism in the Eastern and Western Parts of Northwest China during the Flood season, 2019,62, doi/10.1007/s11430-018-9357-y (被SCI收录)
[22] Zhang Qiang, Li Hongyu,, A study of the relationship between air pollutants and inversion in the ABL over the city of Lanzhou. Adv. Atmos. Sci., 2011,28(4), 879–886,DOI: 10.1007/s00376-010-0079 -z (被SCI收录)
[23] Zhang Qiang, Wei Guoan,Cao Xiaoyan, Huang Ronghui, Observation and study of land surface parameters over Gobi in typical arid region, Adance in atmospheric science, 2002,19(1),121-135. (被SCI收录)
[24] Zhang Qiang,Huang Ronghui and Tian Hui, A Parameterization Scheme of Surface Turbulent Momentum and Sensible over Gobi Underlying Surface,Adance in atmospheric science, 2003,20(1),111-118. (被SCI收录)
[25] Zhang Qiang,Wei Guoan,Huang Ronghui,Zhang Qiang,Wei Guoan,Huang Ronghui,Characteristics of Hydrologic Transfer Between Soil and Atmosphere over Gobi Near Oasis at the End of Summer, Adance in atmospheric science, 2003,20(3),442-452。(被SCI收录).
[26] 张强,李宏宇,黄土高原地表能量不闭合度与垂直感热平流的关系,物理学报, 2010,59(8),5888-5895。(被SCI收录)
[27] 张强,李宏宇,岳平,陇中黄土高原自然植被下垫面陆面过程及其参数对降水波动的气候响应,物理学报, 2013,62(1),019201。(被SCI收录)。
[28] 张强,黄菁,张良,黄土高原区域气候暖干化对地表能量交换特征的影响,,物理学报, 2013,62(13),139202(被SCI收录)。
[29] Zhang Qiang,Zhang Jie,Sun Guowu ,Di Xiaohong,Research on Water-vapor Distribution in the Air over Qilian Mountains,ACTA Meteor, Sinica, 2008, 22(1), 107-118。(被SCIE收录)
[30] Zhang Qiang,Wang Sheng,Sun Zhaoxuan, A study of Atmospheric Boundary layer structure during a clear day in the Arid Region of Northwest China,ACTA Meteor, Sinica, 2009, 23(3), 327-337。(被SCIE收录)
[31] Zhang Qiang, Wang Sheng,Wen Xiaomei, Li Hongyu, Experimental Study of the Imbalance of Water Budget over the Loess Plateau of China, Acta Meteorologica Sinica, 2011,25(6),756-773。(被SCIE收录)
[32] Zhang Qiang, Yao Tong , Yue Ping,The Influences of Thermodynamic Characteristics on Aerodynamic Roughness Length over Land Surface,Acta Meteorologica Sinica, 2013,27(2),249-262, doi: 10.1007/s13351-013-0209-5.。(被SCIE收录)
[33] 张强,王胜,西北地区戈壁地表物理过程参数化的研究,地球物理学报,2003,46(5),616-623。(被SCIE收录).
[34] 张强,孙昭萱,王胜,黄土高原定西地区陆面物理量变化规律研究,地球物理学报,2011,54(7),1727-1737,DOI:10.3969/j.issn.0001-5733.2011.07.005。(被SCIE收录).
