2023

Wu S., J. Zhang*, J. Li, Z. Chen, Y. Hang, M. Niu, Y. Kuang, R. Hu.The reduced Siberian spring snow cover modulation on southward northernmost margin of East Asia summer monsoon. Clim. Dynam., 2023, Doi:10.1007/s00382-023-06732-8.

牛苗苗,张杰*,马茜蓉. 印度洋偏暖对春末夏初西天山极端降水的影响研究. 大气科学, 2022, 接收

2022

Zhang J.*, R. Hu, Q. Ma, M. Niu. The warming of the Arabian Sea induced a northward summer monsoon over the Tibetan Plateau. J. Clim., 2022, DOI: 10.1175/JCLI-D-22-0273.1.

Zhang J.*, J. Liu. Increasing Extratropical Cyclonic Vortex Response for More Weather Extremes. 2022, Atmos. Oceanic Sci. Lett., 2022,15,100208. DOI:10.1016/j.aosl.2022.100208.

Chen Z., J. Zhang*, Q. Ma, S. Li. Multi-timescale modulation of North Pacific Victoria mode on Central Asian vortices causing heavy snowfall. Clim. Dynam.,2022, DOI: 10.1007/s00382-022-06350-w,

Chen Z., J. Zhang*, Q. Ma, S. Wu, Y. Kuang, R. Hu. Excitation of Eurasian Transient Warming on the Caspian Sea Vortex. Journal of Geophysical Research: Atmospheres, 2022,127, e2022JD037638. http://doi.org/10.1029/2022JD037638.

Zhao S., J. Zhang*, Y. Du, R. Ji, M. Liu. Modulation of coupled modes of Tibetan Plateau heating and Indian Summer Monsoon on summer rainfall over Central Asia. J. Clim., 2022, doi: 10.1175/JCLI-D-20-0813.1

Wang H., J. Zhang, L. Chen, D. Li. Relationship Between Summer Extreme Precipitation Anomaly in Central Asia and Surface Sensible Heat Variation on the Central-Eastern Tibetan Plateau. Clim. Dynam., 2022, doi:10.21203/rs.3.rs-574468/v1

Yu J., Q. Li, Y. Ding, J. Zhang*, Q. Wu, X. Shen. Long-term trend of water vapor over the Tibetan Plateau in boreal summer under global warming.Science China Earth Sciences, 2022,65(4): 662–674,   https://doi.org/10.1007/s11430-021-9874-0

Long Y., J. Li, Z. Zhu, J. Zhang. Predictability of the anomaly pattern of summer extreme high‑temperature days over southern China. Clim. Dynam.,2022, https://doi.org/10.1007/s00382-022-06170-y.

Ma Qianrong, Hu Rui, Wu Yongping, Zhang Jie, Zhi Rong, Feng Guoling. Variations in July Extreme Precipitation in Henan Province and the Related Mechanisms.2022, Int J Climatol. DOI: 10.1002/joc.7805.

俞静雯, 李清泉,丁一汇, 张杰*, 吴清源, 沈新勇.气候变暖背景下青藏高原夏季水汽的长期变化趋势分析.中国科学D. 2022,52(5),942-954.

李双双,张杰*,陈志恒.中亚地区冬季极端降雪增加与北大西洋两类海温模态增强的联系.高原气象,2022,41(5):1124-1140,

 2021

Zhang J.*, Q. Ma, H. Chen, S. Zhao, Z. Chen. Increasing Warm-Season Precipitation in Asian Drylands and Response to Reducing Spring Snow Cover over the Tibetan Plateau.  J. Clim., 2021, 34,3129-3144.

Zhang J.*, Zhao S., Chen Z. Increasing energy transfer over Eurasia and the North Atlantic enhancing the Eurasian low-frequency wave and boreal summer droughts in China. Int J Climatol. 2021,41,1649–1666. 

Ma,Q.,  J. Zhang*. How do multi-scale interactions affect extreme precipitation in eastern central Asia? J. Clim., 2021,DOI: 10.1175/JCLI-D-20-0763.1

Du Y., J. Zhang*, S. Zhao, Z. Chen. A mechanism of spring Barents Sea ice effect on the extreme summer droughts in northeastern China.Clim. Dynam.,  2022, 58(3-4):1033-1048.https://doi.org/10.1007/s00382-021-05949-9.

