102055 Black Carbon Content in a Ponderosa Pine Forest of Eastern Oregon with Varying Seasons and Intervals of Prescribed Burns.

Poster Number 173-703

See more from this Division: SSSA Division: Forest, Range and Wildland Soils
See more from this Session: Foundations of Ecological Restoration: Recovery of Soil Functions after Drastic Disturbance Poster

Monday, November 7, 2016
Phoenix Convention Center North, Exhibit Hall CDE

Lauren Matosziuk and Jeff Hatten, Forest Engineering, Resources, and Management, Oregon State University, Corvallis, OR
Abstract:
Soil carbon represents a significant component of the global carbon cycle. While fire-based disturbance of forest ecosystems acts as a carbon source, the increased temperatures can initiate molecular changes to forest biomass that convert fast cycling organic carbon into more stable forms such as black carbon (BC), a product of incomplete combustion that contains highly-condensed aromatic structures and very low hydrogen and oxygen content. Such forms of carbon can remain in the soil for hundred to thousands of years, effectively creating a long-term carbon sink. The goal of this project is to understand how specific characteristics of prescribed burns, specifically the season of burn and the interval between burns, affect the formation, structure, and retention of these slowly degrading forms of carbon in the soil. Both O-horizon (forest floor) and mineral soil (0-15 cm cores) samples were collected from a season and interval of burn study in Malheur National Forest. The study area is divided into six replicate units, each of which is sub-divided into four treatment areas and a control. Beginning in 1997, each treatment area was subjected to: i) spring burns at five-year intervals, ii) fall burns at five-year intervals, iii) spring burns at 15-year intervals, or iv) fall burns at 15-year intervals. The bulk density, pH, and C/N content of each soil have been measured to assess the effect of the different burn treatments on the soil. Additionally, the amount and molecular structure of BC in each sample has been quantified using the distribution of specific molecular markers (benzene polycarboxylic acids or BPCAs) that are present in the soil following acid digestion.

See more from this Division: SSSA Division: Forest, Range and Wildland Soils
See more from this Session: Foundations of Ecological Restoration: Recovery of Soil Functions after Drastic Disturbance Poster