The local and global effects of Amazon deforestation

Werth, David

doi:10.1029/2001jd000717

Cited by 398 publications

(285 citation statements)

References 17 publications

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“…Temperate deforestation produces local cooling due to dominant albedo change and remote warming due to carbon-cycle effect; these effects cancel each other on a global-mean basis. Boreal deforestation, in addition to causing strong local cooling, produces cooling everywhere, suggesting remote cooling effects through circulation (28)(29)(30)(31).…”

Section: Resultsmentioning

confidence: 99%

Combined climate and carbon-cycle effects of large-scale deforestation

Bala

Caldeira

Wickett

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

838

725

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The prevention of deforestation and promotion of afforestation have often been cited as strategies to slow global warming. Deforestation releases CO 2 to the atmosphere, which exerts a warming influence on Earth's climate. However, biophysical effects of deforestation, which include changes in land surface albedo, evapotranspiration, and cloud cover also affect climate. Here we present results from several large-scale deforestation experiments performed with a three-dimensional coupled global carbon-cycle and climate model. These simulations were performed by using a fully three-dimensional model representing physical and biogeochemical interactions among land, atmosphere, and ocean. We find that global-scale deforestation has a net cooling influence on Earth's climate, because the warming carbon-cycle effects of deforestation are overwhelmed by the net cooling associated with changes in albedo and evapotranspiration. Latitude-specific deforestation experiments indicate that afforestation projects in the tropics would be clearly beneficial in mitigating global-scale warming, but would be counterproductive if implemented at high latitudes and would offer only marginal benefits in temperate regions. Although these results question the efficacy of mid- and high-latitude afforestation projects for climate mitigation, forests remain environmentally valuable resources for many reasons unrelated to climate.

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Section: Resultsmentioning

confidence: 99%

Combined climate and carbon-cycle effects of large-scale deforestation

Bala

Caldeira

Wickett

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

838

725

View full text Add to dashboard Cite

show abstract

“…Such a coupling presents an opportunity for a positive feedback under climate change: should future rainfall in the Amazon decrease and forests downregulate metabolism via stomatal closure, rainfall reductions basin-wide could be exacerbated and further threaten forest integrity (Betts et al, 2004). Loss of a significant area of Amazon forest due to climate change, deforestation, or a combination of both can have further impacts globally due to hydrometerological teleconnections (Werth and Avissar, 2002) or carbon cycle feedbacks (Cox et al, 2000). However, much uncertainty remains surrounding modeling forest response to climate anomalies, due to both to model process differences/parameters or due to uncertainty in climate projections (Huntingford et al, 2008;Sitch et al, 2008;Galbraith et al, 2010;Poulter et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Mechanisms of water supply and vegetation demand govern the seasonality and magnitude of evapotranspiration in Amazonia and Cerrado

Christoffersen

Restrepo‐Coupe

Arain

et al. 2014

Agricultural and Forest Meteorology

122

119

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“…The increase in albedo leads to a reduction of radiation absorbed by surface and thus to a reduction of energy available for sensible and latent heat fluxes, while the decrease in leaf area index leads to a decrease of surface evapotranspiration. These changes in surface fluxes may exert a forcing on climate not only locally but also remotely through teleconnection patterns (Werth and Avissar, 2002;Avissar and Werth, 2005;Hasler et al ., 2009) and, for example, the equatorial and sub-equatorial Africa regions have been identified as being among the regions of the globe where the effects of land surface conditions on regional climate and dynamics are most pronounced (Koster et al ., 2004).…”

Section: Introductionmentioning

confidence: 99%

Impact of Congo Basin deforestation on the African monsoon

Nogherotto

Coppola

Giorgi

et al. 2013

Atmospheric Science Letters

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The interactions between land cover change in Central Africa and the Africa monsoon is investigated using a regional climate model simulation (2000-2007) under a Congo Basin deforestation scenario. Decreased evaporation over the deforested area locally produces a heat low and reduced precipitation. In JJA, this low strengthens the West Africa monsoon causing increased precipitation over the Sahel and decreased precipitation over the Guinea coast. In DJF, it strengthens the south-equatorial African monsoon causing an increase of precipitation over south-equatorial Africa. Therefore our simulations indicate that the biosphere-state in Central Africa may play an important role locally but also remotely via interactions with regional monsoon dynamics.

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The local and global effects of Amazon deforestation

Cited by 398 publications

References 17 publications

Combined climate and carbon-cycle effects of large-scale deforestation

Combined climate and carbon-cycle effects of large-scale deforestation

Mechanisms of water supply and vegetation demand govern the seasonality and magnitude of evapotranspiration in Amazonia and Cerrado

Impact of Congo Basin deforestation on the African monsoon

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