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An empirical assessment of forest floor carbon stock components across the United States

Formally Refereed
Authors: Christopher W. Woodall, Charles H. Perry, James A. Westfall
Year: 2012
Type: Scientific Journal (JRNL)
Station: Northern Research Station
DOI: https://doi.org/10.1016/j.foreco.2011.12.041
Source: Forest Ecology and Management. 269: 1-9.

Abstract

Despite its prevalent reporting in regional/national greenhouse gas inventories (NGHGI), forest floor (FF) carbon (C) stocks (including litter, humus, and fine woody debris [FWD]) have not been empirically measured using a consistent approach across forests of the US. The goal of this study was to use the first national field inventory of litter and humic layer depths, along with FWD volumes, to assess their basic attributes (e.g., depths/volumes) and refine NGHGI approaches to FF C stock monitoring. Results suggest that FF C stocks are present in nearly 99% of US forests with a median estimate of 25.6 Mg/ha, albeit with tremendous spatial variation in litter/humic depths and FWD volumes. Relative to aboveground live tree biomass C stocks, which typically range from 20 to 200 Mg/ha, nearly a quarter of US forests have minor FF C stocks (<14 Mg/ha), while approximately 10% of US forests may have substantial FF C stocks (>93 Mg/ha). Conditions conducive to large FF C stocks may be stochastic disturbance events that result in high volumes of FWD and/or climatic/physiographic conditions that slow decomposition (e.g., peatland ecosystems found in northern or coastal forest ecosystems). As soil and dead wood field inventories may only sample litter/humic depths and FWD counts by diameter class, C stock estimation procedures are heavily reliant on estimation constants (e.g., bulk/wood density). It was found that the variability in estimation constants may have a much stronger effect on resulting FF C stock estimates than the field measurements (e.g., litter layer depths) themselves. The monitoring of FF C stocks, along with the maintenance of site productivity and associated ecosystem services, would benefit from refined sample protocols in ecosystems with deep humic layers and coupling field data with lab analysis of bulk/wood density and C content from soil sampling programs.

Keywords

carbon, litter, humus, forest floor, greenhouse gas inventory, fine woody debris

Citation

Woodall, Christopher W.; Perry, Charles H.; Westfall, James A. 2012. An empirical assessment of forest floor carbon stock components across the United States. Forest Ecology and Management. 269: 1-9.
Citations
https://www.fs.usda.gov/research/treesearch/40130