Zhu S., Y. Qi, H. Chen, C. Gao, B. Zhou, J. Zhang, J. Wei. Distinct impacts of spring soil moisture over the Indo‐China Peninsula on summer precipitation in the Yangtze River basin under different SST backgrounds. Clim. Dynam.,2020,doi:10.1007/s00382-020-05567-x.  

Yang J., H. Chen, Y. Song, S. Zhu, B. Zhou, J. Zhang. Atmospheric circumglobal teleconnection triggered by spring land thermal anomalies over West Asia and its possible impacts on early summer climate over North China.  J. Clim.,2020, 5999-6021.DOI: 10.1175/JCLI-D-20-0911.1

Ma Q., Q. You, Y. Ma, Y. Cao, J. Zhang, M. Niu, Y. Zhang. Changes in cloud amount over the Tibetan Plateau and impacts of large-scale circulation. Atmospheric Research, 2021,249, 105332.

魏建宁,张杰*.2021,亚非副热带西风急流入口区位置及动能异常对中国华北盛夏年代际干旱的影响.高原气象, 2021, DOI:10. 7522/j. issn.1000-0534. 2020. 00043.

2020

Zhang J.*, Z. Chen, H. Chen, Q. Ma, A. Teshome. North Atlantic Multidecadal Variability Enhancing Decadal Extratropical Extremes in Boreal Late Summer in the Early Twenty-First Century. J. Clim., 2020, 33, 6047-6064. DOI: 10.1175/JCLI-D-19-0536.1

Du Y., J. Zhang *, S. Zhao. Impact of the eastward shift in the negative-phase NAO on extreme drought over northern China in summer. Journal of Geophysical Research: Atmospheres, 2020, doi: 10.1029/2019JD032019 

Ma Q., J. Zhang*, Asaminew Teshome Game, Y. Chang, S. Li. Spatiotemporal variability of summer precipitation and precipitation extremes and associated large-scale mechanisms in Central Asia during 1979–2018. Journal of Hydrology X 2020,8, https://doi.org/10.1016/j.hydroa.2020.100061

Chen Z., J. Zhang*. The characteristics of late summer extreme precipitation in northern China and associated large-scale circulations. Int J Climatol., 2020, DOI: 10.1002/joc.6512. 

Ma Q., J. Zhang*, Gu Y., Yujun Ma Y., and Cao Y. Seasonal and Regional Variability of Long-Wave Effective Radiation in China and Associated Modulating Factors. Advances in Meteorology, 2020, https://doi.org/10.1155/2020/8395269.

Zhao S., J. Zhang*, Z. Lv. Synergy Effects of the Indian Summer Monsoon and the Tibetan Plateau Heating on Summer Rainfall over North China. Advances in Meteorology, 2020, Doi:10.1155/2020/8395269

Chen H., B. Yu, B. Zhou, W. Zhang, J. Zhang. Role of Local Atmospheric Forcing and Land–Atmosphere Interaction in Recent Land Surface Warming in the Midlatitudes over East Asia, J. Clim., 10.1175/JCLI-D-18-0856.1, 2020, 33, 6, 2295-2309.

Zhang W., H. Chen, L. Zhou, B. Zhou, J. Zhang, J. Wei. Effects of Nonuniform Land Surface Warming on Summer Anomalous Extratropical Cyclone Activity and the East Asian Summer Monsoon: Numerical. J. Clim, 2020, DOI: 10.1175/JCLI-D-20-0088.1

刘晨, 张杰,* 徐玮平. 2020. 春季欧亚大陆积雪主模态及其与北大西洋海温的关系[J]. 大气科学, 44(4):792−807.

徐玮平, 张杰*, 刘晨, 等. 2020. 20 世纪90 年代以后华北初春低温增强和北大西洋海温关系[J]. 大气科学, 44(6):1167−1187.

刘诗梦，张杰*，于涵，2020. 影响初夏江淮流域年代际极端干旱的欧洲关键区能量演变特征分析［J]. 高原气象,39(1):143−152. 

2019

Zhang J.*, H. Chen,S. Zhao. A tripole pattern of summertime rainfall and the teleconnections linking northern China to the Indian subcontinent. J. Clim., 2019,32:3637-3653. DOI:10.1175/JCLI-D-18-0659.1.jcli-d-18-0659.pdf

Zhang J.*, H. Chen, Q. Zhang. Extreme drought in the recent two decades in northern China resulting from Eurasian warming. Clim. Dynam., 2019,52:2885–2902.DOI: 10.1007/s00382-018-4312-2 CD-10.1007_s00382-018-4312-2.pdf

Chen, H., Zhan, W., Zhou, B., Teng, F., Zhang, J., & Zhou, Y. (2019). Impact of nonuniform land surface warming on summer anomalous extratropical cyclone activity over East Asia. Journal of Geophysical Research: Atmospheres, 124, 10,306–10,320. 

