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Vegetation and fire history since the Late Pleistocene from the Trinity Mountains, northwestern California, USA

Ecological Restoration Institute, Box 15017, Northern Arizona University, Flagstaff AZ 86011, USA; Quaternary Sciences Program, Box 5644, Northern Arizona University, Flagstaff AZ 86011, USA mark.daniels{at}nau.edu

Scott Anderson

Center for Environmental Sciences & Education, Box 5964, Northern Arizona University, Flagstaff AZ 86011, USA; Quaternary Sciences Program, Box 5644, Northern Arizona University, Flagstaff AZ 86011, USA

Cathy Whitlock

Department of Earth Sciences, Box 173480, Montana State University, Bozeman MT 59717, USA

A 267-cm sediment core spanning the past c. 15 200 cal. yr was recovered from Mumbo Lake, in the Trinity Mountains of northwestern California's Klamath Region. Plant macrofossils and pollen detail local and extra-local vegetation history, while high-resolution charcoal analysis provides details on local fire history. For the first c. 3000 years, climate was colder and drier than present, and supported an open, subalpine parkland vegetation, with low fire frequencies and fuel biomass. From c. 12 100 to 9800 cal. yr BP increasing moisture and soil development led to a woodland community with three new pine species invading the basin. Fire frequencies remained low, but individual fires may have been more intense because of increased fuel loads. Between c. 9800 and 7200 cal. yr BP, climate warmed and dried considerably, allowing for the expansion of oak and other chaparral species. Fire frequencies increased in the early Holocene, but low charcoal accumulation rates suggest a frequent, relatively low-intensity fire regime. From c. 7200 to 3800 cal. yr BP, the climate became cooler and moister again. Many conifer species appeared for the first time, although chaparral species maintained a strong presence. The fire record shows a dramatic increase in charcoal accumulation rates as well as an increase in fire frequency. From c. 3800 cal. yr BP to present, more conifer species enter the record, and abundance of chaparral species gradually diminishes to present levels.

Key Words: Klamath • pollen • charcoal • fire • climatic change • vegetation change • Trinity Mountains • California • Late Pleistocene • Holocene

The Holocene, Vol. 15, No. 7, 1062-1071 (2005)
DOI: 10.1191/0959683605hl878ra


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