AmeriFlux US-Me4 Metolius-old aged ponderosa pine
This is the AmeriFlux version of the carbon flux data for the site US-Me4 Metolius-old aged ponderosa pine. Site Description - The site is located on land designated as a Research Natural Area (RNA). The site is very open, with even-aged stands of old-growth trees, young trees and mixed aged stands. The eddy-flux tower footprint was classified as ~ 48% mixed aged, ~27% pure old growth and ~25% young aged stands. The data in this workbook describes the mixed aged component. A separate workbook describes the pure old growth component. Law et al (2001) Global Change Biology 7, 755-777; Law et al (2001) Agricultural and Forest Meteorology 110, 27-43; Anthoni et al (2002) Agricultural and Forest Meteorology 111, 203-222; Irvine & Law (2002) Global Change biology 8,1183-1194, Irivne et al (2004) Tree Physiology 24,753-763.
- Publication Date:
- OSTI Identifier:
- Resource Type:
- Data Type:
- Specialized Mix
- Resource Relation:
- Related Information: Law, B.E., P. Thornton, J. Irvine, S. Van Tuyl, P. Anthoni. 2001. Carbon storage and fluxes in ponderosa pine forests at different developmental stages. Global Change Biology 7:755-777. 53. Irvine, J., B.E. Law, M. Kurpius, P.M. Anthoni, D. Moore, P. Schwarz. 2004. Age related changes in ecosystem structure and function and the effects on carbon and water exchange in ponderosa pine. Tree Physiology 24:753-763. 66. Anthoni, P.M., M.H. Unsworth, B.E. Law, J. Irvine, D. Baldocchi, D. Moore. 2002. Seasonal differences in carbon and water vapor exchange in young and old-growth ponderosa pine ecosystems. Agricultural and Forest Meteorology 111:203-222. Law, B.E., P. Thornton, J. Irvine, S. Van Tuyl, P. Anthoni. 2001. Carbon storage and fluxes in ponderosa pine forests at different developmental stages. Global Change Biology 7:755-777.
- Research Org:
- AmeriFlux; Oregon State University
- Sponsoring Org:
- DOE/TCP, NASA Carbon Cycle Science
- Country of Publication:
- United States