Combining UAV-Based SfM-MVS Photogrammetry with Conventional Monitoring to Set Environmental Flows: Modifying Dam Flushing Flows to Improve Alpine Stream Habitat

Stuart N. Lane,Alice Gentile,Lucien Goldenschue

doi:10.3390/rs12233868

Stuart N. Lane, Alice Gentile + Show 1 more

Open Access

https://doi.org/10.3390/rs12233868

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Journal: Remote sensing	Publication Date: Nov 25, 2020
Citations: 13	License type: CC BY 4.0

Affiliation: University of Lausanne

Abstract

Setting environmental flows downstream of hydropower dams is widely recognized as important, particularly in Alpine regions. However, the required flows are strongly influenced by the effects of the physical environment of the downstream river. Here, we show how unmanned aerial vehicle (UAV)-based structure-from-motion multiview stereo (SfM-MVS) photogrammetry allows for incorporation of such effects through determination of spatially distributed patterns of key physical parameters (e.g., bed shear stress, bed grain size) and how they condition available stream habitat. This is illustrated for a dam-impacted Alpine stream, testing whether modification of the dam’s annual flushing flow could achieve the desired downstream environmental improvement. In detail, we found that (1) flood peaks in the pilot study were larger than needed, (2) only a single flood peak was necessary, (3) sediment coarsening was likely being impacted by supply from nonregulated tributaries, often overlooked, and (4) a lower-magnitude but longer-duration rinsing flow after flushing is valuable for the system. These findings were enabled by the spatially rich geospatial datasets produced by UAV-based SfM-MVS photogrammetry. Both modeling of river erosion and deposition and river habitat may be revolutionized by these developments in remote sensing. However, it is combination with more traditional and temporarily rich monitoring that allows their full potential to be realized.

Highlights

There is a well-established linkage between streamflow regime and the availability of habitat for aquatic insects and fish (e.g., [1,2,3])
We present and discuss the results, separating them into a focus on (1) what conventional monitoring can show us, and (2) how unmanned aerial vehicle (UAV)-based structure-from-motion multiview stereo (SfM-MVS) photogrammetry is critical to more effective monitoring and design of future environmental flows
During the first 90 min of the event and the first modified flushing flow (MFF) peak (MFFa), the quantity of downstream exported sediment (i) rose more rapidly and to a higher level than the quantity of upstream supplied sediment, and (ii) rose as soon as there was an increase in discharge

Summary

Introduction

There is a well-established linkage between streamflow regime and the availability of habitat for aquatic insects and fish (e.g., [1,2,3]). As many rivers and streams are impacted upon by flow modifications, such as to supply drinking water, for irrigation, or for hydropower production, such modifications can impact aquatic habitat [4]. E-flows focused on definition of the minimum flow that a river or stream needed to avoid negative impacts on instream fauna, notably fish. Wider research showed that a focus on minimum flows is insufficient. An effective e-flow should be determined with reference to the natural flow regime, notably including flow variability [4]

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