Effects of ozone on net primary production and carbon sequestration in the conterminous United States using a biogeochemistry model

Joint Program Reprint • Journal Article
Effects of ozone on net primary production and carbon sequestration in the conterminous United States using a biogeochemistry model
Felzer, B.S., D.W. Kicklighter, J.M. Melillo, C. Wang, Q. Zhuang and R.G. Prinn (2004)
Tellus B, 56(3): 230-248

Reprint 2004-5 [Read Full Article]

Abstract/Summary:

The effects of air pollution on vegetation may provide an important control on the carbon cycle that has not yet been widely considered. Prolonged exposure to high levels of ozone, in particular, has been observed to inhibit photosynthesis by direct cellular damage within the leaves and through changes in stomatal conductance. We have incorporated empirical equations derived for trees (hardwoods and pines) and crops into the Terrestrial Ecosystem Model to explore the effects of ozone on net primary production (NPP) and carbon sequestration across the conterminous United States. Our results show up a 2.6-6.8% mean reduction for the U.S. in annual NPP in response to modeled historical ozone levels during the late 1980s to early 1990s. The largest decreases (over 13% in some locations) occur in the Midwest agricultural lands, during the mid-summer when ozone levels are highest. Carbon sequestration since the 1950s has been reduced by 18 to 38 Tg C/yr with the presence of ozone. Thus the effects of ozone on NPP and carbon sequestration should be factored into future calculations of the United States' carbon budget.

© 2004 Blackwell Munksgaard

Citation:

Felzer, B.S., D.W. Kicklighter, J.M. Melillo, C. Wang, Q. Zhuang and R.G. Prinn (2004): Effects of ozone on net primary production and carbon sequestration in the conterminous United States using a biogeochemistry model. Tellus B, 56(3): 230-248 (http://dx.doi.org/10.1111/j.1600-0889.2004.00097.x)
  • Joint Program Reprint
  • Journal Article
Effects of ozone on net primary production and carbon sequestration in the conterminous United States using a biogeochemistry model

Felzer, B.S., D.W. Kicklighter, J.M. Melillo, C. Wang, Q. Zhuang and R.G. Prinn

2004-5
56(3): 230-248

Abstract/Summary: 

The effects of air pollution on vegetation may provide an important control on the carbon cycle that has not yet been widely considered. Prolonged exposure to high levels of ozone, in particular, has been observed to inhibit photosynthesis by direct cellular damage within the leaves and through changes in stomatal conductance. We have incorporated empirical equations derived for trees (hardwoods and pines) and crops into the Terrestrial Ecosystem Model to explore the effects of ozone on net primary production (NPP) and carbon sequestration across the conterminous United States. Our results show up a 2.6-6.8% mean reduction for the U.S. in annual NPP in response to modeled historical ozone levels during the late 1980s to early 1990s. The largest decreases (over 13% in some locations) occur in the Midwest agricultural lands, during the mid-summer when ozone levels are highest. Carbon sequestration since the 1950s has been reduced by 18 to 38 Tg C/yr with the presence of ozone. Thus the effects of ozone on NPP and carbon sequestration should be factored into future calculations of the United States' carbon budget.

© 2004 Blackwell Munksgaard

Supersedes: 

Ozone Effects on Net Primary Production and Carbon Sequestration in the Conterminous United States Using a Biogeochemistry Model