[35] Wang Ying, Zhao Wen, Zhang Qiang, Characteristics of drought,vulnerability for maize in the eastern part of Northwest China , Scientific Reports, 2019, 9:964 | https://doi.org/10.1038/s41598-018-37362-4. (被SCI收录,通讯作者)。
[36] Jian Zeng,Qiang Zhang,A humidity index for the summer monsoon transition zone in East Asia,Climate Dynamics,2019,https://doi.org/10.1007/s00382-019-04876-0 (被SCI收录,通讯作者)。
[37] Yue Ping, Zhang Qiang, Yang Yang, Seasonal and inter-annual variability of the Bowen smith ratio over a semiaridarid grassland in the Chinese Loess Plateau,Agricultural and Forest meteorology,2018,252,99-108. (被SCI收录,通讯作者)。
[38] Ping Yuea,, Qiang Zhang, Liang Zhang, Long-term variations in energy partitioning and evapotranspiration in a semiarid grassland in the Loess Plateau of China, Agricultural and Forest Meteorolog2019,278, 107671. (被SCI收录,通讯作者)。
[39] Yang F, Zhang Q, Wang R, Zhou J Evapotranspiration Measurement and Crop Coefficient Estimation over a Spring Wheat Farmland Ecosystem in the Loess Plateau. PLoS ONE,2014,9(6): e100031. doi:10.1371/journal.pone.0100031。(被SCI收录,通讯作者)
[40] Yang, Z., Zhang, Q., Hao, X., & Yue, P.,Changes in evapotranspiration over global semiarid regions 1984–2013. Journal of Geophysical Research:Atmospheres, 2019,124, 2946–2963. https:// doi.org/10.1029/2018JD029533。(被SCI收录,通讯作者)
[41] Xiao Guoju , Zhang Qiang, Xiong Youcai , Lin Miaozi, Wang Jing. Integrating rainwater harvesting with supplemental irrigation into rain-fed spring wheat farming. Soil & Tillage Research. 2007,93(2),429-437. (被SCI收录,通讯作者)
[42] Xiao Guoju, Zhang Qiang, Yao Yubi. Effects of temperature increase on water use and crop yields in a pea–spring wheat – potato rotation system in semiarid regions of China. Agricultural water management ,2007,91(3) .86-91. (被SCI收录,通讯作者)
[43] Xiao Guoju, Zhang Qiang, Yao Yubi. Impact of recent climatic change on the yield of winter wheat at at low and high altitudes in semi-arid northwestern China, Agriculture, Ecosystems and Environment , 2008, 127(2), .37-42. (被SCI收录,通讯作者).
[44] Yang Fulin, Zhang Qiang, Zhou Jing, Yue Ping,. East Asian summer monsoon substantially affects the inter-annual variation of carbon dioxide exchange in semi-arid grassland ecosystem in Loess Plateau. Agriculture, Ecosystems and Environment, 2019, 272, 218-229. (被SCI收录,通讯作者).
[45] Guoju Xiao,Qiang Zhang, Runyuan Wang,Impact of temperature increase on the yield of winter wheat at low and high altitudes in semi-arid northwestern China , Agricultural water management ,2010,97 .1360-1364. (被SCI收录,通讯作者)。
[46] Li Yu, Zhang Qiang, Wang Runyuan, et al. Temperature changes the dynamics of trace element accumulation in Solanum tuberosum L, Climatic Change 2012, 112:655-672,DOI 10.1007/s10584-011-0251-1. (被SCI收录,通讯作者)。
[47] Zesu Yang, Qiang Zhang, Yang Yang, Evaluation of evapotranspiration models over semi-arid and semi-humid areas of China, Hydrol. Process. 2016, DOI: 10.1002/hyp.10824. (被SCI收录,通讯作者).
[48] Guoju X., Qiang Z., Runyuan W., Climate warming: Does northwest China face a stark food security challenge?[J]. Applied Ecology and Environmental Research, 2016, 14(3):613-636. (被SCI收录,通讯作者)。
[49] Zhang, H., Q. Zhang, P. Yue, L. Zhang, Q. Liu, S. Qiao, and P. Yan (2016), Aridity over a semiarid zone in northern China and responses to the East Asian summer monsoon, J. Geophys. Res. Atmos., 121, 1-18。doi:10.1002/2016JD025261. (被SCI收录,通讯作者)。
