Cumulative impacts of habitat fragmentation and the environmental factors affecting upstream migration in the threatened sea lamprey, <scp><i>Petromyzon marinus</i></scp>

Davies, Peter; Britton, J. Robert; Nunn, A. D.; Dodd, Jamie R.; Bainger, Chris; Velterop, Randolph; Bolland, Jonathan D.

doi:10.1002/aqc.3625

Cited by 15 publications

(11 citation statements)

References 56 publications

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“…was increased during periods of elevated river discharge (Davies et al, 2021). Here, we revealed that across all of the lampreys passing Weir S2, there was a strong bimodal distribution in their passage times, whereby 32% of individuals passed within 24 hr of the first approach but the remainder passed after a median delay of over 2 weeks.…”

Section: Discussionmentioning

confidence: 68%

“…Passage time is a key metric for assessing the impact of barriers on upstream migration in fish (Silva et al., 2018), and numerous studies have identified the abiotic, individual, and behavioural factors affecting passage rates at barriers (Castro‐Santos et al., 2017; Goerig et al., 2020; Kirk & Caudill, 2017; Newton et al., 2018). A previous study on these lampreys indicated that their passage over Weir S2 was increased during periods of elevated river discharge (Davies et al., 2021). Here, we revealed that across all of the lampreys passing Weir S2, there was a strong bimodal distribution in their passage times, whereby 32% of individuals passed within 24 hr of the first approach but the remainder passed after a median delay of over 2 weeks.…”

Section: Discussionmentioning

confidence: 93%

“…Weirs S2 to S4, and T1, were the main river barriers under investigation here (Figure 1). Although they were all passable at high discharge levels, their permeability varied at other times; S3 and T1 were impassable at low discharge, S2 was passable at all discharge levels recorded during the study, and S4 was only approached/passed at high discharge (Davies et al., 2021).…”

Section: Methodsmentioning

confidence: 97%

“…To then decouple the causes of variation in passage times and retreat rates between intrinsic (body length) and extrinsic (environmental) factors, data from weir S2 were used as these provided the largest sample size of lamprey approach ( n = 56) and passage ( n = 50), with passage rates at this weir already established as being positively correlated with environmental variables, particularly increased river discharge (Davies et al., 2021). Lampreys that passed the weir were categorised as having been non‐delayed (passed the weir within 24 hr of arrival) or delayed in passage (passed the weir over 24 hr after arrival).…”

Section: Methodsmentioning

confidence: 99%

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Individual movement variation in upstream‐migrating sea lamprey Petromyzon marinus in a highly fragmented river

et al. 2022

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Anthropogenic reductions in riverine connectivity can severely impede the migrations of anadromous species. In fragmented rivers, successful migrations depend on the ability of migrants to negotiate barriers or locate alternative passage routes. However, individual variation in the specific aspects of movement that determine migration success in fragmented rivers, is poorly characterised. Here, individual variation was investigated in the spawning migrations of 56 adult sea lamprey Petromyzon marinus, an anadromous, semelparous species that does not show fidelity to natal rivers. The variability and consequences of two key aspects of fish migration within fragmented rivers were tested: passage time (total time taken to pass a barrier) and retreats (exploratory downstream movements after unsuccessful passage attempts). These were tested using acoustic telemetry in the highly fragmented River Severn catchment, western England, U.K. Distinct unimodal, bimodal, and multimodal patterns of variation in passage times were displayed across the different barriers, potentially related to the physical characteristics of the barrier and prevailing river discharge conditions when the barriers were first approached, but were not related to lamprey body sizes. At the first three barriers encountered by upstream‐migrating sea lamprey in the study, between 30% and 46% of individuals made retreat movements, and between 5% and 100% of retreating individuals were able to locate alternative tributaries. Retreating individuals were highly variable in their distance and frequency of retreats; overall, retreat movements comprised 11% (lower‐upper quartiles 0%–52%, range 0%–76%) of the total distance moved before reaching spawning areas. Time‐to‐event analysis indicated that retreat rates reduced as river discharge increased. There was no evidence indicating that individual variation in passage time, or presence of retreat movements at barriers, influenced the subsequent upstream migration speed or final upstream extent of lampreys. While predictability in rank arrival timing was high within three unobstructed reaches, this predictability was disrupted at barriers due to individual variation in passage times. Anthropogenic barriers thus can both disrupt and reveal individual variation in the migration dynamics of anadromous species. Substantial variability in retreat behaviours can be displayed by anadromous species facing delays at barriers, with these behaviours also associated with environmental conditions and the availability of alternative migration routes. Individual variation in exploration and passage time of migrants strongly influence their eventual spawning distribution.

