近年来中等复杂程度地球系统模式的研究进展

Intermittent ice sheet discharge events in northeastern North America during the last glacial period[J] . Brian D. Papa,Lawrence A. Mysak,Zhaomin Wang.Climate Dynamics . 2006 (2)

EMIC Intercomparison Project (EMIP–CO 2 ): comparative analysis of EMIC simulations of climate, and of equilibrium and transient responses to atmospheric CO 2 doubling[J] . V. Petoukhov,M. Claussen,A. Berger,M. Crucifix,M. Eby,A. V. Eliseev,T. Fichefet,A. Ganopolski,H. Goosse,I. Kamenkovich,I. I. Mokhov,M. Montoya,L. A. Mysak,A. Sokolov,P. Stone,Z. Wang,A. J. Weaver.Climate Dynamics . 2005 (4)

The greening of the McGill Paleoclimate Model. Part II: Simulation of Holocene millennial-scale natural climate changes[J] . Yi Wang,Lawrence A. Mysak,Zhaomin Wang,Victor Brovkin.Climate Dynamics . 2005 (5)

Bistability of the thermohaline circulation identified through comprehensive 2-parameter sweeps of an efficient climate model[J] . R. Marsh,A. Yool,T. M. Lenton,M. Y. Gulamali,N. R. Edwards,J. G. Shepherd,M. Krznaric,S. Newhouse,S. J. Cox.Climate Dynamics . 2005 (7)

The role of land surface dynamics in glacial inception: a study with the UVic Earth System Model[J] . K. J. Meissner,A. J. Weaver,H. D. Matthews,P. M. Cox.Climate Dynamics . 2003 (7)

Glacial termination: sensitivity to orbital and CO2 forcing in a coupled climate system model[J] . M. Yoshimori,A. J. Weaver,S. J. Marshall,G. K. C. Clarke.Climate Dynamics . 2001 (8)

Future Climatic Changes: Are We Entering an Exceptionally Long Interglacial?[J] . M. F. Loutre,A. Berger.Climatic Change . 2000 (1)

CLIMBER-2: a climate system model of intermediate complexity. Part I: model description and performance for present climate[J] . V. Petoukhov,A. Ganopolski,V. Brovkin,M. Claussen,A. Eliseev,C. Kubatzki,S. Rahmstorf.Climate Dynamics . 2000 (1)

Intermittent ice sheet discharge events in northeastern North America during the last glacial period[J] . Brian D. Papa,Lawrence A. Mysak,Zhaomin Wang.Climate Dynamics . 2006 (2)

EMIC Intercomparison Project (EMIP–CO 2 ): comparative analysis of EMIC simulations of climate, and of equilibrium and transient responses to atmospheric CO 2 doubling[J] . V. Petoukhov,M. Claussen,A. Berger,M. Crucifix,M. Eby,A. V. Eliseev,T. Fichefet,A. Ganopolski,H. Goosse,I. Kamenkovich,I. I. Mokhov,M. Montoya,L. A. Mysak,A. Sokolov,P. Stone,Z. Wang,A. J. Weaver.Climate Dynamics . 2005 (4)

The greening of the McGill Paleoclimate Model. Part II: Simulation of Holocene millennial-scale natural climate changes[J] . Yi Wang,Lawrence A. Mysak,Zhaomin Wang,Victor Brovkin.Climate Dynamics . 2005 (5)

Bistability of the thermohaline circulation identified through comprehensive 2-parameter sweeps of an efficient climate model[J] . R. Marsh,A. Yool,T. M. Lenton,M. Y. Gulamali,N. R. Edwards,J. G. Shepherd,M. Krznaric,S. Newhouse,S. J. Cox.Climate Dynamics . 2005 (7)

The role of land surface dynamics in glacial inception: a study with the UVic Earth System Model[J] . K. J. Meissner,A. J. Weaver,H. D. Matthews,P. M. Cox.Climate Dynamics . 2003 (7)

Glacial termination: sensitivity to orbital and CO2 forcing in a coupled climate system model[J] . M. Yoshimori,A. J. Weaver,S. J. Marshall,G. K. C. Clarke.Climate Dynamics . 2001 (8)

Future Climatic Changes: Are We Entering an Exceptionally Long Interglacial?[J] . M. F. Loutre,A. Berger.Climatic Change . 2000 (1)

CLIMBER-2: a climate system model of intermediate complexity. Part I: model description and performance for present climate[J] . V. Petoukhov,A. Ganopolski,V. Brovkin,M. Claussen,A. Eliseev,C. Kubatzki,S. Rahmstorf.Climate Dynamics . 2000 (1)