Asaminew Teshome, Zhang J.*. Increase of Extreme Drought over Ethiopia under Climate Warming. Advances in Meteorology, 2019, doi.org/10.1155/2019/5235429

于涵，张杰*，刘诗梦，2019. 青藏高原地表非绝热加热模态及其与中国北方环流异常的联系[J]. 高原气象，38( 2) : 237-252.

杨军，张杰*，刘垚，陆晓静，邓敏君. 近 56a 宁夏高速公路大雾时空特征及风险评价.干旱区资源与环境. 2019,33(1):153-157.

2018

Zhang J.*, C. Liu，H. Chen. The modulation of Tibetan Plateau heating on the multi-scale northernmost margin activity of East Asia summer monsoon in northern China. Global and Planetary Change, 2018,161,149-161. Global and climate change.pdf

Zhang J.*,Y. Jiang, H. Chen and Z. Wu. Double-mode adjustment of Tibetan Plateau heating to the summer circumglobal teleconnection in the Northern Hemisphere. Int. J. Climatol., 2018,38(2):663-676. dio: 10.1002/joc.5201.pdf

刘振元,张杰*,陈立. 青藏高原植被退化对高原及周边地区大气环流的影响.生态学报,2018,38(1):132-142.

于涵,张杰*,刘诗梦. 基于CERES卫星资料的青藏高原有效辐射变化规律.高原气象,2018,37(1):106-122.

陈志恒,张杰*.青藏高原初春积雪的多尺度变化与北大西洋海温的关系.冰川冻土,2018,40(4):655-665.

刘诗梦,张杰*,于涵.近30年江淮流域夏季年代际干旱特征及其与欧亚西风环流异常的关系. 高原气象,2018,37(5):586-.

俞海洋,张杰*,李婷等.2000-2013 年北京及周边地区大气气溶胶光学厚度时空变化特征及气象影响.气象科学,2018,38(4)：

徐玮平,张杰*.两类春季极端低温的年代际特征与欧亚环流异常关系对比. 高原气象,2018, 37(6):209-224..

2017

Zhang J.*, Q. Tang, H. S. Chen and S. M. Liu. Northward shift in circulation system over the Asian mid-latitudes linked to an increasing heating anomaly over the northern Tibetan Plateau during the past two decades. Int. J. Climatol., 2017,37(2):834-848.  JOC.pdf

高世仰,张杰*,罗琦. 青藏高原非均匀下垫面热力输送系数的估算.高原气象,2017,36(3) :596-609.

刘振元,张杰*,陈立. 青藏高原植被指数最新变化特征及其与气候因子的关系.气候与环境研究,2017,22 (3):289-300.

2015

Zhang J.*, S. Gao, H. Chen, J. Yu, and Q. Tang.Retrieval of the land surface-air temperature difference from high spatial resolution satellite observations over complex surfaces in the Tibetan Plateau, J. Geophys. Res. Atmos.,2015,120,16:8065-8079. doi:10.1002/2015JD023395. pdf

Zhang J.*, L. Li, Z.Wu, X. Li. Prolonged dry spells in recent decades over north-central China and their association with a northward shift in planetary waves. Int. J. Climatol., 2015,35: dio:10.1002/joc.4337.pdf

Zhang J.*, Z. Liu, L. Chen. Reduced soil moisture contributes to more intense and more frequent heat waves in northern China. Adv. Atmos. Sci.,2015,32(8):1197-1207.  pdf

陈立,张杰*,刘振元.基于MODIS云产品的AIRS云相态的识别和云量产品的检验.热带气象学报,2015,31(4):486-496.  pdf

陈立,张杰*,刘振元.暴雨发生前卫星 AIRS 资料适用性检验研究.气象科学,2015,35

王丽伟,张杰*.华北—华东地区高温热浪与土壤湿度的关系研究.气象科学,2015,35(5):558?564.pdf

2014

Zhang J.*, L. Li, D. Li, W. Deng. Summer droughts in the north portion of the Yellow river basin in association with recent Arctic ice loss. Int. J. Climatol.,2015,35,2849-2859.pdf

