Temperature
Edited by: F. Richard Hauer and G. A. Lamberti
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Abstract
Stream temperature has direct and indirect effects on stream ecology and is critical in determining both abiotic and biotic system responses across a hierarchy of spatial and temporal scales. Temperature variation is primarily driven by solar radiation, while landscape topography, geology, and stream reach scale ecosystem processes contribute to local variability. Spatiotemporal heterogeneity in freshwater ecosystems influences habitat distributions, physiological functions, and phenology of all aquatic organisms. In this chapter we provide an overview of methods for monitoring stream temperature, characterization of thermal profiles, and modeling approaches to stream temperature prediction. Recent advances in temperature monitoring allow for more comprehensive studies of the underlying processes influencing annual variation of temperatures and how thermal variability may impact aquatic organisms at individual, population, and community based scales. Likewise, the development of spatially explicit predictive models provide a framework for simulating natural and anthropogenic effects on thermal regimes which is integral for sustainable management of freshwater systems.
Suggested Citation
Jones, L.A., Muhlfeld, C.C., Hauer, F.R., 2017, Temperature, chap. 6 of Methods in stream ecology, v. 1, p. 109-120.
| Publication type | Book chapter |
|---|---|
| Publication Subtype | Book Chapter |
| Title | Temperature |
| Chapter | 6 |
| Edition | 3rd |
| Volume | 1 |
| Year Published | 2017 |
| Language | English |
| Publisher | Elsevier |
| Publisher location | San Diego, CA |
| Contributing office(s) | Northern Rocky Mountain Science Center |
| Description | 12 p. |
| Larger Work Type | Book |
| Larger Work Title | Methods in stream ecology |
| First page | 109 |
| Last page | 120 |