Simplified dynamic models of grass field ecosystem Zeng QingcunZeng XiaodongLu Peisheng OriginalPaper Pages: 385 - 390
Study of effects of beta term and nonlinear advection on the structure of tropical cyclones Luo Zhexian OriginalPaper Pages: 391 - 398
Numerical modellings of properties of the summer quasi-stationary circulation systems and their monthly variations Qian YongfuQian YunWang Qianqian OriginalPaper Pages: 399 - 407
The theoretical model of atmospheric turbulence spectrum in surface layer Liu ShidaLiu ShikuoLiang Fuming OriginalPaper Pages: 408 - 414
Statistical regression analysis of response of northern mid and upper tropospheric circulation to winter Eurasian snow cover effects Xu Jianjun OriginalPaper Pages: 415 - 420
Temperature and water vapor weighting functions from radiative transfer equation with surface emissivity and solar reflectivity Li Jun OriginalPaper Pages: 421 - 426
Seasonal variation of stationary and low— frequency Rossby wave rays Lu KeliZhu Yongchun OriginalPaper Pages: 427 - 435
A data—adaptive filter of the tahiti—darwin southern oscillation index and the associate scheme of filling data gaps Zhang Banglin OriginalPaper Pages: 447 - 458
The fractal dimension distribution of the short-term climate system in China and it's connection with the monsoon climate Zhang FuqingLin ZhenshanJiang Quanrong OriginalPaper Pages: 459 - 462
Seasonal variation features of western north pacific tropical cyclone tracks with their predictability Peng YongqingYan Shaojin OriginalPaper Pages: 463 - 469
Microwave simulations of precipitation distribution with two radiative transfer models Liu JinliLin Longfu OriginalPaper Pages: 470 - 478
Power and cross— spectra for the turbulent atmospheric motion and transports in the domain of wave number frequency space: Theoretical aspects M. Y. Totagi OriginalPaper Pages: 491 - 498
A modeling study of climate change and its implication for agriculture in China part II: The implication of climate change for agriculture in China Dai XiaosuDing Yihui OriginalPaper Pages: 499 - 506