The fire history in two geovegetation provinces in Yellowstone National Park was
reconstructed to determine relations between postglacial climate change, fire frequency,
and vegetation. Fire reconstructions were based on charcoal preserved in lake-sediment
cores from the Central Plateau and Yellowstone-Lamar Provinces, and fire-related
erosional events were inferred from changes in sediment magnetism. The fire records
were compared with pollen data and paleoclimatic reconstructions for the past 17,000
years.
In the Central Plateau Province, infertile soils restricted the vegetation response to
Holocene climate changes, but fire frequency changed continuously as a result of
variations in the intensity of summer drought. Fire frequency was highest (ten to 15
events/1000 years) when summer temperatures were high and effective precipitation was
low in the early Holocene (ca. 10,000 cal yr BP). These conditions were caused by
greater-than-present summer insolation and the expansion of die eastern Pacific
subtropical high pressure system, which affected temperature and moisture conditions in
the southern and central part of Yellowstone National Park. After 8000 cal yr BP, fire
incidence decreased to present frequencies (two to three events/1000 years). The trend
towards fewer fires coincided with decreasing summer insolation and cooler, effectively
wetter conditions than before.
In the Yellowstone-Lamar Province, fire frequency was moderate (six to ten
events/l000 years) in the early Holocene. Pollen data indicate that summers then were
warmer and wetter as a result of stronger-than-present monsoonal circulation that brought
increased precipitation to the northern part of Yellowstone National Park during the
summer insolation maximum. In the last ca. 2000 years, xerophytic vegetation has
increased in the Yellowstone-Lamar Province, and fire frequency reached its highest levels
(12 to 17 events/1000 years).
The contrast in the two fire histories suggests that fire regimes reflect variations in
the intensity of summer drought that resulted from variations in the seasonal cycle of
insolation. Fire regimes in both provinces have been non-stationary during the Holocene
as fire frequency changed continuously with millennial-scale climate variations. Fire
incidence has also changed on submillennial-time scales. Several ca. 500-year periods
were characterized by high fire occurrence in both provinces, including the period from ca.
500-1000 cal yr BP, which corresponded with the Medieval Warm Period.
Date of Award | 1997 |
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Original language | English |
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Awarding Institution | |
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LATE-GLACIAL AND HOLOCENE VARIATIONS IN FIRE FREQUENCY IN THE CENTRAL PLATEAU AND YELLOWSTONE-LAMAR PROVINCES OF YELLOWSTONE NATIONAL PARK
HOOPER MILLSPAUGH, S. (Author). 1997
Student thesis: PhD