近期论文
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2022年:
124.Zhang Xindan, Anning Huang*, Yongjiu Dai, et al., 2022. Influences of 3D Sub-grid Terrain Radiative Effect on the Performance of CoLM over Heihe River Basin, Tibetan Plateau. Journal of Advances in Modeling Earth Systems, DOI: 10.1029/2021MS002654.(*通讯作者)
123.Song Yaoming, Anning Huang*, Haishan Chen, 2022. The Storage of Antecedent Precipitation and Air Temperature Signals in Soil Temperature over China. Journal of Hydrometeorology, DOI: https://doig.org.10.1175 /JHM-D-21.0126.1. (*通讯作者)
122.Zhu Xueyan, Xiangwen Liu, Anning Huang*, et al., 2022. Impacts of SST Configuration on Monthly Prediction of Western North Pacific Summer Monsoon in Coupled and Uncoupled Models. Climate Dynamics,10.1007/s00382-021 -06063-6 (*通讯作者)
121.Zhipeng Fu, Anning Huang*, and Qu Guo. 2022. Improvements of the Subseasonal Precipitation Predicted by the BCC S2S Forecast System over Eastern China in Summer by the Singular Value Decomposition Bias Correction Method.Frontiers in Earth Science, DOI: 10.3389/feart.2021.770167. (*通讯作者 )
120.Yang Xianyu, Jun Wen, Anning Huang*, Yaqiong Lu, Xianhong Meng, Yong Zhao, Yurun Wang, and Lixia Meng. 2022. Short-term Climatic Effect of Gyaring and Ngoring Lakes in the Yellow River Source Area, China. Frontiers in Earth Science. DOI:10.3389/feart.2021.770757. (*通讯作者)
119.Yanmin Jiang, Anning Huang*, Haomin Wu, Xindan Zhang. 2022. GIS-Based Climate Suitability Regionalization of Loquat in Lishui, Zhejiang Province of China. Environmental Research Communications.DOI: https://doi.org/10.1088/2515-7620/ac4a3c.(*通讯作者 )
118.Wu Tingfeng, Boqiang Qin, Anning Huang, Yongwei Sheng, Shunxin Feng, and Céline Casenave. 2022. Reconsideration of wind stress, wind waves, and turbulence in simulating wind-driven currents of shallow lakes in the Wave and Current Coupled Model (WCCM) version 1.0. Geoscientific Model Development, DOI:10.5194/gmd-2021-29.
117.Fan Feng, Yong Zhao, Anning Huang, Yang Li, Xin Zhou. 2022.Different Seasonal Precipitation Anomaly Patterns in Central Asia Associated with Two Types of El Niño during 1951-2016.Frontiers in Earth Science, DOI: 10.3389/feart.2022.771104
116.Shaobo Zhang, Lixia Meng, Yong Zhao, Xianyu Yang and Anning Huang, 2022. The influence of the Tibetan Plateau monsoon on summer precipitation in Central Asia. Frontiers in Earth Science, Accepted.
115.许长义, 卜清军, 黄安宁, 2022. 环渤海湾连续两条阵风锋的关联与成因分析.气象.录用.
