Carbon sequestration by forests and soils on mined land in the Midwestern and Appalachian coalfields of the U.S.
Authors:
Amichev, Beyhan Y. Burger, James A. Rodrigue, Jason A. USDA, FS
Source:
Forest ecology and management. 2008 Nov. 20, v. 256, no. 11 [Amsterdam]: Elsevier Science, p. 1949-1959.
NALT Subjects:
carbon sequestration mined soils reclaimed soils forests reforestation coniferous forests hardwood forests mixed forests forest stands age structure soil organic carbon coal forest litter tree growth forest yields models Appalachian region Midwestern United States
Other Subjects:
coal mines site quality
Issue Date:
20-Nov-2008
Abstract:
Carbon (C) accreditation of forest development projects is one approach for sequestering atmospheric CO₂, under the provisions of the Kyoto protocol. The C sequestration potential of reforested mined land is not well known. The purpose of this work was to estimate and compare the ecosystem C content in forests established on surface, coal-mined and non-mined land. We used existing tree, litter, and soil C data for fourteen mined and eight adjacent, non-mined forests in the Midwestern and Appalachian coalfields to determine the C sequestration potential of mined land reclaimed prior to the passage of the Surface Mining Control and Reclamation Act (1977). We developed statistically significant and biologically reasonable models for ecosystem C across the spectrum of site quality and stand age. On average, the highest amount of ecosystem C on mined land was sequestered in pine stands (148Mgha⁻¹), followed by hardwood (130Mgha⁻¹) and mixed stands (118Mgha⁻¹). Non-mined hardwood stands sequestered 210MgCha⁻¹, which was about 62% higher than the average of all mined stands. Our mined land response surface models of C sequestration as a function of site quality and age explained 59, 39, and 36% of the variation of ecosystem C in mixed, pine, and hardwood stands, respectively. In pine and mixed stands, ecosystem C increased exponentially with the increase of site quality, but decreased with age. In mined hardwood stands, ecosystem C increased asymptotically with age, but it was not affected by site quality. At rotation age (60 yr), ecosystem C in mined hardwood stands was less on high quality sites, but similar for low quality sites compared to non-mined hardwood stands. The overall results indicated that the higher the original forest site quality, the less likely C sequestration potential was restored, and the greater the disparity between pre- and post-mining C sequestration stocks.