Zhang J.*, Z. Li, J. Li,et al. Ensemble retrieval of atmospheric temperature profiles from AIRS. Adv. Atmos. Sci., 2014,31(3):559-569.  pdf

2013

Zhang J.*, D. Li, L. Li ,W. Deng. Decadal variability of droughts and floods in the Yellow River basin during the last five centuries and relations with the North Atlantic SST. Int. J. Climatol.,2013, 33(15):3217-3228.  pdf

张杰*,张强,唐从国.极端干旱区大气边界层厚度时间演变及其与地表能量平衡的关系.生态学报,2013,33(8): 2545-2555 pdf

2012

Zhang J.*, Q. Zhang, C. Tang. Aerosol structure and vertical distribution in a multi-source dust region. Journal of Environmental Sciences, 2012, 24(8): 1-10. pdf

Zhang J.*, X. Li. Vertical distribution of sand-dust aerosols and the relationships with atmospheric environment. Journal of Arid Land, 2012, 4(4): 357-368. pdf

张杰*,唐从国.干旱区一次春季沙尘过程的大气气溶胶垂直分布结构及其特征.高原气象,2012,31(1):156-166pdf

2011

Zhang J.*, Tang C..Vertical Distribution Shapes of Dust Aerosol and the Relation With Atmospheric Condition, Procedia Environmental Sciences，2011,428-434 .

Zhang Q.*, J. Zhang, Juan Qiao, Sheng Wang .Relationship of Atmospheric Boundary Layer Depth with Thermodynamic Processes on Land Surface in Arid Regions of China. SCIENCE CHINA, 2011,54(10): 1586-1594.

张强*,张杰,乔娟,王胜.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(D), 2011,41(9):1365 -1374

张杰*,张强.影响黄土高原地物光谱反射率的非均匀因子及反照率参数化研究.生态学报,2011, 31(24): 7418-7427pdf

2010

张杰*,张强,李俊.边界层温度廓线遥感反演的本地化改进研究.气象学报,2010,68(2):207-223pdf

张杰*,黄建平,张强.稀疏植被区空气动力学粗糙度特征及遥感反演.生态学报,2010,30(11): 2819-2827pdf

张杰*,张强,黄建平.空气动力学阻抗算法在半干旱区的应用比较和遥感反演.高原气象,2010, 29(3): 662-670

张杰*,张强,黄建平.2007年5～10月黄土高原陆面能量通量特征研究.高原气象,2010,29(4): 855-863

2009

张杰*,李栋梁.青藏高原夏季凝结潜热估算及其时空分布特征研究.地学前缘,2009,16(1):326-333

2008

Zhang J.*, Q. Zhang. Aerosol Impact and Correction on Temperature Profile Retrieval from MODIS. Geophys. Res. Lett.(GRL),2008,35(13), L13818, doi:10.1029/2008GL034419 .pdf

张杰*,张强,赵建华等.作物干旱指标对西北半干旱区春小麦缺水特征的反映.生态学报,2008,28(4):1646-1654pdf

张杰*,张强等. 定量遥感反演作物水势的原理及其应用探讨.生态学杂志,2008,27(6):916-923

张杰*,张强,李栋梁等.不同植被LAI的MODIS反演及其在青藏高原东部的应用.高原气象,2008,27(4):904-910

张杰*,李栋梁.夏季风期间青藏高原地形对降水的影响.地理科学,2008,28(2):235-240

张杰*,李栋梁.黑河流域不同生育期生态用水量生育期变化分析.干旱地区农业研究,2006,24(1):164-168

张杰*,高雪峰,王润元.生态用水的估算方法研究和问题探讨.干旱气象,2008,26(2):12-16

张强*,余亚勋,张杰.祁连山与河西内陆河流域绿洲的大气水循环特征研究.冰川冻土,2008,30(6):907-913

2007

Zhang Q.*, Zhang J., Song Guowu,et al.Research on Water-vapor Distribution in the Air over Qilianshan Mountains, Acta Meteorology Sinica,2007,21(3):69-75.

