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Long-term changes in masticated woody fuelbeds in northern California and southern Oregon, USA

Warren P. Reed, J. Morgan Varner, Eric E. Knapp, Jesse K. Kreye

2020International Journal of Wildland Fire13 citationsDOIOpen Access PDF

Abstract

Mechanical mastication is a fuels treatment that shreds midstorey trees and shrubs into a compacted woody fuel layer to abate fire hazards in fire-prone ecosystems. Increased surface fuel loading from mastication may, however, lead to undesirable fire intensity, long-duration flaming or smouldering, and undesirable residual tree mortality. Two major questions facing fuels managers are: how long do masticated fuels persist, and how does the composition of masticated fuelbeds change over time? To evaluate these changes, we measured 25 masticated sites with a range of vegetation, species masticated and time since treatment (1–16 years) in the western US. Seven of the 25 sites were sampled nearly a decade earlier, providing a unique opportunity to document fuelbed changes. Woody fuel loading ranged from 12.1 to 91.9 Mg ha−1 across sites and was negatively related to time since treatment. At remeasured sites, woody fuel loads declined by 20%, with the greatest losses in 1- and 10-h woody fuels (69 and 33% reductions in mass respectively). Reductions were due to declines in number of particles and reduced specific gravity. Mastication treatments that generate greater proportions of smaller-diameter fuels may result in faster decomposition and potentially be more effective at mitigating fire hazard.

Topics & Concepts

Environmental scienceMasticationFire regimeVegetation (pathology)Woody plantEcosystemEcologyGeologyBiologyPathologyMedicinePaleontologyFire effects on ecosystemsAeolian processes and effectsRangeland and Wildlife Management
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