2021年:
114.Tang Yong, Anning Huang*, Peili Wu, Danqing Huang,Daokai Xue,Yang Wu, 2021. Drivers of summer extreme precipitation events over East China. Geophysical Research Letters. DOI: 10.1029/2021GL093670. (*通讯作者 )
113. Wu Yang, Anning Huang*, Youyu Lu, Lazhu, Xianyu Yang, Bo Qiu, Zhiqi Zhang, Xindan Zhang, 2021. Numerical Study of the Thermal Structure and Circulation in a Large and Deep Dimictic Lake over Tibetan Plateau, Journal of Geophysical Research: Oceans, DOI: 10.1029/2021JC017517. (*通讯作者 )
112.Cai Shuxin, Anning Huang*,Kefeng Zhu, et al., 2021. Diurnal Cycle of Summer Precipitation over the Eastern Tibetan Plateau and Surrounding Regions Simulated in a Convection-Permitting Model. Climate Dynamics, 57:611-632.DOI:10.1007/S00382-021-05729-5. (*通讯作者 )
111.Zhu Xueyan, Xiangwen Liu, Anning Huang*, et al., 2021. Impact of the observed SST frequency in the model initialization on the BSISO prediction. Climate Dynamics, 57:1097-1117. (*通讯作者 )
110.Mu Xiyu, Anning Huang*, Yang Wu, Qi Xu, Yuanyuan Zheng, Huijuan Lin, Dexian Fang, Xindan Zhang, Yong Tang and Shuxin Cai. 2021. Characteristics of the precipitation diurnal variation and underling mechanisms over Jiangsu, eastern China during warm Season. Frontiers in Earth Science, DOI: 10.3389/feart.2021.703071. (*通讯作者 )
109.Wang Chenli, Kun Zhao,Anning Huang,Xingchao Chen, Xiaona Rao. 2021. The Crucial Role of Synoptic Pattern in Determining the Spatial Distribution and Diurnal Cycle of Heavy Rainfall over the South China Coast. Journal of Climate, 37(7): 2441–2458.
108. Hu Qin, Yong Zhao, Anning Huang, Pan Ma and Jing Ming. 2021. Moisture Transport and Sources of the Extreme Precipitation Over Northern and Southern Xinjiang in the Summer Half-Year During 1979–2018. Frontiers in Earth Science, 9:770877.doi: 10.3389/feart.2021.770877.
107.Ben Yang, Minghuai Wang, Guang J. Zhang, Zhun Guo, Anning Huang, Yaocun Zhang, Yun Qian, 2021. Linking Deep and Shallow Convective Mass Fluxes via an Assumed Entrainment Distribution in CAM5‐CLUBB: Parameterization and Simulated Precipitation Variability. Journal of Advances in Modeling Earth Systems, DOI: 10.1029/2020ms002357.
106.Shujun Liu, Ben Yang, Zhun Guo, Minghuai Wang, Yun Qian, Anning Huang, and Yaocun Zhang. 2021.Quantifying the Local and Remote Impacts of Sub-Grid Physical Processes on the Southeast Pacific Sea Surface Fluxes in the Community Atmosphere Model Version 5 by a Limited-Area Parameter-Perturbation Approach. International Journal of Climatology, DOI: 10.1002/joc.7308.
105.Wu, Tongwen, Yu, Rucong, Lu, Yixiong, Jie, W., Fang, Y., Zhang, J., Zhang, L., Xin, X., Li, L., Wang, Z., Liu, Y., Zhang, F., Wu, F., Chu, M., Li, J., Li, W., Zhang, Y., Shi, X., Zhou, W., Yao, J., Liu, X., Zhao, H., Yan, J., Wei, M., Xue, W., Huang, Anning, Zhang, Y., Zhang, Y., Shu, Q., and Hu, A. 2021. BCC-CSM2-HR: a high-resolution version of the Beijing Climate Center Climate System Model,Geoscientific Model Development,14, 2977–3006.
104.王彩霞,黄安宁*,郑鹏,刘凯,侯敏. 2021,中国第一代全球陆面再分析(CRA40/Land)气温和降水产品在中国大陆的适用性评估. 高原气象. 录用. (通讯作者)
103.谭洁,黄安宁*,史学丽,张宇, 张艳武, 曹璐, 吴阳. 2021. BCC_CSM2-MR模式对中国陆面过程模拟能力评估.高原气象.DOI: 10.7522/j.issn.1000-0534.2021.00057. (通讯作者)
102. 郭渠, 黄安宁*, 付志鹏等. 2021. 北京气候中心次季节-季节预测系统对西南地区夏季降水次季节预报技巧评估及误差订正. 高原气象. 40(3), 644-655. (* 通讯作者 )
101. 侯 敏, 黄安宁*, 黄鹤等. 2021. 天津生态城太阳辐射特征分析及算法评估. 气象科学, 41(1): 8-16. (* 通讯作者 )
100. 王晨宇,姚素香,黄安宁,高千惠. 2021. 不同纬度天气尺度扰动影响2020年夏季梅汛期降水的数值模拟.大气科学学报, 44(2): 228-239.