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Section: Discussionmentioning

confidence: 68%

Section: Discussionmentioning

confidence: 93%

Section: Methodsmentioning

confidence: 97%

Section: Methodsmentioning

confidence: 99%

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Individual movement variation in upstream‐migrating sea lamprey Petromyzon marinus in a highly fragmented river

et al. 2022

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“…Given the extensive fragmentation of rivers in Britain (Jones et al, 2019), and indeed in Europe (Belletti et al, 2020) and the world more generally (Grill et al, 2019), future work should consider incorporating barriers into network configurations, especially as these barriers can affect the behaviour of freshwater organisms (Rodeles et al, 2021;Starrs et al, 2017). However, this would require an additional algorithm relating to barrier permeability, such as the ability of fish to move upstream according to river level (Davies et al, 2021), and whether the barrier incorporated a fish by-pass structure (Pereira et al, 2017). Interactions of the invading fish with the native community were also not considered within the model, and it is acknowledged that these interactions can be an important factor in the outcome of biological invasions where, for example, the extent of native biotic resistance and resilience to the invader can determine the extent of its establishment and spread (Alofs & Jackson, 2014;Svenning et al, 2014;Thompson & Fronhofer, 2019).…”

Section: Discussionmentioning

confidence: 99%

Predicting the influence of river network configuration, biological traits and habitat quality interactions on riverine fish invasions

Almela

Britton

Palmer³

et al. 2021

Diversity and Distributions

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Aim:The relationships between species and their landscape are important for understanding migration patterns. In fluvial systems, the complexity of the river network can strongly influence the dispersal and colonization rates of invading alien fishes, but habitat quality, species' biological traits and their location of introduction are also potentially important. However, understandings of how these factors interact in the wild to influence the spatial distribution of invasive species over time are limited from empirical studies.Location: "Virtual" and "real-world" rivers from England and Wales. Method:We developed an individual-based model (IBM) to predict how these different factors influenced the invasion dynamics and population growth rates (as abundances) of nine "virtual" alien fishes over two timeframes (10 and 30 years). The alien fishes differed in their demographic (r-to K-selected) and dispersal (fast to slow) characteristics and the rivers in their network complexity.Results: Irrespective of river type, species and timeframe, the main drivers of both dispersal and population growth were the location of the introduction and the mean habitat quality of the patch into which the species were released. The introduction location determined whether dispersal was mainly passive in a downstream direction (faster) or active in an upstream direction (slower), with higher habitat quality then enabling faster population growth rates. Over 30 years, invasion rates were predicted to increase as the complexity of the river network increased, as this opened multiple invasion fronts where the invader traits favoured faster dispersal.Main conclusions: This novel IBM revealed how the complexity of the physical environment interacts with the biological traits of alien species to influence invasion outcomes, with the location of the introduction and its habitat quality being the most important factors. These results thus substantially increase understanding of the factors that influence the dispersal and colonization rates of alien freshwater fishes.

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Extinction risks and threats facing the freshwater fishes of Britain

Nunn,

Ainsworth,

Walton

et al. 2023

Aquatic Conservation

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Extinctions occur naturally in all environments, but rates have accelerated rapidly during the Anthropocene, especially in fresh water. Despite supporting many fish species of conservation importance, there has never been a formal assessment of their extinction risks in Britain, which has impeded their inclusion in relevant legislation and policy. This study therefore used the International Union for the Conservation of Nature (IUCN) Red List of Threatened Species™ Categories and Criteria to conduct the first systematic assessment of the extinction risks and threats facing the native freshwater and diadromous fishes of Britain. In addition, national assessments were produced for England, Scotland and Wales, reflecting the level at which environmental policy decisions are taken in Britain. Seven species were categorized as being threatened with extinction at the regional level, with European eel Anguilla anguilla and allis shad Alosa alosa classified as Critically Endangered, Atlantic salmon Salmo salar, vendace Coregonus albula and European whitefish Coregonus lavaretus classified as Endangered, and Arctic charr Salvelinus alpinus and twaite shad Alosa fallax classified as Vulnerable. In addition, burbot Lota lota was classified as Regionally Extinct, ferox trout Salmo ferox was categorized as Data Deficient, and 25 species were categorized as Least Concern. European sturgeon Acipenser sturio and houting Coregonus oxyrinchus, although probably native, qualified as only vagrants in fresh water, so were categorized as Not Applicable. The assessments provide objective baselines against which future changes can be determined, and a key evidence base to support policy and management decisions for the conservation of freshwater and diadromous fish species and their habitats in Britain. It is recommended that the assessments are repeated every 10 years, which would enable changes in conservation status, the effectiveness of policies and where targeted interventions may be required to be examined using the Red List Index.

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Cumulative impacts of habitat fragmentation and the environmental factors affecting upstream migration in the threatened sea lamprey, Petromyzon marinus

Cited by 15 publications

References 56 publications

Individual movement variation in upstream‐migrating sea lamprey Petromyzon marinus in a highly fragmented river

Individual movement variation in upstream‐migrating sea lamprey Petromyzon marinus in a highly fragmented river

Predicting the influence of river network configuration, biological traits and habitat quality interactions on riverine fish invasions

Extinction risks and threats facing the freshwater fishes of Britain

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