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Effective radiative forcing from historical land use change
by
Andrews, Timothy
, Jones, Chris D.
, Booth, Ben B. B.
, Jones, Gareth S.
, Betts, Richard A.
in
Albedo
/ Albedo (solar)
/ Anthropogenic factors
/ Atmosphere
/ Atmospheric particulates
/ Carbon dioxide
/ climate
/ Climate change
/ Climate models
/ Climatology
/ Clouds
/ dust
/ Dust storms
/ Earth
/ Earth and Environmental Science
/ Earth Sciences
/ Environmental aspects
/ Eurasia
/ Geophysics/Geodesy
/ Global cooling
/ Historic temperatures
/ Land surface temperature
/ Land use
/ land use change
/ Land use effects
/ North America
/ Northern Hemisphere
/ Oceanography
/ Radiative forcing
/ Regional variations
/ Sea surface
/ Sea surface temperature
/ Seasonal variation
/ Snow
/ Soil
/ soil separates
/ spring
/ surface temperature
/ uncertainty
/ winter
2017
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Effective radiative forcing from historical land use change
by
Andrews, Timothy
, Jones, Chris D.
, Booth, Ben B. B.
, Jones, Gareth S.
, Betts, Richard A.
in
Albedo
/ Albedo (solar)
/ Anthropogenic factors
/ Atmosphere
/ Atmospheric particulates
/ Carbon dioxide
/ climate
/ Climate change
/ Climate models
/ Climatology
/ Clouds
/ dust
/ Dust storms
/ Earth
/ Earth and Environmental Science
/ Earth Sciences
/ Environmental aspects
/ Eurasia
/ Geophysics/Geodesy
/ Global cooling
/ Historic temperatures
/ Land surface temperature
/ Land use
/ land use change
/ Land use effects
/ North America
/ Northern Hemisphere
/ Oceanography
/ Radiative forcing
/ Regional variations
/ Sea surface
/ Sea surface temperature
/ Seasonal variation
/ Snow
/ Soil
/ soil separates
/ spring
/ surface temperature
/ uncertainty
/ winter
2017
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Do you wish to request the book?
Effective radiative forcing from historical land use change
by
Andrews, Timothy
, Jones, Chris D.
, Booth, Ben B. B.
, Jones, Gareth S.
, Betts, Richard A.
in
Albedo
/ Albedo (solar)
/ Anthropogenic factors
/ Atmosphere
/ Atmospheric particulates
/ Carbon dioxide
/ climate
/ Climate change
/ Climate models
/ Climatology
/ Clouds
/ dust
/ Dust storms
/ Earth
/ Earth and Environmental Science
/ Earth Sciences
/ Environmental aspects
/ Eurasia
/ Geophysics/Geodesy
/ Global cooling
/ Historic temperatures
/ Land surface temperature
/ Land use
/ land use change
/ Land use effects
/ North America
/ Northern Hemisphere
/ Oceanography
/ Radiative forcing
/ Regional variations
/ Sea surface
/ Sea surface temperature
/ Seasonal variation
/ Snow
/ Soil
/ soil separates
/ spring
/ surface temperature
/ uncertainty
/ winter
2017
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Effective radiative forcing from historical land use change
Journal Article
Effective radiative forcing from historical land use change
2017
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Overview
The effective radiative forcing (ERF) from the biogeophysical effects of historical land use change is quantified using the atmospheric component of the Met Office Hadley Centre Earth System model HadGEM2-ES. The global ERF at 2005 relative to 1860 (1700) is −0.4 (−0.5) Wm
−2
, making it the fourth most important anthropogenic driver of climate change over the historical period (1860–2005) in this model and larger than most other published values. The land use ERF is found to be dominated by increases in the land surface albedo, particularly in North America and Eurasia, and occurs most strongly in the northern hemisphere winter and spring when the effect of unmasking underlying snow, as well as increasing the amount of snow, is at its largest. Increased bare soil fraction enhances the seasonal cycle of atmospheric dust and further enhances the ERF. Clouds are shown to substantially mask the radiative effect of changes in the underlying surface albedo. Coupled atmosphere–ocean simulations forced only with time-varying historical land use change shows substantial global cooling (d
T
= −0.35 K by 2005) and the climate resistance (ERF/d
T
= 1.2 Wm
−2
K
−1
) is consistent with the response of the model to increases in CO
2
alone. The regional variation in land surface temperature change, in both fixed-SST and coupled atmosphere–ocean simulations, is found to be well correlated with the spatial pattern of the forced change in surface albedo. The forcing-response concept is found to work well for historical land use forcing—at least in our model and when the forcing is quantified by ERF. Our results suggest that land-use changes over the past century may represent a more important driver of historical climate change then previously recognised and an underappreciated source of uncertainty in global forcings and temperature trends over the historical period.
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