The Ecosystem Impacts of Severe Warming | Zendy

Robert Mendelsohn | Zendy; I. Colin Prentice | Zendy; Oswald J. Schmitz | Zendy; Benjamin D. Stocker | Zendy; Robert W. Buchkowski | Zendy; Benjamin Dawson | Zendy

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The Ecosystem Impacts of Severe Warming

Author(s) -

Robert Mendelsohn,

I. Colin Prentice,

Oswald J. Schmitz,

Benjamin D. Stocker,

Robert W. Buchkowski,

Benjamin Dawson

Publication year - 2016

Publication title -

american economic review

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 16.936

H-Index - 297

eISSN - 1944-7981

pISSN - 0002-8282

DOI - 10.1257/aer.p20161104

Subject(s) - ecosystem , woodland , climate change , global warming , productivity , nonmarket forces , biomass (ecology) , primary production , taiga , temperate climate , temperate rainforest , environmental science , damages , forest ecology , terrestrial ecosystem , ecology , vegetation (pathology) , ecosystem services , natural resource economics , economics , biology , market economy , medicine , pathology , political science , factor market , law , macroeconomics

This paper uses a quantitative dynamic ecosystem vegetation model to explore the potential impact of warming up to 9-12 degrees C on global ecosystems. The paper does not find evidence of a global collapse in terrestrial ecosystems but there is evidence of substantial changes. Temperate and tropical forests expand and replace boreal forests and forests shift to woodlands and parkland at high temperatures. Net primary productivity and standing forest biomass per hectare rise. These changes will affect dependent animal species. Further research is needed to measure the resulting benefits and damages to market and nonmarket services.

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