Zachary Lundeen scite author profile

The vegetation and fire history of the Bear River Range (BRR), Southeast Idaho has been reconstructed from pollen, plant macrofossils, and macroscopic charcoal from lacustrine sediments. Overall, the BRR record shows independent responses of vegetation and fire regime to climate variation. The reconstructions suggest strong seasonal bias from the proxies evaluated, with the pollen record most sensitive to insolation-driven summer temperature trends, and the charcoal-based fire record more sensitive to winter snowpack variability. Together, the proxies suggest that the early Holocene experienced larger than average snowpacks but very warm summers. Warmer than modern summer temperatures were maintained through much of the mid-Holocene, but snowpacks decreased dramatically, creating the most extreme xeric conditions in the Holocene between ~7100 and 6000 BP. After 6000 BP, summers began to show a consistent cooling trend. Winter precipitation remained low until ~4400 BP, after which higher than average snowpacks are indicated until 2000 BP. Pollen and charcoal data relationships at ~8800 BP and from 1800 to 800 BP suggest periods with anomalously wet summers that created a unique fire regime during those intervals.

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Complementary seasonal bias in records of Holocene paleoclimate, Bear River Range, Southeast Idaho

Lundeen

Brunelle

2015

Quaternary International

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Zachary Lundeen

Organic, elemental, and geochemical contributions to lake sediment deposits during severe spruce beetle (Dendroctonus rufipennis) disturbances

A speleothem record of Holocene paleoclimate from the northern Wasatch Mountains, southeast Idaho, USA

A 1,500-year synthesis of wildfire activity stratified by elevation from the U.S. Rocky Mountains

A 14,000-year record of fire, climate, and vegetation from the Bear River Range, southeast Idaho, USA

Complementary seasonal bias in records of Holocene paleoclimate, Bear River Range, Southeast Idaho

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