99. 董新宁, 吴遥, 黄安宁, 唐红玉. 2021. 川渝地区夏季极端降水日变化特征分析.大气科学.录用.
98.杨显玉,吕雅琼,文军,马耀明,孟宪红,黄安宁,田辉,张少波,王禹润,赵林.2021.扎陵湖和鄂陵湖夏季典型地表水热交换特征的数值模拟.高原气象.https://kns.cnki. net/kcms/detail /62.1061.p.20210126.1535.004.html
2020年:
97.Qiu Bo, Anning Huang*, et al., 2020. Implementation and Evaluation of an Improved Lake Scheme in Beijing Climate Center Atmosphere-Vegetation Interaction Model. Journal of Geophysical Research: Atmospheres, DOI: 10.1029/2019JD031272. (* 通讯作者 )
96. Gu Chunlei, Anning Huang*, et al., 2020. Effects of Sub-grid Terrain Radiative Forcing on the Ability of RegCM4.1 in the Simulation of Summer Precipitation over China. Journal of Geophysical Research: Atmospheres, DOI:10.1029/2019JD032215.(* 通讯作者 )
95.Wu Yang, Anning Huang*, et al., 2020. Improvements of the Coupled WRF-Lake Model over Lake Nam Co, Central Tibetan Plateau. Climate Dynamics,volume 55, pages2703–2724. (* 通讯作者 )
94. Zhao Yong, Anning Huang*, et al., 2020. Characteristics of Hourly Extreme Precipitation along the Yangtze River Basin,China during Warm Season. Scientific Reports. DOI: 10.1038/s41598-020-62535-5.(* 通讯作者 )
93. Meng Lixia, Yong Zhao, Anning Huang*, Tianzhu Wang, Yang Wu. 2020.Impact of South Asian monsoon on summer dust weather occurrence over the Tarim basin in Northwest China. Enviromental Research Communications. https://doi.org/10.1088/2515-7620/abbd89.(通讯作者)
92.Zheng Lina,Yaocun Zhang, Anning Huang, 2020. Sub-seasonal prediction of the 2008 extreme snowstorms over South China.Climate Dynamics, pages55:1979–1994.pages1979–1994
91.Qian Shimeng, Lujun Zhang, Ben Yang, Anning Huang, and Yaocun Zhang. 2020. Analysis of Intraseasonal Oscillation Characteristics of Arctic Summer Sea Ice. Geophysical Research Letters, DOI:10.1029/2019GL086555.
90.Yang Ji, Kun Zhao, Xingchao Chen, Anning Huang, Yuanyuan Zhen, Kangyuan Sun. 2020. Sub-seasonal and diurnal variability in lightning and storm activity over the Yangtze River Delta, China during Meiyu season. Journal of Climate, 33(12):5013-5033.
89.Yang Ben, M. Wang, G. Zhang, Z. Guo, Y. Qian, Anning Huang, and Y. Zhang, 2020. Simulated precipitation diurnal variation with a deep convective closure subject to shallow convection in Community Atmosphere Model Version 5 coupled with CLUBB. Journal of Advances in Modeling Earth Systems. DOI: 10.1029/2020MS002050.
88. Bo Zhongkai, Xiangwen Liu, Weizong Gu, Anning Huang, Yongjie Fang, et al., 2020. Impacts of atmospheric and oceanic initial conditions on boreal summer intraseasonal oscillation forecast in the BCC model. Theoretical and Applied Climatology, 142:393-406.
87.Yang Ben, Yaocun Zhang, Zhun Guo, Yun Qian, Anning Huang and Yang Zhou, 2020. Investigating the linkage between simulated precipitation climatology and ENSO-related precipitation anomaly based on multi-model and perturbed parameter ensembles. Theoretical and Applied Climatology, 139, 533-547.
