Title page for ETD etd-04262007-102427


Type of Document Dissertation
Author Amichev, Beyhan Y.
Author's Email Address bamichev@vt.edu
URN etd-04262007-102427
Title Biogeochemistry of Carbon on Disturbed Forest Landscapes
Degree PhD
Department Forestry
Advisory Committee
Advisor Name Title
Burger, James A. Committee Chair
Daniels, Walter Lee Committee Member
Fox, Thomas R. Committee Member
Galbraith, John M. Committee Member
Prisley, Stephen P. Committee Member
Zelazny, Lucian W. Committee Member
Keywords
  • geogenic carbon
  • decision support system
  • wood products
  • mine soils
  • pedogenic carbon
  • soil organic carbon sequestration
  • field protocol for carbon inventory
Date of Defense 2007-04-11
Availability unrestricted
Abstract
Carbon accreditation of forest development projects is essential for sequestering atmospheric CO2 under the provisions of the Kyoto Protocol. The carbon sequestration potential of surface coal-mined lands is not well known. The purpose of this work was to determine how to measure carbon sequestration and estimate the additional amount that could be sequestered using different reforestation methods compared to the common practice of establishing grasslands.

I developed a thermal oxidation technique for differentiating sequestered soil carbon from inorganic and fossilized carbon found at high levels in mine soils along with a geospatial and statistical protocol for carbon monitoring and accounting. I used existing tree, litter, and soil carbon data for 14 mined and 8 adjacent, non-mined forests in the Midwestern and Eastern coal regions to determine, and model sequestered carbon across the spectrum of site index and stand age in pine, mixed, and hardwood forest stands. Finally, I developed the framework of a decision support system consisting of the first iteration of a dynamic model to predict carbon sequestration for a 60-year period for three forest types (white pine, hybrid poplar, and native hardwoods) at three levels of management intensity: low (weed control), medium (weed control and tillage) and high (weed control, tillage, and fertilization).

On average, the highest amount of ecosystem carbon on mined land was sequestered by pine stands (148 Mg ha-1), followed by hardwood (130 Mg ha-1) and mixed stands (118 Mg ha-1). Non-mined hardwood stands contained 210 Mg C ha-1, which was about 62% higher than the average of all mined stands. After 60 years, the net carbon in ecosystem components, wood products, and landfills ranged from 20 to 235 Mg ha-1 among all scenarios. The highest net amount of carbon was estimated under mixed hardwood vegetation established by the highest intensity treatment. Under this scenario, a surface-mined land of average site quality would sequester net carbon stock at 235 Mg C ha-1, at a rate of 3.9 Mg C ha-1 yr-1, which was 100% greater than a grassland scenario. Reforestation is a logical choice for mined land reclamation if carbon sequestration is a management objective.

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