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Author(s) (2006), Title, Eos Trans. AGU, 87(52), Fall
Meet. Suppl., Abstract xxxxx-xx
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munroe
HR: 1340h AN: B53C-0365 TI: High Resolution Analysis
of Sub-fossil Midges from the Great Basin, United States Provides Evidence
of 20th Century Warming AU: * Porinchu, D
F EM: porinchu.1@osu.edu AF: The Ohio State University David Porinchu, Department of Geography
1036 Derby Hall 154 N. Oval Mall, Columbus, OH 43201 United States
AU: Potito, A EM: aaron.potito@nuigalway.ie AF: NUI -
Galway Aaron Potito, Department of Department of Geography, Galway, 00000
Ireland AU: MacDonald, G EM: macdonal@geog.ucla.edu AF: UCLA Glen
MacDonald, Department of Geography 1155 Bunche Hall, Los Angeles, CA 90095
United States AU: Moser, K EM: kmoser@uwo.ca AF: University of Western
Ontario Katrina Moser, Department of Geography, London, ON N6A 5C2 Canada
AU: Munroe, J EM: jmunroe@middlebury.edu AF: Middlebury
College Jeff Munroe, Department of Geology Middlebury College, Middlebury,
VT 05753 United States AB: High-resolution
chironomid stratigraphies were developed for six sub-alpine lakes in the
Great Basin of the western United States to assess whether high elevation
lakes in this region have been affected by recent climate change.
Detrended correspondence analysis (DCA) of the chironomid faunal
assemblages indicates that these lakes experienced similar unidirectional
change in community composition during the 20th century with pronounced
changes occurring post-1980. A robust midge-based transfer function for
summer surface water temperature (SSWT) was developed using a regional
calibration set consisting of 108 lakes. Application of this inference
model to the chironomid assemblages preserved in these lakes provided
quantitative temperature estimates of SSWT spanning the 20th century.
These data indicate that the sites experienced above average water
temperatures during the late 20th century and below average surface water
temperatures between A.D. 1910 and 1980. Close correspondence exists
between the chironomid-inferred temperature profiles and mean July
temperatures measured at nearby sites for which long-term NCEP re-analysis
data is available. It appears that climate change has an overriding
influence on the composition of the chironomid communities within these
lakes. This study demonstrates that sub-fossil chironomid analysis can
provide detailed records of community response to regional climatic
changes at sub-decadal time scales, and also reveals that the midge
communities in sub-alpine lakes in the Great Basin of the western United
States have already been affected by recent climate change. DE:
0426 Biosphere/atmosphere interactions (0315) DE:
0473 Paleoclimatology and paleoceanography (3344,
4900) DE: 1630 Impacts of global change
(1225) DE: 1637 Regional climate
change SC: Biogeochemistry [B] MN:
2006 Fall Meeting