张杰*,李栋梁,刘世祥等.地形对青藏高原丰枯水年雨季降水量空间分布的影响.水科学进展,2007,18(3):319-326

张杰*,张强,何金梅等.荒漠草原牧草生物量的遥感估算及空间分布.生态学报,2007,27(6):2294-2301

张杰*,郭铌,王介民.NOAA/AVHRR与EOS/MODIS遥感产品NDVI序列的对比及其校正.高原气象,2007,26(5):1097-1105

张强*,张杰,孙国武,狄萧泓等. 祁连山区空中水汽分布特征研究.气象学报,2007,65(4):633-643

罗琦,李栋梁,张杰*.基于3〞数字高程的青藏高原东部雨季降水量分布模型的建立.干旱区研究,2007, 24(6):766-772

2006

Zhang J.*,Zhang Q.,Guon.,et al.Analysis on Albedo in Arid Oasis with Asymmetry Surface in Northwest in China from EOS MODIS data.Chinese Journal of atmospheric Sciences.2006,30(1):47-56.

Zhang J.*,Zhang Q.,Yang L.,et al .Seasonal Characters of Regional Vegetation Activity in Response to Climate Change in West China in Recent 20 Years. Journal of geographical science,2006 ,16(1):78-86.

Zhang J.*, Zhang Q.,Tian W..Remote Sensing Retrieval and Analysis of optical character of cloud in qilian mountains.Acta Meteorology Sinica,2006,20:69-75.

张杰*, 郭铌.沙尘气溶胶对西北地区植被遥感的影响分析.高原气象,2006,25(1):116-121

张杰*,张强,何金梅.祁连山区云光学特征的遥感反演与云水资源的分布特征分析.冰川冻土,2006,28(5):722-727

张杰*,张强,郭铌等.荒漠草原牧草净生产力的遥感估算及其可行性研究.西北植物学报,2006,26(11):2324-2330

2005

Zhang J.*, Li Y.,Yang X., et al.Estimation of surface energy and day evapotranspiration in a dry-farming region of Northwest China using satellite data. Chinese Journal of Geophysics,2005,48(6):1348-1357.

张杰*,张强,郭铌等.应用EOS-MODIS卫星资料反演西北干旱绿洲的地表反照率.大气科学,2005,29(4 ):510-517

张杰*,杨兴国,李耀辉等.应用EOS-MODIS卫星资料反演与估算西北雨养农业区地表能量和蒸散量.地球物理学报,2005,48(6):1261-1269

张杰*,韩涛,王建.祁连山区1997-2004年积雪面积和雪线高度变化分析.冰川冻土,2005,27(5):649-654

张杰*,杨兴国,李巧珍.应用EOS-MODIS卫星资料推算西北雨养农业区能量通量.干旱地区农业研究,2005,23(5):226-231

2004

张杰*,张强,康凤琴等.西北地区东部冰雹云的卫星光谱特征和卫星监测模型.高原气象,2004,23(6):743-748

张杰*,张强,付双喜等.冰雹云的EOS-MODIS遥感监测模型.兰州大学学报,2004,增刊,908-912

张杰*,王介民,郭铌.EOS-MODIS卫星可见光到近红外波段的大气订正.应用气象学报,2004,15(6):651-658

张杰*,郭铌,狄潇鸿.西北地区东部冬季降水与次年沙尘暴发生的关系.中国沙漠,2004,24(5):603-606

张杰*,李文莉,康凤琴等.一次冰雹云演变过程的卫星遥感监测与分析.高原气象,2004,23(6):758-763

张杰*,李栋梁.祁连山及黑河流域降雨量的分布特征分析.高原气象,2004,23(1):81-88

张杰*,杨兴国, 杨启国等.利用MODIS资料估算西北雨养农业区地表净辐射.干旱气象,2004,22(2):32-37

2002

张杰*,韩永翔,万信等.祁连山区降水资源网格场的模拟与分析.干旱地区农业研究,2002, 20(2):108-119

张杰*,郭铌.春季沙尘暴强度的NOAA-14气象卫星监测研究.遥感技术与应用,2002,6:17(6):289-292

著作：

王会军，唐国利，陈海山，吴绍洪，效存德，姜大膀，周波涛，孙建奇，段明铿，徐影，罗勇，杨晓光，王凡，康世昌，王毅，高清竹，左军成，张元明，魏伟，郑景云，王国庆，高学杰，李宁，刘传玉，曾晓东，鲍艳松，张弛，曾刚，孙博，黄艳艳，施宁，尹志聪，张杰，俞淼，陈活泼，祝亚丽，马洁华，燕青，郭东林，汪君，张颖，高雅，吴通华，刘慧，谭显春，尹云鹤，于仁成，黄海军，许艳，刘娜，战云健，任玉玉 ：“一带一路”区域气候变化灾害风险. 北京：气象出版社, 2021: 1-151.