[50] Yu Li, Longqing Li,Qiang Zhang,Influence of temperature on the heavy metals accumulation of five vegetable species in semiarid area of northwest China,Chemistry and Ecology,2013。DOI:10.1080/02757540.2013.769970 (被SCI收录,通讯作者)。
[51] Li Yu, Li Longqing, Zhang Qiang,Influence of temperature on the heavy metals accumulation of five vegetable species in semiarid area of northwest China,Chemistry and Ecology,2013,http://dx.doi.org/10.1080/02757540.2013.769970(被SCI收录,通讯作者)。
[52] Liang Junxi, Wang Yanbin, Zhang Qiang,, Theoretical investigation of the conventional CX1X2− (X1, X2 = H, F, Cl, Br, and I) compounds, computational and theoretical chemistry,2002, 997,1-6. http://dx.doi.org/10.1016/j.comptc.2012.07.023. (被SCI收录,通讯作者)。
[53] Liang Junxi, Wang Yanbin, Zhang Qiang,, DFT study on the reactions of ClO–/BrO– with RCl (R = CH3, C2H5, and C3H7) in gas phase,journal of molecular modeling,2013,19(4). DOI:10.1007/s00894-012-1736-1 。(被SCI收录,通讯作者)
[54] Liang Junxi, Li Yu1, Zhang Qiang, Geng Zhiyuan,Understanding halogen-substituent assistance in H-atom abstraction-based reactions of CHCl•− with CH4 − nXn (X = H, F, Cl; n = 0–3),Journal of Physical Organic Chemistry,2014,DOI: 10.1002/poc.3276。(被SCI收录,通讯作者)
[55] Liang Junxi, Wei Jiajun, Li Yu1, Zhang Qiang, Geng Zhiyuan,Reaction of CS2 with CHBr•− and CBr 2 •− in the gas phase: a Theoretical Mechanistic Study, Journal of the Iranian Chemical Society, 2014,DOI 10.1007/s13738-013-0404-4。(被SCI收录,通讯作者)
[56] Weicheng Liu, Qiang Zhang, Zhao Fu,Analysis and Estimation of Geographical and Topographic Influencing Factors for Precipitation Distribution over Complex Terrains A Case of the Northeast Slope of the Qinghai–Tibet Plateau, Atmosphere, 2018, 9, 349; doi:10.3390/atmos9090349. (被SCI收录,通讯作者)
[57] LI Wang ,YU Haiying,,ZHANG Qiang, Responses of aboveground biomass of alpine grass- lands to climate changes on the Qinghai-Tibet Plateau ,J. Geogr. Sci. 2018, 28(12): 1953-1964。(被SCI收录,通讯作者).
[58] Yu H, Wei Y, Zhang Q, et al. Multi-model assessment of global temperature variability on different time scales. Int J Climatol. 2019;1–19. https://doi.org/10.1002/joc.6209. (被SCI收录,通讯作者).
[59] Zhang Qiang, Wei Guoan, Huang Ronghui, Preliminary study of local land surface processes over Gobi in arid region of Northwest China, The proceedings of the China Association for Scicence and Technology(No.1), edited by Feng Changgen, Huang Ping and Ma yang et al., Science Press, Bejing/New York, 2004,412-418. (被EI收录)
[60] 张强, 曾剑, 姚桐,植被下垫面近地层大气动力状态与动力学粗糙度的相互作用及其参数化关系研究,科学通报, 2012,57(8),647-655。 (被EI收录)
[61] 张强,王文玉,阳伏林,半干旱地区干旱胁迫作用对作物系数的影响特征,科学通报,2015,60(15),1384-1394。(被EI收录)
[62] 张强, 杨泽粟, 郝小翠, 等. 北方蒸散对气候变暖响应随降水类型转换特征. 科学通报, 2018, 63(11),1035-1049.,doi: 10.1360/N972017-00817。(被EI收录)。
[63] 张强,韩兰英, 王兴,等,影响南方农业干旱灾损率的气候要素关键期特征,科学通报, 2018, 63(23)2378-2392 . doi/10.1360/N972018-00240。(被EI收录)。
[64] 张强,乔梁, 岳平,等,干旱区夏季连续晴空期超厚大气对流边界层持续发展的能量机制研究,科学通报, 2019, doi:10.1360/N972018-01014 。(被EI收录)。
[65] 张强,兰州市山谷地形和大气逆温层对污染物水平输送的影响,中国环境科学,2001,21(3),230-234。(被EI收录)
[66] Zhang Qiang, Yuhe Nan, Sheng Wang, Impacts of oasis on the atmospheric hydrological cycle over the nearby desert,Natural Science, 2010,2(7), 681-687
[67] Zhang Qiang , Wang Sheng Wei Guoan ,Study on Physical Parameters of Local Land-Surface Processes on Gobi in Northwest China, Chinese Journal of Geophysics,2003,46(5),883-895.
[68] Zhang Qiang, Sun Zhaoxuan, Wang Sheng, Analysis of Variation Regularity of Land-surface Physical Quantities over the Dingxi Region of the Loess Plateau, Chinese Journal of Geophysics,2011,54(4), 436-447.
