Skip to Main Content
Modeling impacts of CO2, ozone, and climate change on tree growthAuthor(s): George E. Host; Gary W. Theseira; J. G. Isebrands
Source: In: Hom, John; Birdsey, Richard; O'Brian, Kelly, eds. Proceedings 1995 meeting of the northern global change program; Gen. Tech. Rep. NE-214. Radnor, PA: U. S. Department of Agriculture, Forest Service, Northeastern Forest Experiment Station: 33-37.
Publication Series: General Technical Report (GTR)
Station: Northeastern Research Station
PDF: View PDF (339.79 KB)
DescriptionUnderstanding the influence of ozone, CO2, and changing climatic regimes on basic plant physiological processes is essential for predicting the response of forest ecosystems. To understand the relationships among these interacting factors, in the face of genetic and other environmental variability, requires a means of synthesis. Physiological process modeling provides one such tool: it allows the integration of diverse information from research, reflects the interactions among variables, and provides a direction for future research.
- Check the Northern Research Station web site to request a printed copy of this publication.
- Our on-line publications are scanned and captured using Adobe Acrobat.
- During the capture process some typographical errors may occur.
- Please contact Sharon Hobrla, email@example.com if you notice any errors which make this publication unusable.
- We recommend that you also print this page and attach it to the printout of the article, to retain the full citation information.
- This article was written and prepared by U.S. Government employees on official time, and is therefore in the public domain.
CitationHost, George E.; Theseira, Gary W.; Isebrands, J. G. 1996. Modeling impacts of CO2, ozone, and climate change on tree growth. In: Hom, John; Birdsey, Richard; O''Brian, Kelly, eds. Proceedings 1995 meeting of the northern global change program; Gen. Tech. Rep. NE-214. Radnor, PA: U. S. Department of Agriculture, Forest Service, Northeastern Forest Experiment Station: 33-37.
- Towards a predictive understanding of belowground process responses to climate change: have we moved any closer?
- Forest ecohydrological research in the 21st century: what are the critical needs?
- Molecular genetic approaches toward understanding forest-associated fungi and their interactive roles within forest ecosystems
XML: View XML