T
Thomas L. Frölicher
Researcher at Oeschger Centre for Climate Change Research
Publications - 109
Citations - 9245
Thomas L. Frölicher is an academic researcher from Oeschger Centre for Climate Change Research. The author has contributed to research in topics: Climate change & Global warming. The author has an hindex of 38, co-authored 93 publications receiving 6225 citations. Previous affiliations of Thomas L. Frölicher include Princeton University & University of Bern.
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Marine heatwaves under global warming
TL;DR: Satellite observations and Earth system model simulations reveal that marine heatwaves have increased in recent decades and will increase further in terms of frequency, intensity, duration and spatial extent, suggesting that MHWs will become very frequent and extreme under global warming.
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Carbon dioxide and climate impulse response functions for the computation of greenhouse gas metrics:a multi-model analysis
Fortunat Joos,Fortunat Joos,Raphael Roth,Raphael Roth,Jan S. Fuglestvedt,Glen P. Peters,Ian G. Enting,W. von Bloh,Victor Brovkin,Eleanor J. Burke,Michael Eby,Neil R. Edwards,Tobias Friedrich,Thomas L. Frölicher,Thomas L. Frölicher,Paul R. Halloran,Philip B. Holden,C. D. Jones,Thomas Kleinen,Fred T. Mackenzie,Katsumi Matsumoto,Malte Meinshausen,Malte Meinshausen,Gian-Kasper Plattner,Andy Reisinger,Joachim Segschneider,Gary Shaffer,Gary Shaffer,Marco Steinacher,Marco Steinacher,K. M. Strassmann,K. M. Strassmann,Katsumasa Tanaka,Axel Timmermann,Andrew J. Weaver +34 more
TL;DR: In this paper, a carbon cycle-climate model intercomparison project is presented to quantify responses to emission pulses of different magnitudes injected under different conditions, and the best estimate for the Absolute Global Warming Potential, given by the time-integrated response in CO2 at year 100 multiplied by its radiative efficiency, is 92.5 × 10−15 yr W m−2 per kg-CO2.
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Projected 21st century decrease in marine productivity: a multi-model analysis
Marco Steinacher,Marco Steinacher,Fortunat Joos,Fortunat Joos,Thomas L. Frölicher,Thomas L. Frölicher,Laurent Bopp,Patricia Cadule,Valentina Cocco,Valentina Cocco,Scott C. Doney,Marion Gehlen,Keith Lindsay,J. K. Moore,Birgit Schneider,Joachim Segschneider +15 more
TL;DR: In this paper, changes in marine net primary productivity (PP) and export of particulate organic carbon (EP) are projected over the 21st century with four global coupled carbon cycle-climate models.
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Shrinking of fishes exacerbates impacts of global ocean changes on marine ecosystems
William W. L. Cheung,Jorge L. Sarmiento,John P. Dunne,Thomas L. Frölicher,Vicky W. Y. Lam,M.L. Deng Palomares,Reg Watson,Daniel Pauly +7 more
TL;DR: A modelling study into the integrated effects of these various changes on fish body size suggests that averaged maximum body weight could fall by 14–24% globally by 2050.
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Imminent ocean acidification in the Arctic projected with the NCAR global coupled carbon cycle-climate model
Marco Steinacher,Fortunat Joos,Fortunat Joos,Thomas L. Frölicher,Gian-Kasper Plattner,Gian-Kasper Plattner,Scott C. Doney +6 more
TL;DR: In this paper, ocean acidification from the uptake of anthropogenic carbon is simulated for the industrial period and IPCC SRES emission scenarios A2 and B1 with a global coupled carbon cycle-climate model.