2014年论文

l   Cao, M., and Z. Lin, 2014: Impact of urban surface roughness length parameterization scheme on urban atmospheric environment simulation, J. Appl. Math, Article ID 267683

l   Chen, H., 2014: Assessing the impacts of Initial snow conditions over the Tibetan Plateau on China precipitation prediction using a global climate model, Atmos. Oceanic Sci. Letter, 7(2), 81-86

l   Counillon, F., I. Bethke, N. Keenlyside, M. Bentsen, L. Bertino, and F. Zheng, 2014: Seasonal-to-decadal predictions with the ensemble Kalman filter and the Norwegian Earth System Model: a twin experiment, Tellus A, 66, 21074

l   Dong Xiao, Su Tonghua, Wang Jun, et al., 2014: Decadal variation of the Aleutian Low- Icelandic Low Seesaw Simulated by a Climate System Model (CAS-ESM-C), Atmos. Oceanic Sci. Lett, 7(2), 110-114 

l   Fan, F., R. S. Bradley, and M. A. Rawlins, 2014: Climate change in the northeastern US: Regional climate model validation and climate change projections, Climate Dyn., 43, 145-161,

l   Fang, X.-H., and F., Zheng, 2014: Effect of decadal changes in air-sea interaction on the climate mean state over the tropical Pacific, Atmos. Oceanic Sci. Lett., 7(5), 400–405

l   Fu, S.-M., J.-H. Sun, and J.-R. Sun, 2014: Accelerating two-stage explosive development of an extratropical cyclone over the northwestern Pacific Ocean: a piecewise potential vorticity diagnosis, Tellus, 66, 23210

l   Fu, S.-M., J.-H. Sun, and L.-L. Qi , 2014: Study on the evolution of a Northeast China cold vortex during the spring of 2010, Atmos. Oceanic. Sci. Lett., 7, 149-156.

l   Fu, S.-M., J.-P. Zhang, J.-H. Sun, and X.-Y. Shen, 2014: A fourteen-year climatology of the southwest vortex in summer, Atmos. Oceanic. Sci. Lett., 6, 510-514

l   Levy J. Lin, Z. and Gopalakrishnan, C, 2014: Advances in Decision Support Systems for Flood Disaster Management: Challenges and Opportunities, Water Resources and Decision Making Systems, pp. 81-102

l   LI Min, LIN Zhao-Hui, YANG Chuan-Guo, SHAO Quan-Xi, 2014: Application of a Coupled Land Surface-Hydrological Model to Flood Simulation in the Huaihe River Basin of China, Atmos. Oceanic Sci. Lett., 7(6), 493-498,

l   Li, F., B. Bond-Lamberty, and S. Levis, 2014: Quantifying the role of fire in the Earth system – Part 2: Impact on the net carbon balance of global terrestrial ecosystems for the 20th century, Biogeosciences, 11, 1345-1360

l   Lian Ruxu, Zeng Qing-cun, Stability of weak solutions for the large-scale atmospheric equations, Journal of Inequalities and Applications, 455, doi:10.1186/1029-242X-2014-455

l   PENG, J. B., L. T. CHEN and Q. Y. ZHANG, 2014:  The Relationship between the El Niño/La Niña Cycle and the Transition Chains of Four Atmospheric Oscillations. Part I: The Four Oscillations, Adv. Atmos. Sci., 31, 468-479

l   PENG, J. B., L. T. CHEN and Q. Y. ZHANG, 2014: The Relationship between the El Niño/La Niño Cycle and the Transition Chains of Four Atmospheric Oscillations. Part II: The Relationship and a New Approach to the Prediction of El Niño. Adv. Atmos. Sci, 31, 637-646

l   PENG, J.-B, 2014: An Investigation of the Formation of the Heat Wave in Southern China in Summer 2013 and the Relevant Abnormal Subtropical High Activities, Atmos. Oceanic Sci. Lett, 7, 286-290

l   Song, X., and X. D. Zeng, 2014: Investigation of uncertainties of establishment schemes in Dynamic GlobalVegetation Models, Adv. Atmos. Sci., 31(1), 85–94, doi: 10.1007/s00376-013-3031-1.

l   Su, T., F. Xue, and H. Zhang, 2014: Simulating the Intraseasonal Variation of the East Asian Summer Monsoon by IAP AGCM4.0, Adv. Atmos. Sci., 31(3), 570-580

l   Sui, Y., X. Lang, and D. Jiang, 2014: Time of emergence of climate signals over China under the RCP4.5 scenario, Climatic Change, 125, 265?276

l   TIAN Xiang-Jun, 2014: A Local Implementation of the POD-Based Ensemble 4DVar with R-Localization, Atmos. Oceanic Sci. Lett., 7(1), 11-16

l   Tian X., Z. Xie, Y. Liu, Z. Cai, Y. Fu, H. Zhang, and L. Feng, 2014: A joint data assimilation system (Tan-Tracker) to simultaneously estimate surface CO2 fluxes and 3-D atmospheric CO2 concentrations from observations, Atmos. Chem. Phys., 14, 1–13

l   Tian Xiangjun, Zhenghui Xie, Zhaonan Cai, Yi Liu ,Yu Fu, Huifang Zhang, 2014: The Chinese carbon cycle data-assimilation system (Tan-Tracker), Chin. Sci. Bull, 59(14):1541–1546