86.Yang, Ben, Zhang, Y., Qian, Y., Song F., Leung L., Wu P., Guo Z., Lu Y., and Anning Huang, 2020. Better monsoon precipitation in coupled climate models due to bias compensation. NPJ Clim Atmos Sci, 2, 43, doi:10.1038/s41612-019-0100-x.
85.He Huanran, Suxiang Yao, Anning Huang, and Kejian Gong. 2020. Evaluation and Error Correction of the ECMWF Subseasonal Precipitation Forecast over Eastern China during Summer. Advances in Meteorology, Article ID 1920841.
84.方德贤, 董新宁, 邓承之,吴钲,海川,高松,黄安宁等. 2020. 2008~2016 年重庆地区降水时空分布特征. 大气科学, 44(2): 1−14.
83.杨显玉,吕雅琼,文军,马耀明,黄安宁等,2020. 不同参数化方案和再分析资料在典型高原湖泊地区的适用效果评估分析.高原气象,39(6):1195-1206.
2019年:
82.Huang Anning, Lazhu, Junbo Wang, Yongjiu Dai, Kun Yang. 2019. Evaluating and Improving the Performance of Three 1-D Lake Models in a Large Deep Lake of the Central Tibetan Plateau. Journal of Geophysical Research: Atmospheres, 124, 3143–3167.
81. Wu Yang, Huang Anning*, Ben Yang, et al., 2019, Numerical study on the climatic effect of the lake clusters over Tibetan Plateau in summer. Climate Dynamics, 53: 5215-5236.(* 通讯作者 )
80. Zhou Y., B. Yang*, H. Chen, Y. Zhang, Anning Huang, and M. La, 2019. Effect of the Madden-Julian Oscillation on 2-m AirTemperature Prediction over China during Boreal Winter in the S2S Database. Climate Dynamics, 52(11): 6671-6689.
79.Song Y., Z. Wang, L. Qi and Anning Huang. 2019. Soil moisture memory and its effect on the surface water and heat fluxes on seasonal and interannual time scales. Journal of Geophysical Research: Atmospheres, 124(20): 10730-10741
78.Rao X, K Zhao,X Chen, Anning Huang, M Xue, Q Zhang and M Wang, 2019.Influence of Synoptic Pattern and Low-Level Wind Speed on Intensity and Diurnal Variations of Orographic Convection in Summer over Pearl River Delta, South China. Journal of Geophysical Research: Atmospheres, 124, 6157–6179.
77.Huang D, Yan, P., Xiao, X., Zhu, J., Tang, X., Anning Huang, 2019. The tri-pole relation among daily mean temperature, atmospheric moisture and precipitation intensity over China. Glob. Planet. Change, 179: 1-9.
76.Li, W, Y Zhang, X Shi, W Zhou, Anning Huang, M Mu, B Qiu and J Ji. 2019. Development of land surface model BCC_AVIM2.0 and its preliminary performance in LS3MIP/CMIP6. J. Meteor. Res. , 33(5): 851-869.
75.Wu, T., Lu, Y., Fang, Y., Xin, X., Li, L., Li, W., Jie, W., Zhang, J., Liu, Y., Zhang, L., Zhang, F., Zhang, Y., Wu, F., Li, J., Chu, M., Wang, Z., Shi, X., Liu, X., Wei, M., Anning Huang, Zhang, Y., and Liu, X. 2019. The Beijing Climate Center Climate System Model (BCC-CSM): Main Progress from CMIP5 to CMIP6. Geosci. Model Dev., 12, 1573-1600.
74.慕熙昱, 徐琪, 潘玉洁 , 孙世玮 , 李昕, 黄安宁. 2019. 雷达径向速度资料同化中不同坐标转换方案的对比试验. 高原气象, (03), pp 625-635.
2018年:
73.Wu Yang,Anning Huang*, Danqing Huang, Fei Chen, Yang Zhou, Dexian Fang, Lujun Zhang and Lijuan Wen, 2018. Diurnal variations of summer precipitation over the regions east to Tibetan Plateau. Climate Dynamics,51: 4287-4307.(*通讯作者)
72.Yang Ben, Yang Zhou, Yaocun Zhang,Anning Huang, Yun Qian, Lujun Zhang, 2018. Simulated precipitation diurnal cycles over East Asia using different CAPE-based convective closure schemes in WRF model. Climate Dynamics, 50: 1639-1658.
