Ground-based thermography of fluvial systems at low and high discharge reveals potential complex thermal heterogeneity driven by flow variation and bioroughness
Author:
Publisher
Wiley
Subject
Water Science and Technology
Reference33 articles.
1. Heat as a Ground Water Tracer
2. Review Article.The physical basis of current infrared remote-sensing techniques and the interpretation of data from aerial surveys
3. Thermal radiometry: a rapid means of determining surface water temperature variations in lakes and reservoirs
4. Thermal heterogeneity along a braided floodplain river (Tagliamento River, northeastern Italy)
5. A model of the development of a periphyton community: resource and flow dynamics
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