We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
Vegetative and climatic controls on Holocene wildfire and erosion recorded in alluvial fans of the Middle Fork Salmon River, Idaho.
- Authors
Riley, Kerry; Pierce, Jennifer; Meyer, Grant A
- Abstract
The Middle Fork Salmon River watershed spans high-elevation mixed-conifer forests to lower-elevation shrub-steppe. In recent decades, runoff from severely burned hillslopes has generated large debris flows in steep tributary drainages. These flows incised alluvial fans along the mainstem river, where charcoal-rich debris-flow and sheetflood deposits preserve a record of latest Pleistocene to Holocene fires and geomorphic response. Through deposit sedimentology and 14C dating of charcoal, we evaluate the processes and timing of fire-related sedimentation and the role of climate and vegetation change. Fire-related deposits compose ~66% of the total measured fan deposit thickness in more densely forested upper basins versus ~33% in shrub-steppe-dominated lower basins. Fires during the middle Holocene (~8000–5000 cal. yr BP) mostly resulted in sheetflood deposition, similar to modern events in lower basins. Decreased vegetation density during this generally warmer and drier period likely resulted in lower-severity fires and more frequent but smaller fire-related sedimentation events. In contrast, thick fire-related debris-flow deposits of latest Pleistocene–early Holocene (~13,500–8000 cal. yr BP) and late Holocene (<4000 cal. yr BP) age are inferred to represent higher-severity fires, although data in the former period are limited. Widespread fires occurred in both upper and lower basins within the Medieval Climatic Anomaly (1050–650 cal. yr BP) and the early ‘Little Ice Age’ ca. 550 cal. yr BP. We conclude that a generally cooler late Holocene climate and a shift to denser lodgepole pine forests in upper basins by ~2500 cal. yr BP provided fuel for severe fires during episodic droughts.
- Subjects
SALMON River (Idaho); HOLOCENE Epoch; CLIMATE change; SEDIMENTOLOGY; SEDIMENTATION &; deposition
- Publication
Holocene, 2015, Vol 25, Issue 5, p857
- ISSN
0959-6836
- Publication type
Article
- DOI
10.1177/0959683615571423