71.Zhou Y., B. Yang, Y. Zhao, J. Jiang,Anning Huang, and M. La, 2018. Effects of the Ground Surface Temperature Anomalies over the Tibetan Plateau on the Rainfall over Northwestern China and Western Mongolia in July. Theoretical and Applied Climatology, 134: 645-667.
70.Liu Dongqing, Ben Yang, Yaocun Zhang, Yun Qian,Anning Huang,Yang Zhou, Lujun Zhang, 2018. Combined impacts of convection and microphysics parameterizations on the simulations of precipitation and cloud properties over Asia. Atmospheric Research, 212:172-185.
69.Zhao Yong, Yang Zhou, Minzhong Wang, Wen Hou,Anning Huang,Xinhua Yang, Fan Yang, 2018. Annual distributions and variations of dust weather occurrence over the Tarim Basin, China. Theoretical and Applied Climatology, 132: 209-217.
68.戴永久, 魏楠, 黄安宁, 朱司光, 上官微, 袁华, 张树鹏, 刘少峰, 2018. 通用陆面模式(CoLM)湖泊过程方案与性能评估. 科学通报,63: 3002-3021.
67.赵勇,王前, 黄安宁. 2018.南亚高压伊朗高压型与新疆夏季降水的联系. 高原气象,37(3): 651-661.
66.顾春雷, 方德贤, 周洋, 黄安宁. 2018.次网格坡地辐射参数化对RegCM4.1模式模拟东亚夏季气候的影响. 气象科学, 38(5):585-595.
65.慕熙昱, 徐琪, 周林义, 陶星, 黄安宁, 2108. 基于AWOS数据的南京禄口机场低能见度特征统计研究. 高原气象,37(4): 1129-1142.
2017年:
64.Zhang W.,Anning Huang*, 2017. Diurnal Cycle of Precipitation over Fujian Province during the Pre-summer Rainy Season in Southern China. Theoretical and Applied Climatology, 130(3-4): 993-1006.(*通讯作者)
63.Fangy Y.,P. Wu, T. Wu, Z. Wang, L. Zhang, X. Wu, X. Xiao,Anning Huang, 2017. An evaluation of borealsummer intraseasonal oscillation simulated by BCC_AGCM2.2. Climate Dynamics,48: 3409-3423.
62.Shu Lei, M Xie, D Gao, T Wang, D Fang, Q Liu, Anning Huang, and Liwen Peng, 2017. Regional severe particle pollution and its association with synoptic weather patterns in the Yangtze River Delta region, China. Atmos. Chem. Phys., 17: 12871-12891.
61.韩函, 黄安宁*. 2017. 华北地区夏季降水日变化的时空分布特征. 大气科学,41(2):263-274.(*通讯作者)
60.计小龙, 吴昊旻, 黄安宁*. 2017.青藏高原夏季降水日变化特征分析. 高原气象,36(5): 1188-1200.(*通讯作者)
59.赵勇, 王前, 黄安宁. 2017. 中亚和南亚热力差异对塔里木盆地夏季降水的影响. 气候与环境研究,22(5): 574-586.
58.王前,赵勇,黄安宁,杨清. 2017.南亚高压的多模态特征及其与新疆夏季降水的联系. 高原气象,36(5): 1209-1220.
57.董新宁, 方德贤, 黄安宁等. 2017.两种垂直风廓线的对比及应用I:一致性分析. 高原气象,36(3):788-800.
56.方德贤, 董新宁, 黄安宁等. 2017.两种垂直风廓线的对比及应用II:不同降水条件下风廓线特征. 高原气象,36(4): 971-983.
2016年:
55.Huang Anning,Yong Zhao, Yang Zhou,2016.Evaluation of multi-satellite precipitation products by use of ground based data over China. J. Geophys. Res. Atmos.,121: 10654–10675.
