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  5. Identification and Laboratory Validation of Temperature Tolerance for Macroinvertebrates: Developing Vulnerability Prediction Tools
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  7. Empirical Analysis for Identification and Laboratory Validation of Temperature Tolerance for Macroinvertebrates, 2013

Empirical Analysis for Identification and Laboratory Validation of Temperature Tolerance for Macroinvertebrates, 2013

Dates

Publication Date
Start Date
1992-12-31
End Date
2009-12-30

Summary

These files contain all of the source USGS/EPA taxa, temperature, and percent abundance of urban and agricultural land cover within the watershed upstream of the sampling site data used to calculate taxa specific macroinvertebrate optimal temperatures and tolerances. They also contain a taxa specific list of temperature optima and tolerances generated from the data contained in source USGS/EPA data.

Contacts

Distributor :
USGS ScienceBase
Originator :
Robert W Black
Metadata Contact :
Jeremy Kenyon
Funding Agency :
Northwest CSC

Attached Files

Click on title to download individual files attached to this item.

Empirical Analysis for Identification and Laboratory Validation of Temperature Tolerance for Macroinvertebrates, 2013.xml
Original FGDC Metadata
View 		21.87 KB application/fgdc+xml
Sample_location_map.pdf 393.77 KB application/pdf
Documentation for Empirical Analysis Data Files.pdf 199.99 KB application/pdf
EPA_data.xlsx 1.35 MB application/vnd.openxmlformats-officedocument.spreadsheetml.sheet
USGS_data.xlsx 448.85 KB application/vnd.openxmlformats-officedocument.spreadsheetml.sheet
EPA_results.xlsx 40.01 KB application/vnd.openxmlformats-officedocument.spreadsheetml.sheet
USGS_results.xlsx 27.34 KB application/vnd.openxmlformats-officedocument.spreadsheetml.sheet

Purpose

Temperature provides first order control of most fundamental processes in aquatic insects (Ward and Stanford, 1982). Metabolism, growth, reproduction, timing of emergence, and distributions of aquatic insect species are all directly controlled by temperature (Vannote and Sweeney 1978, 1980). Temperature governs the composition of insect communities both spatially as well as temporally. Vannote and Sweeney (1978, 1980) found species have thermal optima where growth and fecundity are maximized. One way to try and determine these optimal temperatures as well as temperature tolerances is through empirical approaches using existing data. Empirical methods can be used to try and determine a taxa'™s temperature niche or 'œthermal window' of occurrence. Vannote, R.L. and B.W. Sweeney. 1980. Geographical analysis of thermal equilibeia: A conceptual model for evaluating the effect of natural and modified thermal regimes on aquatic insect communities. Am. Nat. 115:667-695. Ward, J.V., and J.A. Stanford. 1982. Thermal responses in the evolutionary ecology of aquatic insects. Ann. Rev. Entomol. 27:97-117.

Communities

  • National and Regional Climate Adaptation Science Centers
  • Northwest CASC

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