[69] Zhang Qiang, Hu Yinqiao, An experiment verification about the clipping approximation and quasi-normal approximation, Chinese J. Atmos.Sci., 1994,18, 231-240。
[70] Zhang Qiang, Hu Yinqiao, The flux-profile relationship under the condition of heat advection over moist surface, Chinese, J. Atmos,Sci.,1995, 19, 8-20。
[71] Zhang Qiang, Cao Xiaoyan, A study of Surface Heat and Radiation Budget Energy over Gobi in Dunhuang Region, Chinese, J. Atmos,Sci., 2003, 27(2), 165-176。
[72] Zhang Qiang, Wang Sheng, Stduy on Parameterization of Albedo and Soil Heat Conductivity in Gobi in Northwest China, Chinese J. Atmos,Sci.,2003, 27(1), 15-27。
[73] Zhang Qiang,Wang Sheng, Li Yanying, The Study of physical mechanism of influence on Atmospheric Boundary Layer depth in Arid Regions of Northwest China, ACTA Meteor, Sinica, 2006, 20(s), 1-12。
[74] Zhang Qiang, XiaoCui Hao, Xiao Mei Wen,An overview on observational instruments and measuring methods for dewfall,Sciences in Cold and Arid Regions,2011,3(1),0078–0085.
[75] Zhang Qiang, Hu Yinqiao, The characters of micrometerology over farmland in oasis in Heihe region, Advance in HEIFE Research, Bejing ,1993, Chinese Meteor. Press。
[76] Zhang_Qiang,_Hu Yinqiao,_The Local Similarity of Atmosphere in the Surface Layer, GEB/VIth ISC, Beijing ,Chinese Metero. Press,1992.
[77] Zhang Qiang, Wang Sheng, Characteristics of Hydrometeorology and its Simulation over Desert in the Arid Region of Northwest Chin, BMRC Research Report No.111, Hydrometeorological Applications of Weather and Climate Modelling, edited by A.J. Hollis, Australian Government Bureau of Meteorology, Melbourne, 2005,41-45.
[78] 张强,卫国安,黄荣辉, 西北干旱区荒漠戈壁动量和感热总体输送系数,中国科学, 2001, 31(9),783-792.
[79] 张强,张杰,王胜,乔娟,我国干旱区深厚大气边界层与陆面热力过程的关系研究,中国科学, 2011, 41(9):1365-1374.
[80] 张强,李宏宇,赵建华,垂直平流输送和土壤热储存补偿对黄土高原地表能量平衡的修正,中国科学, 2012,42(1),42-51.
[81] 张强,曾剑,,张立阳,夏季风盛行期我国北方典型区域陆面水、热过程特征研究,中国科学, 2012,42(9),1385-1393.
[82] 张强,张良,黄菁,我国黄土高原地区陆面能量的空间分布规律及其与气候环境关系,中国科学, 2014,44(9),2062-2076。
[83] 张强,姚彤,岳平,一个平坦低矮植被陆面动力学粗糙度多因子参数化方案及其检验,中国科学,2015,45(11),1713-1727。
[84] 张强,王胜,王闪闪,干旱区土壤水汽吸附的影响因素及变化特征研究,中国科学,2016,46(11),1515-12527 10.1360/N072015-00531。
[85] 张强,林婧婧,韩兰英,西北地区东部与西部汛期降水翘翘板变化现象及其形成机制研究,中国科学,2019,49, doi/10.1360/N072018-00198。
[86] 张强,卫国安,黄荣辉,干旱区绿洲对其临近荒漠大气水分循环的影响,自然科学进展,2002,12(2),195-200.
[87] 张强,王胜,干旱荒漠地区土壤水热特征和地表辐射平衡的年变化研究,自然科学进展,2007,17(2),211-216.
[88] 张强,胡隐樵,局地相似性在近地面层大气中的一个应用,气象学报,1994 ,52(4),212-222.
[89] 张强,胡隐樵等,降水强迫对戈壁局地气候系统水、热输送的影响,气象学报,1997,21(4),492-498。
[90] 张强,赵鸣,绿洲附近荒漠大气逆湿的外场实验和数值模拟研究,气象学报,1999,23(4),729-740。
[91] 张强,张杰,孙国武,狄潇泓,祁连山区大气水汽分布特征及其受环流系统和地形的影响,气象学报,2007,65(4),633-643。
[92] 张强,王胜,典型干旱区晴天大气边界层结构及其陆面过程特征,气象学报,2008,66(4),599-608。
[93] 张强,王胜,问晓梅,黄土高原陆面水分的凝结现象及收支特征试验研究,气象学报,2012,70(1),128-135。[68]
[94] 张强,韩兰英,韩涛,气候变化对我国农业干旱灾损率的影响及其南北区域差异性,气象学报,2016,73(6),1092-1103.