54.Wang Q.,Anning Huang*,2016.Evaluation of the Precipitation Seasonal Variation over Eastern China Simulated by BCC_CSM Model with Two Horizontal Resolutions. J.Geophys.Res.Atmos.,121:8374-8389.(*通讯作者)
53.Zhao Y., Anning Huang*,2016. The impact of the summer Plateau Monsoon over Tibetan Plateau on the rainfall in Tarim Basin. China.Theoretical and Applied Climatology,126: 265-272.(*通讯作者)
52.Zhou Y., Y. Lu, B. Yang, J. Jiang,Anning Huang,2016. On the relationship between the Madden-Julian Osillation and 2m air temperature over Central Asia in boreal winter. J. Geophys. Res. Atmos., 121: 13250-13272.
51.Wang L., Y. Qian, Y. Zhang, C. Zhao, R. Leung, Anning Huang,2016.Observed variability of summer precipitation pattern and extreme events in East China associated with variations of the East Asian summer monsoon. International Journal of Climatology,36: 2942–295.
50.张蒙, 黄安宁*, 2016. 五种卫星反演降水资料在青藏高原东部地区的适用性分析. 高原气象,35(1):34-42.(*通讯作者)
49.吴昊旻, 黄安宁*, 2016. 不同分辨率BCC_CSM模式对中亚夏季降水模拟能力评估. 干旱区地理,39(6):1305-1318.(*通讯作者)
48.唐滢,黄安宁*,2016.夏季太湖局地气候效应的数值模拟研究. 气象科学, 36(5): 647-654.(*通讯作者)
47.赵勇,黄安宁,王前, 杨青,2016.青藏高原地区5月热力差异和后期夏季北疆降水的联系, 气候与环境研究 ,6:653-662.
46.朱新胜,朱宽广,谢旻,黄安宁等,2016.江苏省人为热排放现状及未来变化趋势分析. 气候与环境研究,21(3)306-312.
2015年:
45.Kan M.,Aning Huang*,Y. Zhao, Y. Zhou,2015.Evaluation of the summer precipitation over China simulated by BCC_CSM model with different horizontal resolutions during the recent half century. J. Geophys. Res.Atmos., 120,4657-4670,doi:10.1002/2015JD023131.(*通讯作者)
44.Zhou Y.,Anning Huang*,2015.Influence of the Sea Surface Temperature Anomaly over the Indian Ocean in March on the Summer Rainfall in Xinjiang. Theoretical and Applied Climatology, 119(3-4): 781-789.(*通讯作者) .
43.Yang B.,Y.Zhang, Yun Qian,Anning Huang,2015.Calibration of a convective parameterization scheme in the WRF model and its impact on the simulation of East Asian Summer Monsoon precipitation. Climate Dynamics,44(5-6): 1661-1684.
42.Yang B.,Yaocun Zhang, Yun Qian, Tongwen Wu,Anning Huang,and Yongjie Fang,2015.Parametric sensitivity analysis for the Asian summer monsoon precipitation simulation in the Beijing Climate Center AGCM version 2.1. Journal of Climate, 44(5-6): 1661-1684.
41.Huang Y.,Y.Zhang,Anning Huang,2015:Analysis of the Simulated Different-class Meiyu Precipitation and Associated Circulation by the BCC_AGCM2.0.1. Theoretical and Applied Climatology,120(3-4): 631-641.
40.姜燕敏,黄安宁*,2015.不同水平分辨率BCC_CSM模式对中亚地面气温模拟能力评估. 大气科学,39(3): 535-547.(*通讯作者).
39.吴昊旻,黄安宁*,2015.RegCM4.1区域气候模式对中国区域气候模拟能力评估. 气象科学, 35(1):17-25.(*通讯作者).
2014年:
38.Huang Anning,Yang Zhou,Yaocun Zhang,2014.Changes of the Annual Precipitation over Central Asia in the 21st Century Projected by Multi-models of CMIP5. Journal of Climate,27(12): 6627-6646.
