K
Katrin J. Meissner
Researcher at University of New South Wales
Publications - 99
Citations - 4828
Katrin J. Meissner is an academic researcher from University of New South Wales. The author has contributed to research in topics: Sea ice & Climate model. The author has an hindex of 29, co-authored 92 publications receiving 4108 citations. Previous affiliations of Katrin J. Meissner include University of Victoria & Australian Research Council.
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Journal ArticleDOI
The UVic earth system climate model: Model description, climatology, and applications to past, present and future climates
Andrew J. Weaver,Michael Eby,Edward C. Wiebe,Cecilia M. Bitz,P. B. Duffy,Tracy Ewen,Augustus F. Fanning,Marika M. Holland,Amy MacFadyen,H. Damon Matthews,Katrin J. Meissner,Oleg A. Saenko,Andreas Schmittner,Huaxiao Wang,Masakazu Yoshimori +14 more
TL;DR: The UVic Earth System Climate Model as discussed by the authors consists of a three-dimensional ocean general circulation model coupled to a thermodynamic/dynamic sea ice model, an energy-moisture balance atmospheric model with dynamical feedbacks, and a thermomechanical land-ice model.
Impacts of 1.5°C Global Warming on Natural and Human Systems
Ove Hoegh-Guldberg,Daniela Jacob,Marco Bindi,Sally Brown,I. A. Camilloni,Arona Diedhiou,Riyanti Djalante,Kristie L. Ebi,Francois Engelbrecht,Joel Guiot,Yasuaki Hijioka,S. Mehrotra,Antony J. Payne,Sonia I. Seneviratne,Adelle Thomas,Rachel Warren,G. Zhou,Sharina Abdul Halim,Michelle Achlatis,Lisa V. Alexander,Myles R. Allen,Peter Berry,Christopher Boyer,Edward Byers,Lorenzo Brilli,Marcos Silveira Buckeridge,William W. L. Cheung,Marlies Craig,Neville Ellis,Jason P. Evans,Hubertus Fischer,Klaus Fraedrich,Sabine Fuss,Anjani Ganase,Jean-Pierre Gattuso,Peter Greve,Tania Guillén Bolaños,Naota Hanasaki,Tomoko Hasegawa,Katie Hayes,Annette L. Hirsch,Chris D. Jones,Thomas Jung,Markku Kanninen,Gerhard Krinner,David M. Lawrence,Timothy M. Lenton,Debora Ley,Diana Liverman,Natalie M. Mahowald,Kathleen L. McInnes,Katrin J. Meissner,Richard J. Millar,Katja Mintenbeck,Daniel M. Mitchell,Alan C. Mix,Dirk Notz,Leonard Nurse,Andrew Emmanuel Okem,Lennart Olsson,Michael Oppenheimer,Shlomit Paz,Juliane Petersen,Jan Petzold,Swantje Preuschmann,Mohammad Feisal Rahman,Joeri Rogelj,Hanna Scheuffele,Carl-Friedrich Schleussner,Daniel Scott,Roland Séférian,Jana Sillmann,Chandni Singh,Raphael Slade,Kimberly Stephenson,Tannecia S. Stephenson,Mouhamadou Bamba Sylla,Mark Tebboth,Petra Tschakert,Robert Vautard,Richard Wartenburger,Michael Wehner,Nora Marie Weyer,Felicia S. Whyte,Gary W. Yohe,Xuebin Zhang,Robert B. Zougmoré +86 more
TL;DR: In this article, the authors present a survey of women's sportswriters in South Africa and Ivory Coast, including: Marco Bindi (Italy), Sally Brown (UK), Ines Camilloni (Argentina), Arona Diedhiou (Ivory Coast/Senegal), Riyanti Djalante (Japan/Indonesia), Kristie L. Ebi (USA), Francois Engelbrecht (South Africa), Joel Guiot (France), Yasuaki Hijioka (Japan), Shagun Mehrotra (USA/India), Ant
Journal ArticleDOI
The role of land surface dynamics in glacial inception: a study with the UVic Earth System Model
TL;DR: In this article, the first results of the UVic Earth System Model coupled with a land surface scheme and a dynamic global vegetation model are presented in the study of a simulation of an ice age inception (forced with 116-ka-BP orbital parameters and an atmospheric CO2 concentration of 240-ppm) with a preindustrial run (present day orbital parameters, atmospheric [CO2] = 280ppm).
Journal ArticleDOI
Lifetime of Anthropogenic Climate Change: Millennial Time Scales of Potential CO2 and Surface Temperature Perturbations
Michael Eby,Kirsten Zickfeld,Alvaro Montenegro,David Archer,Katrin J. Meissner,Andrew J. Weaver +5 more
TL;DR: In this paper, the authors examined multimillennial simulations with a fully coupled climate-carbon cycle model to assess the persistence of the climatic impacts of anthropogenic CO2 emissions.
Journal ArticleDOI
Natural and anthropogenic climate change: incorporating historical land cover change, vegetation dynamics and the global carbon cycle
TL;DR: In this article, the authors explored the biogeophysical and biogeochemical effects of land cover change in the context of the UVic Earth System Climate Model, a global climate model of intermediate complexity.