Abstract
Habitat degradation, organismal needs, and other effects influencing freshwater mussel declines have been subject to intense focus by conservationists for the last thirty plus years. While researchers have studied the physical habitat requirements and needs of mussels in small- to medium-sized rivers with variable levels of success, less research has been conducted on mussel habitat in larger non-wadeable rivers, especially at the reach scale, where core flow environmental conditions provide and maintain habitat for freshwater mussels. We designed a quasi-experimental observational field study to examine seven hydrologic energy and material variables laterally and longitudinally at Current and Extirpated mussel bed habitat reaches in lower White River, Arkansas, a large non-wadeable, sand-bed-material-dominated river. As expected, lateral and longitudinal hydrologic variable differences were identified within a reach. Mean velocity, bed velocity, the Froude number, and stream power were all significantly lower at Current mussel bed habitat stations within a sampling reach. Energy regime differences in shear stress and, marginally, stream power were higher at Extirpated mussel bed habitat reaches. Several factors emerged as important to mussel habitat in the White River. First, bed velocity warrants further exploration in terms of both flow strength and flow direction. Second, bedload appears to be the primary contributor to mussel habitat but requires additional exploration within the context of core and secondary flow pathway interactions. The combined empirical evidence from our study supports the flow refugium concept identified for mussel habitats in smaller systems but expands the concept to large non-wadeable streams and includes reach-scale refuge from sediment transport conditions.
Highlights
Habitat provides the template in which evolution forges characteristic life-history strategies across evolutionary spatiotemporal scales [1] and acts to filter out unsuccessful strategies, thereby controlling community composition [2,3]
Channel slopes ranged from 0.000043 to 0.000063 m/m, with the lowest channel slopes occurring near Clarendon, AR, WR 096 and WR 094, and the highest slopes occurring at five other stations (Table 1), but they were not significantly different from each other (Two-way ANOVA: F3,11 = 0.76, p = 0.54)
Bedload appears to be the primary contributor to mussel bed habitat, but additional detailed exploration is needed for core flow pathway and secondary flow pathway interactions
Summary
Habitat provides the template in which evolution forges characteristic life-history strategies across evolutionary spatiotemporal scales [1] and acts to filter out unsuccessful strategies, thereby controlling community composition [2,3]. Stream habitats are recognized as being organized hierarchically at spatiotemporal scales ranging from larger to smaller stream systems that successively encompass spatially smaller and temporally shorter segment systems, reach systems, pool/riffle systems, and Diversity 2020, 12, 174; doi:10.3390/d12050174 www.mdpi.com/journal/diversity. Freshwater mussel declines has been the focus of North American conservation organizations for the Understanding habitat degradation, organismal habitat needs, and other effects influencing last thirty plus years [6,7]. How as individuals and asconservation assemblages, interactfor with freshwater mussel declines hasmussels, been the focus of North American organizations the highly variable last physical habitat requirements continues to be difficult to assemblages, synthesize and remains a significant thirty plus years [6,7]. As individuals and as interact with highly variable physical [7]
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