37.Zhao Y.,Anning Huang*,2014.Impact of the Middle and Upper Tropospheric Cooling over Central Asia on the Summer Rainfall in the Tarim Basin, China. Journal of Climate,27: 4721-4732.(*通讯作者).
36.Zhou Y.,Anning Huang,2014.Modeled Interaction between the Sub-Seasonal Evolving of the East Asian Summer Monsoon and the Direct Effect of Anthropogenic Sulfate. J.Geophys.Res.Atmos.,119: 1993-2016.
35.Zhao Y., M. Wang,Anning Huang, H. Li, W. Huo,2014.Relationships between the West Asian subtropical westerly jet and summer precipitation in northern Xinjiang.Theoretical and Applied Climatology,116: 403-411.
34.Huang D., J. Zhu, Y. Zhang, and Anning Huang,2014.The Different Configurations of the East Asian Polar Front Jet and Subtropical Jet and the Associated Rainfall Anomalies over Eastern China in Summer. Journal of Climate,27: 8205–8220.
2013年:
33.Huang Anning,Y Zhang, Z Wang, T Wu,2013.Extended range simulations of the extreme snow storms over southern China in early 2008 with the BCC_AGCM2.1 model. J. Geophys. Res. Atmos., 118: 8253-8273.
32.Zhao Y.,Anning Huang*,2013.The impact of the winter NAO on the frequency of spring dust storms over Tarim Basin in northwest China in the past half century. Environ. Res. Lett.,8024026(5pp), doi: 10.1088/1748-9326/8/2/024026.(*通讯作者).
31.Zhou Y., J. Jiang,Anning Huang,2013.Possible contribution of heavy pollution to the decadal change of rainfall over eastern China during the summer monsoon season. Environ. Res. Lett., doi:10.1088/1748-9326/8/4/044024.
30.Huang D., J. Zhu,Y. Zhang, and Anning Huang,2013.Uncertainties on the simulated summer precipitation over Eastern China from the CMIP5 models. J. Geophys. Res. Atmos.,118: 9035-9047.
29.Zhu J.,D. Huang, Y. Zhang,Anning Huang, X. Kuang, and Y. Huang,2013.Decadal changes of Meiyu rainfall around 1991 and its relationship with two types of ENSO. J. Geophys. Res. Atmos.,118:9766-9777.
28.Fang Y., Y. Zhang,Anning Huang, and B. Li,2013.Seasonal and intraseasonal variations of East Asian summer monsoon precipitation simulated by a regional air-sea coupled model. Advances in Atmospheric Sciences, 30(2): 315-329
27.Wang D., Y. Zhang, and Anning Huang,2013.Climatic features of the southwesterly low Level jet over southeast China and its association with precipitation over East China. Asia Pacific Journal of Atmospheric Sciences, 49(3): 259-270.
26.Zhao Y., H. Li,Anning Huang, Q. He, W. Huo,2013.Relationship between thermal anomalies in Tibetan Plateau and summer dust storm frequency overTarim Basin, China. Journal of Arid Land,5(1): 25-31.
25.Zhou,Y., J. Jiang,Y Lu,and Anning Huang,2013.Revealing the effects of the ElNino Southern oscillation tropical cyclone intensity over the estern North Pacific from a model sensitivity study. Advances in Atmospheric Sciences, 30(4): 1117-1128.
24.Guo L., W. Perrie, Z. Long, J. Chassé, Y. Zhang,Anning Huang,2013.Dynamical Downscaling over the Gulf of St. Lawrence using the Canadian Regional Climate Model. Atmosphere-Ocean,51(3):265-283.
23.吴昊旻,黄安宁*,2013.BCC_CSM1.1模式预估中亚地区未来50年地面气温时空变化特征. 气象学报,71(2):261-274.(*通讯作者).
22.吴昊旻,黄安宁*,2013.10个CMIP5模式预估中亚地区未来50年降水时空变化特征. 干旱区地理,36(4):669-678.(*通讯作者).