l   Victor Nnamdi Dike, Marilia Harumi Shimizu, Mohamadou Diallo, Zhaohui Lin, et., Modelling present and future African climate using CMIP5 scenarios in HadGEM2-ES, Int. J. Climatol, Published online in Wiley Online Library DOI: 10.1002/joc.4084

l   WANG AiWen, XIE ZhengHui, FENG XiaoBing, TIAN XiangJun and QIN PeiHua, 2014: A soil water and heat transfer model including changes in soil frost and thaw fronts, SCIENCE CHINAEarth Sciences, 57(6): 1325–1339

l   WANG Jiang-Nan, TIAN Xiang-Jun, and FU Yu, 2014: Model-Simulated Atmospheric Carbon Dioxide: Comparisons with Satellite Retrievals and Ground-Based Observations, Atmos. Oceanic Sci. Lett, 7(6), 481-486

l   Xie Zhenghui, Ning Zeng, Huijun Wang, Zheng Lin, Xiangjun Tian and Binghao Jia, 2014: Past, present and future of the carbon cycle, National Science Review, 1: 18–21,

l   XU Jing-Jing, and HU Fei, 2014: Analysis of Nonstationary Wind Fluctuations Using the Hilbert-Huang Transform, Atmospheric and Oceanic Science Letters, 7(5), 428-433

l   XU Jing-Jing, HU Fei, XIAO Zi-Niu, and CHENG Xue-Ling, 2014: Bias Correction in Wind Direction Forecasting Using the Circular-Circular Regression Method, Atmospheric and Oceanic Science Letters, 7(2), 87-91

l   Xue Feng, Sun Dan, and Zhou Tianjun, 2014: Interdecadal and interannnual variabilities of Antarctic oscillation simulated by CAM3, Atmospheric and Oceanic Sciences Letetrs, 7(6), 515-520

l   YAN Zheng-Bin, LIN Zhao-Hui, ZHANG He, 2014: The Relationship between the East Asian Subtropical Westerly Jet and Summer Precipitation over East Asia as Simulated by the IAP AGCM4.0, Atmos. Oceanic Sci. Lett., 7(6), 487-492,

l   Zeng, X. D., F. Li, X. Song, 2014: Development of the IAP Dynamic Global Vegetation Model, Adv. Atmos. Sci, 31(3), 505–514, doi: 10.1007/s00376-013-3155-3

l   Zheng, F, 2014:  ENSO variability simulated by a coupled general circulation Model: ECHAM5/MPI-OM, Atmos. Oceanic Sci. Lett., 7(5), 471–475

l   Zheng, F., X.-H. Fang, J.-Y. Yu, and J. Zhu, 2014: Asymmetry of the Bjerknespositive feedback between the two types of El Niño, Geophys. Res. Lett., 41, 7651–7657

l   Zheng, F., R.-H. Zhang, and J. Zhu, 2014: Effects of inter annual salinity variability on the barrier layer in the western-central equatorial Pacific: A diagnostic analysis from Argo, Adv. Atmos. Sci., 31(3), 532–542,

l   Zheng, F. and J., Zhu, 2014: Roles of initial ocean surface and subsurface states on successfully predicting 2006–2007 El Niño, Ocean Sci., 11, 1543-1560,

l   ZHU Jia-Wen, ZENG Xiao-Dong, 2014: Comparison of the Influence of Interannual Vegetation Variability between Offline and Online Simulations, Atmos. Oceanic Sci. Lett., 7(5), 453-457

l   ZHU Jia-Wen, ZENG Xiao-Dong, LI Fang, SONG Xiang, 2014: Preliminary Assessment of the Common Land Model Coupled with the IAP Dynamic Global Vegetation Model, Atmos. Oceanic Sci. Lett., 7(6), 505-509

l   Zong, H. F., 2014: A study on the physical processes of the formation of the ENSO cycle, Adv. Atmos. Sci, 31, 1395-1406

l   Zong, H., C. Bueh, and L. Ji, 2014: Wintertime extreme precipitation event over southern China and its typical circulation features, Chi. Sci. Bull., 59, 1036-1044

l   曹美春,林朝晖,张贺,2014:太阳常数变化对冬季全球辐射强迫及气候影响的数值模拟研究,气象科技进展,4(4): 38-43

l   陈红,2014CMIP5 气候模式对中国东部夏季降水年代际变化的模拟性能评估,气候与环境研究,196),773-786

l   董啸,薛峰,曾庆存,2014:北半球冬季阿留申低压冰岛低压相关关系的年代际变化及其模拟,气候与环境研究,19(5): 523-535

l   胡向军, 张镭, 郑飞,等,2014:基于激光雷达资料的气溶胶辐射效应研究,干旱气象,32(2), 248255

l   宋翔,曾晓东,2014:植被生态动力学模式中萌衍方案的研究进展,气候与环境研究,19 (1): 117–126

l   唐伟, 林朝晖, 杨传国,2014:基于陆面水文耦合模式CLHMS 的淮河流域水文过程的模拟评估及其不确定性分析,气候与环境研究,19 (4): 463?476

l   吴成来, 林朝晖,2014WRF/Chem模式中两种起沙参数化方案对东亚地区一次强沙尘暴过程模拟的影响,气候与环境研究,19 (4): 419?436,

l   张庆云, 郭恒, 2014: 夏季长江淮河流域异常降水事件环流差异及机理研究, 大气科学, 38(4): 656?669

l   周菲凡,张贺,2014:基于 CNOP 方法的台风目标观测中三种敏感区确定方案的比较研究,大气科学,38 (2): 261–272