The effects of riverine impoundment on genetic structure and gene flow in two stream fishes in the <scp>M</scp>obile <scp>R</scp>iver basin

Fluker, Brook L.; Kuhajda, Bernard R.; Harris, Phillip M.

doi:10.1111/fwb.12283

Cited by 36 publications

(37 citation statements)

References 80 publications

(126 reference statements)

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“…For both F. validus and F. erichsonianus , gene flow from down‐ to upstream populations was lower in impounded streams compared to unimpounded streams, which is consistent with the expected response to stream habitat fragmentation (Fluker et al, ; Hudman & Gido, ; Meffe & Vrijenhoek, ). In contrast, crayfish populations in up‐ and downstream sections of unimpounded streams displayed high genetic connectivity and bidirectional dispersal and gene flow.…”

Section: Discussionsupporting

confidence: 78%

“…Detecting genetic signatures of recent fragmentation using molecular data has been difficult (Richmond, Reid, Ashton, & Zamudio, ; Sumner, Jessop, Paetkau, & Moritz, ), particularly when using markers that do not mutate at exceptionally fast rates. For example, genetic differences between fragmented populations of Alabama stream fishes were detected using hypervariable nuclear microsatellite loci but not using mitochondrial DNA sequences (Fluker et al, ). However, in the present study using mitochondrial COI sequences, we detected differences between crayfishes in up‐ and downstream sections of streams that were impounded for only 36 years (Cedar Creek), 40 years (Little Bear), and 104 years (Little Cahaba River).…”

Section: Discussionmentioning

confidence: 99%

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Crayfish populations genetically fragmented in streams impounded for 36–104 years

et al. 2019

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Dams and their associated impoundments may restrict dispersal and gene flow among populations of numerous freshwater species within stream networks, leading to genetic isolation. This can reduce effective population sizes and genetic diversity, increasing the risk of local extinction. We studied crayfishes from multiple up‐ and downstream sites in three impounded and two unimpounded streams in the Bear Creek and Cahaba River drainages, Alabama, U.S.A. Using mitochondrial DNA (cytochrome oxidase subunit I gene) sequence data generated from population‐level sampling of two abundant native crayfishes, Faxonius validus and Faxonius erichsonianus (Decapoda: Cambaridae), we assessed species’ spatial genetic structure and genetic diversity, estimated the magnitude and directionality of gene flow, and compared results between the species. For both species, levels of genetic diversity (number of haplotypes, and haplotypic and nucleotide diversity) were the same or higher in impounded compared to unimpounded streams. Conversely, crayfish populations in up‐ and downstream sections of unimpounded streams displayed high genetic similarity and bidirectional gene flow, whereas in impounded streams, crayfish populations typically had greater up‐ and downstream genetic differentiation and predominantly unidirectional, downstream gene flow. Although impoundments were associated with lower connectivity between up‐ and downstream sections for F. validus and F. erichsonianus, the magnitude of genetic effects was species‐specific, with greater differentiation between F. validus populations up‐ and downstream of impoundments. In an ecologically short timeframe, impoundments appear to have fragmented stream crayfish populations, and even species with relatively high abundances and large ranges had lower gene flow among populations in impounded streams compared to unimpounded streams. In addition, feedbacks between genetic and demographic effects on fragmented populations may decrease the probability of long‐term persistence.

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Section: Discussionsupporting

confidence: 78%

Section: Discussionmentioning

confidence: 99%

Crayfish populations genetically fragmented in streams impounded for 36–104 years

et al. 2019

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“…Given this, populations of pleurocerid species separated by artificial impoundments (e.g. Leptoxis coosaensis ; Whelan et al, ) are probably not as affected as organisms with greater dispersal abilities such as fishes (Fluker et al, ). Impoundments are often considered a primary cause of species decline in the Mobile River Basin (Johnson et al, ; Neves et al, ; Williams, Bogan, & Garner, ), but they may not be the biggest risk to remaining species that have survived initial impoundment.…”

Section: Discussionmentioning

confidence: 99%

“…Pleurocerid species affected by impoundment probably had similarly low population connectivity prior to anthropogenic habitat modification. Thus, artificial dispersal barriers, particularly on the timescale they have existed, may not affect unnaturally disjunct pleurocerid populations as much as they have been shown to affect animals with greater dispersal abilities like fish (Bessert & Ortí, ; Fluker et al, ).…”

