A
Aiko Voigt
Researcher at Karlsruhe Institute of Technology
Publications - 93
Citations - 4138
Aiko Voigt is an academic researcher from Karlsruhe Institute of Technology. The author has contributed to research in topics: Geology & Climate change. The author has an hindex of 27, co-authored 66 publications receiving 3019 citations. Previous affiliations of Aiko Voigt include University of Vienna & Max Planck Society.
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Journal ArticleDOI
Developments in the MPI-M Earth System Model version 1.2 (MPI-ESM1.2) and Its Response to Increasing CO2.
Thorsten Mauritsen,Thorsten Mauritsen,Jürgen Bader,Tobias Becker,Jörg Behrens,Matthias Bittner,Renate Brokopf,Victor Brovkin,Martin Claussen,Traute Crueger,Monika Esch,Irina Fast,Stephanie Fiedler,Dagmar Fläschner,Veronika Gayler,Marco Giorgetta,Daniel S. Goll,Helmuth Haak,Stefan Hagemann,Christopher Hedemann,Cathy Hohenegger,Tatiana Ilyina,Thomas Jahns,Diego Jiménez-de-la-Cuesta,Johann H. Jungclaus,Thomas Kleinen,Silvia Kloster,Daniela Kracher,Stefan Kinne,Deike Kleberg,Gitta Lasslop,Luis Kornblueh,Jochem Marotzke,Daniela Matei,Katharina Meraner,Uwe Mikolajewicz,Kameswarrao Modali,Benjamin Möbis,Benjamin Möbis,Wolfgang A. Müller,Julia E. M. S. Nabel,Christine Nam,Christine Nam,Dirk Notz,Sarah-Sylvia Nyawira,Sarah-Sylvia Nyawira,Hanna Paulsen,Karsten Peters,Robert Pincus,Holger Pohlmann,Julia Pongratz,Julia Pongratz,Max Popp,Max Popp,Thomas Raddatz,Sebastian Rast,Rene Redler,Christian Reick,Tim Rohrschneider,Vera Schemann,Vera Schemann,Vera Schemann,Hauke Schmidt,Reiner Schnur,Uwe Schulzweida,Katharina Six,Lukas Stein,Irene Stemmler,Bjorn Stevens,Jin-Song von Storch,Fangxing Tian,Fangxing Tian,Aiko Voigt,Philipp de Vrese,Karl-Hermann Wieners,Stiig Wilkenskjeld,Alexander J. Winkler,Erich Roeckner +77 more
TL;DR: The model has a climate sensitivity to a doubling of CO2 over preindustrial conditions of 2.77 K, maintaining the previously identified highly nonlinear global mean response to increasing CO2 forcing, which nonetheless can be represented by a simple two‐layer model.
Journal ArticleDOI
Snowball Earth climate dynamics and Cryogenian geology-geobiology
Paul Hoffman,Paul Hoffman,Dorian S. Abbot,Yosef Ashkenazy,Douglas I. Benn,Jochen J. Brocks,Phoebe Cohen,Grant M. Cox,Grant M. Cox,Jessica R. Creveling,Yannick Donnadieu,Yannick Donnadieu,Douglas H. Erwin,Douglas H. Erwin,Ian J. Fairchild,David Ferreira,Jason C. Goodman,Galen P. Halverson,Malte F. Jansen,Guillaume Le Hir,Gordon D. Love,Francis A. Macdonald,Adam C. Maloof,Camille A. Partin,Gilles Ramstein,Brian E. J. Rose,Catherine V. Rose,Peter M. Sadler,Eli Tziperman,Aiko Voigt,Aiko Voigt,Stephen G. Warren +31 more
TL;DR: Modeling shows that the small thermal inertia of a globally frozen surface reverses the annual mean tropical atmospheric circulation, producing an equatorial desert and net snow and frost accumulation elsewhere, and that the evolutionary legacy of Snowball Earth is perceptible in fossils and living organisms.
Journal ArticleDOI
Storm track processes and the opposing influences of climate change
Tiffany A. Shaw,Mark P. Baldwin,Elizabeth A. Barnes,Rodrigo Caballero,Chaim I. Garfinkel,Yen-Ting Hwang,Camille Li,Camille Li,Paul A. O'Gorman,Gwendal Rivière,Isla R. Simpson,Aiko Voigt +11 more
TL;DR: In this article, a synthesis of the influences of a changing climate on storm tracks reveals competing effects on meridional temperature gradients, which make projections difficult, making it difficult to make predictions.
Journal ArticleDOI
Climate of the Neoproterozoic
TL;DR: In this paper, a suite of general circulation model simulations designed to facilitate intercomparison between different models is presented, with the most comprehensive model confirmed the possibility of initiating a Snowball event with a plausible reduction of CO2.
Journal ArticleDOI
Thermodynamic control of anvil cloud amount
Sandrine Bony,Bjorn Stevens,David Coppin,Tobias Becker,Kevin A. Reed,Aiko Voigt,Brian Medeiros +6 more
TL;DR: The anvil cloud amount is expected to shrink as the climate warms or when convection becomes more clustered, due to a mechanism rooted in basic energetic and thermodynamic properties of the atmosphere, which adds a new piece to understanding how clouds respond to climate warming.