Show Citations Show BibTex

all: amip-4xCO2

Year

Author

Title

2022
Koshiro, Tsuyoshi, Kawai, Hideaki, et al.
Estimated cloud-top entrainment index explains positive low-cloud-cover feedback
(Citation) (More Info) (Abstract) (BibTex)
2022
Qin, Yi, Zelinka, Mark D., et al.
On the Correspondence Between Atmosphere‐Only and Coupled Simulations for Radiative Feedbacks and Forcing From CO 2
(Citation) (More Info) (Abstract) (BibTex)
2020
Grise, Kevin M., Davis, Sean M.
Hadley cell expansion in CMIP6 models
(Citation) (More Info) (Abstract) (BibTex)
2016
DeAngelis, Anthony M., Qu, Xin, et al.
Importance of vegetation processes for model spread in the fast precipitation response to CO2 forcing
(Citation) (More Info) (Abstract) (BibTex)
2015
Qu X., Hall A., et al.
The strength of the tropical inversion and its response to climate change in 18 CMIP5 models
(Citation) (More Info) (Abstract) (BibTex)
2015
Chung E., Soden B. J.
An assessment of methods for computing radiative forcing in climate models
(Citation) (More Info) (Abstract) (BibTex)
2015
Kamae Y., Ogura T., et al.
Robust cloud feedback over tropical land in a warming climate
(Citation) (More Info) (Abstract) (BibTex)
2015
Kamae Y., Ogura T., et al.
Robust cloud feedback over tropical land in a warming climate
(Citation) (More Info) (Abstract) (BibTex)
2015
Kent C., Chadwick R., et al.
Understanding uncertainties in future projections of seasonal tropical precipitation
(Citation) (More Info) (Abstract) (BibTex)
2014
Medeiros B., Stevens B., et al.
Using aquaplanets to understand the robust responses of comprehensive climate models to forcing
(Citation) (More Info) (Abstract) (BibTex)
2014
Chadwick R. S., Good P., et al.
Surface warming patterns drive tropical rainfall pattern responses to CO2 forcing on all timescales
(Citation) (More Info) (Abstract) (BibTex)
2014
Kamae Y., Watanabe M., et al.
Summertime land-sea thermal contrast and atmospheric circulation over East Asia in a warming climate-Part II: Importance of CO2-induced continental warming
(Citation) (More Info) (Abstract) (BibTex)
2014
Sherwood S. C., Bony S., et al.
Spread in model climate sensitivity traced to atmospheric convective mixing
(Citation) (More Info) (Abstract) (BibTex)
2014
Thorpe L., Andrews T.
The physical drivers of historical and 21st century global precipitation changes
(Citation) (More Info) (Abstract) (BibTex)
2014
Grise K. M., Polvani L. M.
The response of midlatitude jets to increased CO2: Distinguishing the roles of sea surface temperature and direct radiative forcing
(Citation) (More Info) (Abstract) (BibTex)
2013
Bony S., Bellon G., et al.
Robust direct effect of carbon dioxide on tropical circulation and regional precipitation
(Citation) (More Info) (Abstract) (BibTex)
2013
Xie S., Lu B., et al.
Similar spatial patterns of climate responses to aerosol and greenhouse gas changes
(Citation) (More Info) (Abstract) (BibTex)
2013
Kamae Y., Watanabe M.
Tropospheric adjustment to increasing CO2: its timescale and the role of land-sea contrast
(Citation) (More Info) (Abstract) (BibTex)
2013
Block K., Mauritsen T.
Forcing and Feedback in the MPI-ESM-LR coupled model under abruptly quadrupled CO2
(Citation) (More Info) (Abstract) (BibTex)
2012
Kamae Y., Watanabe M.
On the robustness of tropospheric adjustment in CMIP5 models
(Citation) (More Info) (Abstract) (BibTex)
2012
Tomassini L., Geoffroy O., et al.
The respective roles of surface temperature driven feedbacks and tropospheric adjustment to CO2 in CMIP5 transient climate simulations
(Citation) (More Info) (Abstract) (BibTex)
2012
Ma J., Xie S.
Regional Patterns of Sea Surface Temperature Change: A Source of Uncertainty in Future Projections of Precipitation and Atmospheric Circulation
(Citation) (More Info) (Abstract) (BibTex)