[95] 张强,王蓉,岳平,赵映东,复杂条件陆-气相互作用研究领域有关科学问题探讨,气象学报,2017,75(1),39-56。doi: 10.11676/qxxb2017.003。
[96] 张强,岳平,张良,夏季风过渡区的陆-气相互作用:述评与展望,气象学报,2019,77(4),758-773。doi:10.11676/qxxb2019.038。
[97] 张强,强对流过程对大尺度模式洋面通量加强的参数化研究与进展,海洋学报,2001,23(3), 133-141。、
[98] 张强,敦煌绿洲夏季典型晴天地表辐射和能量平衡及小气候特征,植物生态学报,2002,26(6),203-213.
[99] 张强,夏季绿洲生态环境对荒漠背景地表能量过程的扰动,生态学报,2005,25(10),2459-2466。
[100] 张强,邓振镛, 全球气候变化对我国西北地区农业的影响,生态学报,2008,28(3), 1210-1218。
[101] 张强,姚玉璧,王莺,中国南方干旱灾害风险特征及其防控技术对策,生态学报,2017,37(21),7206-7218。
[102] 张强,胡隐樵,四阶矩准正态分布和三阶矩剪切近似的实验验证,大气科学, 1994,18(4),396-404。
[103] 张强,胡隐樵,热平流影响下湿润地表的通量一廓线关系,大气科学,1995,19(1),8-20
[104] 张强,曹晓彦, 敦煌地区荒漠戈壁地表热量和辐射平衡特征,大气科学,2003,27(2),247-254。
[105] 张强,王劲松,姚玉璧,干旱灾害风险及其管理,北京,气象出版社,2017,PP209.
[106] 张强,尹宪志,王胜,走进干旱世界,北京,气象出版社,2017,PP203.
[107] 张强,李耀辉,孙国武,环境蠕变与干旱环境,北京,现代教育出版社,2009,PP247。
[108] 张强, 王润元, 邓振庸,中国西北干旱气候变化对农业与生态影响及对策,北京,气象出版社, 2012,PP.475.
[109] 张强,康风琴,孙旭英,廖远程,冰雹和冰雹云,北京,气象出版社,2006,PP126。
[110] 张强,郭铌, 沙尘暴形成机理及监测、预报和影响评估技术研究,北京,气象出版社,2011,PP257。
[111] 张强,吕世华,黄建平,中国西北云水资源开发利用研究,北京,气象出版社,2007,PP394。
[112] 张强, 康风琴,中国西北冰雹研究,北京,气象出版社,2005,PP579。
[113] 张强,白虎志,王强,青藏高原东北边坡强降水论文集,北京,气象出版社,2012,PP166.
[114] 肖国举,张强,气候变化地球会改变什么?,北京,气象出版社,2013,PP208。
发明专利:
1. “MODIS沙尘暴遥感监测系统” 2011年,专利号:2011SR065139
2. “气候变暖对西北旱作农业影响的监测预警及其应对技术服务系统”,2012年,专利号:2012SR109905
承担的科研项目:
1. 国家自然科学基金重点项目“我国典型夏季风影响过渡区陆-气相互作用及其对夏季风响应研究(项目批准号:41630426)”,500万元,2017年元月-2021年12月,项目主持人。
2. 国家自然科学基金重点项目“黄土高原陆面过程观测与试验研究(项目批准号:40830957)”,170万元,2009-2012年,项目主持人。
3. 国家自然科学基金项目“西北干旱荒漠区大气边界层厚度特征及其形成机制研究(批准号:40575006, 起止年月:2006.1-2008.12)”,研究经费55万元,项目主持人。
4. 国家自然科学基金项目“利用现有观测资料确定西北干旱区陆面过程参数(批准号:40175004,起止年月:2002.1-2004.12)”,研究经费22万元,项目主持人。
5. 国家自然科学基金项目“绿洲维持和退化过程中的大气水分输送(批准号:49705059,起止年月:98.1-2002.12)”,研究经费12万元,项目主持人。
6. 国家自然科学基金重点项目“绿洲系统能量与水分循环过程观测与数值模拟研究(批准号:40233035,起止年月:2003.1-2006.12)”,研究经费180万元,项目协助主持人。
