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Assessing the potential of drone-based thermal infrared imagery for quantifying river temperature heterogeneity

Dugdale, Stephen J.; Kelleher, Christa A.; Malcolm, Iain A.; Caldwell, Samuel; Hannah, David M.

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Christa A. Kelleher

Iain A. Malcolm

Samuel Caldwell

David M. Hannah


© 2019 Crown copyright. Hydrological Processes © 2019 John Wiley & Sons, Ltd. Climate change is altering river temperature regimes, modifying the dynamics of temperature-sensitive fishes. The ability to map river temperature is therefore important for understanding the impacts of future warming. Thermal infrared (TIR) remote sensing has proven effective for river temperature mapping, but TIR surveys of rivers remain expensive. Recent drone-based TIR systems present a potential solution to this problem. However, information regarding the utility of these miniaturised systems for surveying rivers is limited. Here, we present the results of several drone-based TIR surveys conducted with a view to understanding their suitability for characterising river temperature heterogeneity. We find that drone-based TIR data are able to clearly reveal the location and extent of discrete thermal inputs to rivers, but thermal imagery suffers from temperature drift-induced bias, which prevents the extraction of accurate temperature data. Statistical analysis of the causes of this drift reveals that drone flight characteristics and environmental conditions at the time of acquisition explain ~66% of the variance in TIR sensor drift. These results shed important light on the factors influencing drone-based TIR data quality and suggest that further technological development is required to enable the extraction of robust river temperature data. Nonetheless, this technology represents a promising approach for augmenting in situ sensor capabilities and improved quantification of advective inputs to rivers at intermediate spatial scales between point measurements and “conventional” airborne or satellite remote sensing.

Journal Article Type Article
Acceptance Date Jan 4, 2019
Online Publication Date Jan 18, 2019
Publication Date Jan 18, 2019
Deposit Date Jan 18, 2019
Publicly Available Date Jan 19, 2020
Journal Hydrological Processes
Print ISSN 0885-6087
Electronic ISSN 1099-1085
Publisher Wiley
Peer Reviewed Peer Reviewed
Volume 33
Issue 7
Pages 1152-1163
Keywords Water Science and Technology
Public URL
Publisher URL


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