G. Stephen Pitts scite author profile

We analyze a set of simulations to assess the impact of climate change on global forests where MC2 dynamic global vegetation model (DGVM) was run with climate simulations from the MIT Integrated Global System Model-Community Atmosphere Model (IGSM-CAM) modeling framework. The core study relies on an ensemble of climate simulations under two emissions scenarios: a business-as-usual reference scenario (REF) analogous to the IPCC RCP8.5 scenario, and a greenhouse gas mitigation scenario, called POL3.7, which is in between the IPCC RCP2.6 and RCP4.5 scenarios, and is consistent with a 2°C global mean warming from pre-industrial by 2100. Evaluating the outcomes of both climate change scenarios in the MC2 model shows that the carbon stocks of most forests around the world increased, with the greatest gains in tropical forest regions. Temperate forest regions are projected to see strong increases in productivity offset by carbon loss to fire. The greatest cost of mitigation in terms of effects on forest carbon stocks are projected to be borne by regions in the southern hemisphere. We compare three sources of uncertainty in climate change impacts on the world's forests: emissions scenarios, the global system climate response (i.e. climate sensitivity), and natural variability. The role of natural variability on changes in forest carbon and net primary productivity (NPP) is small, but it is substantial for impacts of wildfire. Forest productivity under the REF scenario benefits substantially from the CO 2 fertilization effect and that higher warming alone does not necessarily increase global forest carbon levels. Our analysis underlines why using an ensemble of climate simulations is necessary to derive robust estimates of the benefits of greenhouse gas mitigation. It also demonstrates that constraining estimates of climate sensitivity and advancing our understanding of CO 2 fertilization effects may considerably reduce the range of projections.

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Digital geologic map of Arizona: A digital database derived from the 1983 printing of the Wilson, Moore, and Cooper 1:500,000-scale map

Hirschberg¹,

Pitts²

2000

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Simulating vegetation response to climate change in the Blue Mountains with MC2 dynamic global vegetation model

et al. 2018

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Spatial digital database of the geologic map of Catalina Core Complex and San Pedro Trough, Pima, Pinal, Gila, Graham, and Cochise Counties, Arizona

Dickinson¹,

Hirschberg²,

Pitts³

et al. 2002

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Digital data for construction material sources reported by the Arizona Department of Transportation in 1977 for Maricopa County, Arizona

Hirschberg¹,

Pitts²,

Melcher³

et al. 2001

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Data are important products of the U.S. Government. Aggregate is an important national resource. Data describing aggregate resources needs to be released, distributed and safeguarded to insure its future availability to state and federal land managers, private entrepreneurs and researchers to guide in land exchange decisions, and resource exploration and management, as well as to provide data for material sciences research. In addition to this release, the data given here are also available from the Arizona Department of Mines and Mineral Resources,

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G. Stephen Pitts

Assessing climate change impacts, benefits of mitigation, and uncertainties on major global forest regions under multiple socioeconomic and emissions scenarios

Digital geologic map of Arizona: A digital database derived from the 1983 printing of the Wilson, Moore, and Cooper 1:500,000-scale map

Simulating vegetation response to climate change in the Blue Mountains with MC2 dynamic global vegetation model

Spatial digital database of the geologic map of Catalina Core Complex and San Pedro Trough, Pima, Pinal, Gila, Graham, and Cochise Counties, Arizona

Digital data for construction material sources reported by the Arizona Department of Transportation in 1977 for Maricopa County, Arizona

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