Evaluating the Global Role of Woody Biomass as a Mitigation Strategy

24 Pages Posted: 14 May 2013

See all articles by Alice Favero

Alice Favero

Georgia Institute of Technology

Robert O. Mendelsohn

Yale University - School of Forestry & Environmental Studies; Yale University

Date Written: May 14, 2013

Abstract

As policy makers consider stringent targets for greenhouse gas emissions, integrated assessment models are increasingly relying on biomass energy as a critical energy source. However, it is not clear how much woody biomass to expect across time and across the planet. The integrated assessment models simply do not have enough detail about global forests and arable land to make careful forecasts of biomass supply over time. Integrating the complex dynamic demand for bioenergy from the IAMs with the complex dynamic structure of forests and forest supply is a daunting intertemporal task. This study examines the market for woody biomass by combining the integrated assessment model WITCH with the global dynamic forestry model GTM. Three carbon tax schedules are used to simulate different mitigation policies that lead to radiative forcing levels of 3.7, 3.2 and 2.5 W/m2 and a baseline scenario with no mitigation policies. WITCH determines the demand for woody biomass and GTM determines the supply of woody biomass over time. Moving from a mild to stringent mitigation policy would increase the demand of woody biomass from 8.2 to 15.2 billion m3/yr while the international price of wood would increase 4 to 9 times relative to the baseline scenario by 2100. This would shrink the demand for industrial wood products from 80% to 90% with the biomass program. Forest area will expand by 70-95% leading to increased storage of 685-1,279 GtCO2 in forest by 2100. Overall, the biomass program with the CCS technology plays a key contribution to overall GHG emission reductions in all scenarios contributing 20-27% of all mitigation for 2020-2100.

Keywords: Bio-energy, Carbon Sequestration, Forestry, Integrated Assessment Model

JEL Classification: Q23, Q42, Q54

Suggested Citation

Favero, Alice and Mendelsohn, Robert O., Evaluating the Global Role of Woody Biomass as a Mitigation Strategy (May 14, 2013). FEEM Working Paper No. 37.2013; CMCC Research Paper No. 0175. Available at SSRN: https://ssrn.com/abstract=2264707 or http://dx.doi.org/10.2139/ssrn.2264707

Alice Favero (Contact Author)

Georgia Institute of Technology ( email )

Atlanta, GA 30332
United States

Robert O. Mendelsohn

Yale University - School of Forestry & Environmental Studies ( email )

195 Prospect Street
New Haven, CT 06511
United States

Yale University ( email )

New Haven, CT 06520
United States
2034325128 (Phone)

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