Section: Discussionmentioning

confidence: 99%

“…Indeed, much of our understanding of gene flow and population genetic patterns in fluvial systems comes from studies of fish and aquatic insects (e.g. Faulks, Gilligan, & Beheregaray, ; Finn & Adler, ; Finn, Blouin, & Lytle, ; Fluker, Kuhajda, & Harris, ; Fluker, Kuhajda, Lang, & Harris, ; Kang, Ma, & He, ; Lecaudey, Schliewn, Osinov, Taylor, Bernatchez, Schliewn, & Osinov, ; Robinson, Simmons, Williams, & Moyer, ; Stobie, Oosthuizen, Cunningham, & Bloomer, ). Moreover, hypotheses that predict diversity patterns across riverine landscapes have been mostly developed with data on freshwater insects and fish (reviewed by Davis et al, ; Hughes et al, ).…”

Section: Introductionmentioning

confidence: 99%

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Riverscape genetic variation, migration patterns, and morphological variation of the threatened Round Rocksnail, Leptoxis ampla

et al. 2019

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Within riverine systems, headwater populations are hypothesized to harbour higher amounts of genetic distinctiveness than populations in the main stem of a river and display increased genetic diversity in large, downstream habitats. However, these hypotheses were mostly developed with insects and fish, and they have not been tested on many invertebrate lineages. Pleuroceridae gastropods are of particular ecological importance to rivers of eastern North America, sometimes comprising over 90% of macroinvertebrate biomass. Yet, virtually nothing is known of pleurocerid landscape genetics, including whether genetic diversity follows predictions made by hypotheses developed on more mobile species. Moreover, the commonly repeated hypothesis that intraspecific morphological variation in gastropods results from ecophenotypic plasticity has not been well tested on pleurocerids. Using 2bRAD‐seq to discover single nucleotide polymorphisms, we show that the threatened, Cahaba River endemic pleurocerid, Leptoxis ampla, has limited gene flow among populations and that migration is downstream‐biased, conflicting with previous hypotheses. Both tributary and main stem populations harbour unique genomic profiles, and genetic diversity was highest in downstream populations. Furthermore, L. ampla shell morphology was more correlated with genetic differences among individuals and populations than habitat characteristics. We anticipate similar genetic and demographic patterns to be seen in other pleurocerids, and hypotheses about gene flow and population demographics that were based on more mobile taxa often, but not always, apply to freshwater gastropods. From a conservation standpoint, genetic structure of L. ampla populations suggests distinctive genetic diversity is lost with localized extirpation, a phenomenon common across the range of Pleuroceridae.

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The influence of habitat characteristics on the occupancy and dispersal of two headwater fishes in a dendritic network

2023

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The bifurcating configuration of stream networks impacts the connectivity of patches and therefore influences the effects of habitat variables on dispersal and occupancy. In this study, we developed a comparative framework to explore the influence of environmental and anthropogenic variables on the dispersal and occupancy of two headwater darters, the Yazoo darter (Etheostoma raneyi) and goldstripe darter (Etheostoma parvipinne). We conducted our study in two subbasins that are nested within a larger Gulf Coastal Plain drainage in the southeastern United States. We examined patterns of occupancy using detection data collected within standardized stream reaches within the larger subbasin. Genotype by sequencing identified single nucleotide polymorphisms, which we then used to calculate genetic distance among samples obtained from localities distributed across both subbasins. Goldstripe darter and Yazoo darter occupancy were both best modeled by a single environmental variable (Yazoo darter: well depth; goldstripe darter: drainage area). Similarly, model rankings suggested that well depth explained a substantial amount of the variability in Yazoo darter genetic distance in this subbasin. However, we found no evidence that drainage area strongly affected goldstripe darter genetic distance within the larger subbasin. Our findings also suggested that the best predictors of Yazoo darter and goldstripe darter genetic distance differed between the two subbasins, and that variation in goldstripe darter genetic distance in the smaller subbasin was largely a consequence of anthropogenic variables. The comparative approach we used in this study suggests that the habitat variables regulating the dispersal and occupancy of some headwater fishes may differ, thus the use of site‐occupancy models to predict the dispersal habitat of these fishes may be inappropriate. Therefore, we suggest that understanding the effects of habitat variables regulating dispersal and occupancy may be crucial to understanding the metapopulation dynamics of headwater fishes.

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The effects of riverine impoundment on genetic structure and gene flow in two stream fishes in the Mobile River basin

Cited by 36 publications

References 80 publications

Crayfish populations genetically fragmented in streams impounded for 36–104 years

Crayfish populations genetically fragmented in streams impounded for 36–104 years

Riverscape genetic variation, migration patterns, and morphological variation of the threatened Round Rocksnail, Leptoxis ampla

The influence of habitat characteristics on the occupancy and dispersal of two headwater fishes in a dendritic network

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