21.赵勇,黄安宁,杨青,2013.青藏和伊朗高原热力异常与北疆夏季降水的关系. 气象学报,71(4):660-667.
20.吴昊旻,黄安宁,姜燕敏,2013.华东地区不同等级降水日数的时空分布特征. 气候与环境研究,18(3):387-396.
2012年:
19.Huang,Anning,Yerubandi R.Rao,Weitao Zhang,2012.On Recent Trends in Atmospheric and Limnological Variables in Lake Ontario.Journal of Climate, 25:5807-5816
18.Rao,Y. R.,Anning Huang and Wayne R.Rouse,2012.Modeling of physical processes and assessment of climate change impacts in Great Bear Lake.Atmosphere-Ocean, 50(3): 317-333.
17.Zhao Y., Y. Fang, C. Cui, and Anning Huang,2012. Effects of irrigation Oasis on precipitation in arid region. Journal of Arid Land, 42(2): 132-139.
16.吴昊旻, 黄安宁, 黄旋旋, 2012. 近50年长三角地区季节的气候变化特征 .中国农业气象, 33(3): 317-324.
2010年:
15.Huang, Anning,Yerubandi R. Rao,Youyu Lu,2010. Evaluation of a 3-D hydrodynamic model and atmospheric forecast forcing using observations in Lake Ontario.Journal of Geophysical Research-Oceans,115, C02004, doi:10.1029/2009JC005601.
14.Huang, Anning,Yerubandi R,Rao, Youyu, Lu,and Jun Zhao,2010, Hydrodynamic modeling of Lake Ontario: An intercomparison of three models.Journal of Geophysical Research-Oceans,115,C12076, doi:10.1029/ 2010JC006269
2009年:
13.Huang Anning ,Zhang Yaocun,Zhu Jian, 2009. Effects of the physical ensemble technique on simulation of the summer precipitation over China. Acta. Meteor. Sinica, (6): 713-724.
12.Liu Peng,Yongfu Qian,and Anning Huang,2009. Impacts of land surface and sea surface temperatures on the onset data of the South China Sea summer monsoon.Advances in Atmospheric Sciences, 26(3): 493-502.
11.黄安宁,张耀存,朱坚,2009.中国夏季不同强度降水模拟对不同积云对流参数化方案的敏感性研究. 大气科学,33(6): 1212-1224.
10.黄安宁,张耀存,2009.不同辐射传输方案对P-σRCM9区域气候模式性能的影响. 高原气象, 28(1): 1-11.
2008年:
9.黄安宁,张耀存,黄丹青,2008.南海海温异常影响南海夏季风的数值模拟研究. 大气科学, 32(3): 640-652.
8.黄安宁,张耀存,朱坚,2008.物理过程参数化方案对中国夏季降水日变化模拟的影响. 地球科学进展, 23(11): 1174-1184.
7.黄安宁,张耀存,高国栋,2008.中国东部地区NCEP/NCAR再分析地表能量平衡资料的检验. 南京大学学报,44(3):227-236.
6.顾茗,黄安宁,2008.不同积云对流参数化方案对中国东部降水模拟的对比分析. 气象科学, 5: 488-493.
2008年之前:
5.Huang Anning,Y. Zhang and X. Gao, 2007.Impact of coast SST variability on East Asia summer monsoon. Advances in Atmospheric Sciences,24(2):259-270.
4.黄安宁,张耀存,2007.BATS1e陆面模式对P-σ九层区域气候模式性能的影响. 大气科学,31(1):155-166.
3.Zhang, Yaocun,Anning Huang,Xinsheng Zhu,2006.Parameterization of the thermal impacts of sub-grid orography on numerical modeling of the surface energy budget over East Asia.Theoretical and Applied Climatology, 86(1-4): 201-214.
2.黄安宁,张耀存,2004.海温季节和年际变化对东亚区域气候变率模拟的影响. 南京大学学报,40(3):319-329.
1.王卫国,吴涧,黄安宁,罗燕,2004.大气臭氧垂直分布的非均匀结构, 云南大学学报,26(2): 144-149.
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