7. 国家科技攻关西部开发科技行动重大项目课题“祁连山空中云水资源开发利用研究”(批准号:2004BA901A16, 起止年月:2005.1-2006.12),研究经费220万元,项目主持人。
8. 国家“973”计划项目“气候变暖背景下我国南方旱涝灾害的变化规律和机理及其影响与对策”的第六课题“气候变暖背景下我国南方旱涝灾害风险评估与对策研究(课题批准号:2013CB430206)”,550万元,2013年-2018年,课题主持人。
9. 主持国家科技支撑计划“省级沙尘暴遥感监测预警评估与服务应用示范”课题(2008BAC40B04),100万元,2009-2011年。
10. 国家公益性行业科研专项“西北地区旱作农业对气候变暖的响应特征研究(项目批准号:GYHY200806021)”,241万元,2008-2011,项目主持人。
11. 国家科技部公益类科研项目“西北地区人工防雹消雹技术(批准号:2002DIB10046,起止年月:2003.1-2005.12)”,研究经费70万元,项目主持人。
12. 中国气象局新技术推广重点项目“西北地区人工防雹消雹技术推广应用”(批准号:CMATG2007z08, 起止年月:2007.1-2008.12),30万元,项目主持人。
13. 甘肃省科技攻关项目“甘肃干旱生态环境对全球气候变暖的响应及减灾技术的研究(批准号:2GS042-A44-017, 起止年月:2004.1-2006.12)”,研究经费40万元,项目主持人。
14. 正在共同主持国家科技支撑计划“黄河重要水源补给区(玛曲)生态修复及保护技术集成研究与示范”项目的“黄河重要水源补给区(玛曲)降水资源调控技术研究” 课题(2009),300万元,2010-2012年。
15. 中国科学院知识创新工程项目“绿洲及其临近荒漠小气候对绿洲自我维持的作用(批准号:210093,起止年月:2000.1-2002.12)”,研究经费20万元,项目主持人。
16. 国家“973”项目“我国重大气候和天气灾害形成机理和预测理论的研究(批准号:1998040904-1,起止年月:1999.1-2003.12)”的专题-“西北干旱地区陆气相互作用试验研究” ,专题经费25万元,专题负责人。
17. 甘肃省与中国科学院科技合作项目“兰州市大气环境污染与对策研究(起止年月:2000.1-2002.12)”的专题“兰州市大气污染的物理机理研究”,专题经费16万元,专题负责人。
18. 中科院兰州分院院长择优基金项目“兰州市大气环境污染的治理研究(起止年月:1997.1-1998.12)” ,研究经费6万元,项目主持人。
19. 甘肃省政府西部资源环境中心项目“西北干旱区绿洲自我维持机制研究(起止年月:1995.1-1996.12)”, 研究经费3万元,项目主持人。
20. 国家自然科学基金重大项目“黑河地区地气相互作用观测试验研究(批准号:8487004,起止年月:1988.1-1994.12)”,总经费400万元,主要完成人,负责野外观测和资料分析。
21. 国家自然科学基金“边界层和背景场相互作用的研究(批准号:49575248,起止年月:96.1-98.12)”,总经费16万元,第二完成人。
22. 国家自然科学基金面上项目“干旱区陆面过程参数化及其对区域气候的影响研究(批准号:49275228,起止年月:1993.1-1995.12)”,总经费17万元,主要完成人。
23. 国家自然科学基金面上项目“沙尘暴触发机制研究(批准号:49475245,起止年月:1995.1-1997.12)”,总经费15万元,主要完成人。
24. 中科院A类重大基金项目“污染预测理论及方法研究(批准号:A295-A1-403-2,起止年月:1996.1-1998.12)”,总经费200万元,主要完成人。
25. 国家自然科学基金重点项目“稀疏植被下垫面与大气相互作用的研究(批准号:49575249,起止年月:1999.1-2003.12)”,总经费130万元,主要完成人。
人才培养:
已经指导博士后、博士和硕士生50名左右, 毕业学生目前已经国内有关大学、研究机构、业务技术单位和高技术企业发挥骨干作用,其中有一名已晋升为二级研究员、二名已晋升为博士生导师、10名晋升为正教授级技术职称。