Indirect Emissions from Biofuels: How Important?

Joint Program Reprint • Journal Article
Indirect Emissions from Biofuels: How Important?
Melillo, J.M., J.M. Reilly, D.W. Kicklighter, A.C. Gurgel, T.W. Cronin, S. Paltsev, B.S. Felzer, X. Wang, A.P. Sokolov and C.A. Schlosser (2009)
Science, 326(5958): 1397-1399

Reprint 2009-20 [Read Full Article]

Abstract/Summary:

A global biofuels program will lead to intense pressures on land supply and can increase greenhouse gas emissions from land-use changes. Using linked economic and terrestrial biogeochemistry models, we examined direct and indirect effects of possible land-use changes from an expanded global cellulosic bioenergy program on greenhouse gas emissions over the 21st century. Our model predicts that indirect land use will be responsible for substantially more carbon loss (up to twice as much) than direct land use; however, because of predicted increases in fertilizer use, nitrous oxide emissions will be more important than carbon losses themselves in terms of warming potential. A global greenhouse gas emissions policy that protects forests and encourages best practices for nitrogen fertilizer use can dramatically reduce emissions associated with biofuels production.

© 2009 American Association for the Advancement of Science

Citation:

Melillo, J.M., J.M. Reilly, D.W. Kicklighter, A.C. Gurgel, T.W. Cronin, S. Paltsev, B.S. Felzer, X. Wang, A.P. Sokolov and C.A. Schlosser (2009): Indirect Emissions from Biofuels: How Important?. Science, 326(5958): 1397-1399 (http://dx.doi.org/10.1126/science.1180251)

Supersedes:

Report 168. Unintended Environmental Consequences of a Global Biofuels Program (Joint Program Report Series, 2009)
  • Joint Program Reprint
  • Journal Article
Indirect Emissions from Biofuels: How Important?

Melillo, J.M., J.M. Reilly, D.W. Kicklighter, A.C. Gurgel, T.W. Cronin, S. Paltsev, B.S. Felzer, X. Wang, A.P. Sokolov and C.A. Schlosser

Science
2009-20
326(5958): 1397-1399

Abstract/Summary: 

A global biofuels program will lead to intense pressures on land supply and can increase greenhouse gas emissions from land-use changes. Using linked economic and terrestrial biogeochemistry models, we examined direct and indirect effects of possible land-use changes from an expanded global cellulosic bioenergy program on greenhouse gas emissions over the 21st century. Our model predicts that indirect land use will be responsible for substantially more carbon loss (up to twice as much) than direct land use; however, because of predicted increases in fertilizer use, nitrous oxide emissions will be more important than carbon losses themselves in terms of warming potential. A global greenhouse gas emissions policy that protects forests and encourages best practices for nitrogen fertilizer use can dramatically reduce emissions associated with biofuels production.

© 2009 American Association for the Advancement of Science

Full article on publisher's website

Supersedes: 

Unintended Environmental Consequences of a Global Biofuels Program