Riparian and geomorphic controls on thermal habitat dynamics of pools in a temperate headwater stream

Ouellet, Valérie; Gibson, Emma; Daniels, Melinda D.; Watson, Nathan

doi:10.1002/eco.1891

Cited by 15 publications

(15 citation statements)

References 43 publications

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“…The wide variability of in-field LAI obs measurements for RV reflects the composition and structure of such complex environments. In particular, in R2 and in R3, characterized, respectively, by partially or totally destroyed check dams, LAI obs values were lower, highlighting a correlation between the vegetation status and geomorphological channel stability [12,38,69]. R1 and R4, where there is almost no erosion and vegetation is more stratified, showed a higher maximum LAI obs comparable to the values measured in the DF.…”

Section: Discussionmentioning

confidence: 50%

Influence of Different Satellite Imagery on the Analysis of Riparian Leaf Density in a Mountain Stream

2020

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In recent decades, technological advancements in sensors have generated increasing interest in remote sensing data for the study of vegetation features. Image pixel resolution can affect data analysis and results. This study evaluated the potential of three satellite images of differing resolution (Landsat 8, 30 m; Sentinel-2, 10 m; and Pleiades 1A, 2 m) in assessing the Leaf Area Index (LAI) of riparian vegetation in two Mediterranean streams, and in both a winter wheat field and a deciduous forest used to compare the accuracy of the results. In this study, three different retrieval methods—the Caraux-Garson, the Lambert-Beer, and the Campbell and Norman equations—are used to estimate LAI from the Normalized Difference Vegetation Index (NDVI). To validate sensor data, LAI values were measured in the field using the LAI 2200 Plant Canopy Analyzer. The statistical indices showed a better performance for Pleiades 1A and Landsat 8 images, the former particularly in sites characterized by high canopy closure, such as deciduous forests, or in areas with stable riparian vegetation, the latter where stable reaches of riparian vegetation cover are almost absent or very homogenous, as in winter wheat fields. Sentinel-2 images provided more accurate results in terms of the range of LAI values. Considering the different types of satellite imagery, the Lambert-Beer equation generally performed best in estimating LAI from the NDVI, especially in areas that are geomorphologically stable or have a denser vegetation cover, such as deciduous forests.

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Section: Discussionmentioning

confidence: 50%

Influence of Different Satellite Imagery on the Analysis of Riparian Leaf Density in a Mountain Stream

2020

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“…; Ouellet et al. ). Additionally, species assemblage data offer an objective method for classifying species with limited or no thermal stress test data from laboratory studies.…”

Section: Challenges In Thermal Guild Development Using Laboratory‐dermentioning

confidence: 96%

“…The advantage of field data is its ability to capture the impact of factors that alter species' thermal niches. These factors include thermally mediated species interactions (Fausch et al 1994;Taniguchi et al 1998;Carmona-Catot et al 2013), food availability and metabolic rate at various temperatures (Sullivan et al 2000;Larsson 2005), and access to thermal refugia (Westhoff et al 2016;Ouellet et al 2017). Additionally, species assemblage data offer an objective method for classifying species with limited or no thermal stress test data from laboratory studies.…”

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confidence: 99%

Integrating Fish Assemblage Data, Modeled Stream Temperatures, and Thermal Tolerance Metrics to Develop Thermal Guilds for Water Temperature Regulation: Wyoming Case Study

et al. 2019

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Many streams are experiencing increased average temperatures due to anthropogenic activity and climate change. As a result, surface water temperature regulation is critical for preserving a diverse stream fish species assemblage. The development of temperature regulations has generally been based on laboratory measurements of individual species' thermal tolerances rather than community response to temperature in the field, despite multiple limitations of using laboratory data for this purpose. Using field data to develop temperature regulations may avoid some of the limitations of laboratory data, but the use of field data comes with additional challenges that prevent its widespread adoption. We used Wyoming stream fish assemblages as a case study to examine the feasibility of addressing the limitations of field and laboratory data through a hybrid approach that integrates both types of data to classify species into thermal guilds that can potentially inform regulatory standards. We identified coldwater, coolwater, and warmwater classes of sites with modeled mean August temperatures of <15.5, 15.5–19.9, and >19.9°C, respectively. We used species' associations with these temperature classes to place species into site‐groups. Finally, we used standardized laboratory measures of species' upper acute and chronic thermal tolerances to identify and reclassify species with unusual thermal distributions. Through this process we classified species into five thermal guilds that may be useful for surface water temperature regulation in Wyoming. Our approach addresses the limitations identified for field and laboratory data and demonstrates a framework that could be used for incorporating multiple types of data to develop temperature standards.

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“…Riparian forests can also reduce delivery of diffuse pollution through trapping of fine sediment runoff from agricultural land (Cooper et al , ; Daniels and Gilliam, ; Lowrance et al , ), storing sediment behind logjams (Davidson and Eaton, ; Wohl and Scott, ), remove nitrogen and phosphorous from runoff and subsurface flow (Peterjohn and Correll, ; Lowrance et al , ; Wang et al , ; Sutton‐Grier et al , ), and enhance stream metabolism (Blaen et al , ). Forested floodplains are a source of particulate organic matter to the channel (Gurnell et al , ), provide shade (Montgomery et al , ), help regulate water temperature (Garner et al , ; Garner et al , ; Ouellet et al , ; Dugdale et al , ) increase bank stability through root reinforcement (Shields and Gray, ; Beechie et al , ) and decrease the erosive power of the channel (Gregory et al , ; Manga and Kirchner, ; Fisher et al , ).…”

Section: Introductionmentioning

confidence: 99%

A conceptual model of riparian forest restoration for natural flood management

Dixon

Sear

Nislow

2018

Water & Environment J

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There is an increasing emphasis on using natural processes, including riparian forest restoration, to enhance the ecological, hydrological and geomorphological functioning of watercourses. However, we have insufficient knowledge on how the supply and retention of in-channel wood from riparian forest stands changes with age, with inferences typically based on data from terrestrial forests. This presents a challenge in estimating the efficacy and functional lifespan of restoration projects. In this paper, we use a riparian forest growth model to show there is a lag of up to 40-50 years between the start of forest growth and trees delivering wood to the channel that is large enough to resist fluvial transport, anchor logjams and so increase channel complexity and hydraulic resistance. Resource managers need to account for realistic timescales over which changes promoted by riparian woodland restoration will occur and may need to consider using interim engineered logjams as the forest develops.

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Riparian and geomorphic controls on thermal habitat dynamics of pools in a temperate headwater stream

Cited by 15 publications

References 43 publications

Influence of Different Satellite Imagery on the Analysis of Riparian Leaf Density in a Mountain Stream

Influence of Different Satellite Imagery on the Analysis of Riparian Leaf Density in a Mountain Stream

Integrating Fish Assemblage Data, Modeled Stream Temperatures, and Thermal Tolerance Metrics to Develop Thermal Guilds for Water Temperature Regulation: Wyoming Case Study

A conceptual model of riparian forest restoration for natural flood management

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