Migratory gauntlets on oceanic islands: Watershed disturbance increases the cost of amphidromy

Hain, Ernie F.; Moody, Kristine N.; Lamphere, Bradley A.; Nelson, Stacy A. C.; McIntyre, Peter B.; Gilliam, James F.; Blum, Michael J.

doi:10.1111/eff.12467

Cited by 6 publications

(9 citation statements)

References 54 publications

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“…Care should, of course, be taken to focus efforts on key stream segments in order to deliver the greatest benefits to local populations. While this might call for targeting habitat used by stream residents for feeding and reproduction, it might be necessary to focus on downstream migratory corridors, including estuarine and nearshore coastal areas that may influence immigration and recruitment (Blum et al ., ; Hain et al ., ; Walter et al ., ).…”

Section: Discussionmentioning

confidence: 98%

“…Accordingly, it would be prudent to protect, improve, or create in‐stream habitat for non‐migratory residents in order to buffer against unfavourable marine environs, which are not as responsive to management interventions ( i.e ., due to a mismatch in scale). Appropriate actions might include restoring base flows, maintaining water quality, removing invasive species that compete or prey upon native larvae, preserving habitat diversity so that non‐migrant fishes of multiple species can complete their life cycles in‐stream (Blum et al ., ; Brasher, ; Hain et al ., , ; Heim‐Ballew, ; Lisi et al ., ; Walter et al ., ). Care should, of course, be taken to focus efforts on key stream segments in order to deliver the greatest benefits to local populations.…”

Section: Discussionmentioning

confidence: 99%

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Migratory flexibility in native Hawai'ian amphidromous fishes

Heim-Ballew

Moody

Blum

et al. 2019

Journal of Fish Biology

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We assessed the prevalence of life history variation across four of the five native amphidromous Hawai'ian gobioids to determine whether some or all exhibit evidence of partial migration. Analysis of otolith Sr.: Ca concentrations affirmed that all are amphidromous and revealed evidence of partial migration in three of the four species. We found that 25% of Lentipes concolor (n = 8), 40% of Eleotris sandwicensis (n = 20) and 29% of Stenogobius hawaiiensis (n = 24) did not exhibit a migratory lifehistory. In contrast, all individuals of Sicyopterus stimpsoni (n = 55) included in the study went to sea as larvae. Lentipes concolor exhibited the shortest mean larval duration (LD) at 87 days, successively followed by E. sandwicensis (mean LD = 102 days), S. hawaiiensis (mean LD = 114 days) and S. stimpsoni (mean LD = 120 days). These findings offer a fresh perspective on migratory life histories that can help improve efforts to conserve and protect all of these and other at-risk amphidromous species that are subject to escalating anthropogenic pressures in both freshwater and marine environments.

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Section: Discussionmentioning

confidence: 98%

Section: Discussionmentioning

confidence: 99%

Migratory flexibility in native Hawai'ian amphidromous fishes

Heim-Ballew

Moody

Blum

et al. 2019

Journal of Fish Biology

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“…Though the oceanic dispersal model and otolith analyses both indicated that some watersheds were better positioned to receive ocean‐going larvae than others, we found that the observed proportion of freshwater residents was not correlated with stream‐scale average or variation in larval settlement rates. This mismatch could reflect the simplifying assumptions of the model (Moody et al, 2019 ), such as equal input of larvae to the ocean from every stream, no postsettlement filters upon survival of recruiting postlarvae in streams (Hain et al, 2019 ), and no variation among streams in their capacity to attract marine larvae as they approach the shore. However, the stream‐level mismatch could also be unrelated to passive oceanic dispersal but instead reflect differences in the survival of resident larvae or the efficiency of delivering hatchling larvae to the coast.…”

Section: Discussionmentioning

confidence: 99%

“…The available surveys of mitochondrial haplotype variation suggest no geographic structure among islands or watersheds (Alda et al, 2016 ; Chubb et al, 1998 ), so alleles for either fixed residency or full plasticity could spread easily in A. stamineus . Invasive predatory fishes are common in most Hawaiian streams (Hain et al, 2019 ; Moody et al, 2017 ), and they could impose strong selection against freshwater residency. However, the resident strategy could yield high fitness in streams where the lack of predators creates a safe environment for all life stages.…”

Section: Discussionmentioning

confidence: 99%

Stream and ocean hydrodynamics mediate partial migration strategies in an amphidromous Hawaiian goby

Lisi

Hogan

Holt

et al. 2022

Ecology

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Partial migration strategies, in which some individuals migrate but others do not, are widely observed in populations of migratory animals. Such patterns could arise via variation in migratory behaviors made by individual animals, via genetic variation in migratory predisposition, or simply by variation in migration opportunities mediated by environmental conditions. Here we use spatiotemporal variation in partial migration across populations of an amphidromous Hawaiian goby to test whether stream or ocean conditions favor completing its life cycle entirely within freshwater streams rather than undergoing an oceanic larval migration. Across 35 watersheds, microchemical analysis of otoliths revealed that most adult Awaous stamineus were freshwater residents (62% of n = 316 in 2009, 83% of n = 274 in 2011), but we found considerable variation among watersheds. We then tested the hypothesis that the prevalence of freshwater residency increases with the stability of stream flows and decreases with the availability of dispersal pathways arising from ocean hydrodynamics. We found that streams with low variation of daily discharge were home to a higher incidence of freshwater residents in each survey year. The magnitude of the shift in freshwater residency between survey years was positively associated with predicted interannual variability in the success of larval settlement in streams on each island based on passive drift in ocean currents. We built on these findings by developing a theoretical model of goby life history to further evaluate whether mediation of migration outcomes by stream and ocean hydrodynamics could be sufficient to explain the range of partial migration frequency observed across populations. The model illustrates that the proportion of larvae entering the ocean and differential survival of freshwater-resident versus ocean-going larvae are plausible mechanisms for range-wide shifts in migration strategies. Thus, we propose that hydrologic variation in both ocean and stream environments contributes to spatiotemporal variation in the prevalence of migration phenotypes in A. stamineus. Our empirical and theoretical results suggest that the capacity for partial migration could

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“…As a result, their larvae are unaffected by in‐stream control measures while they are at sea, whereas the invasive fishes linked to their decline reside in streams throughout their life. Our model focusses on 'o'opu nōpili ( Sicyopterus stimpsoni ), an endemic freshwater goby, and invasive live‐bearing fishes (poeciliids, including guppies, mollies, mosquitofish and swordtails) that numerically dominate many invaded streams in Hawaii (Moody et al., 2017) and affect S. stimpsoni populations (Hain et al., 2019). We used field data and biological intuition to select plausible parameters for a generic stream network with a total length of 5 km and an average width of 2 m (Table S2).…”

Section: Case Study: Invasive Fishes In Hawaiian Streamsmentioning

confidence: 99%

Optimizing invader suppression to restore native species: Leveraging species traits to overcome collateral damage

Lambert,

McIntyre,

Moody

et al. 2023

Journal of Applied Ecology

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Strategies to control ongoing biological invasions are often developed by modelling the invasive species' population and aiming to reduce its abundance. However, if the ultimate objective is to protect and restore native species, focussing solely on the invader may not be optimal because it does not account for (i) species interactions that can cause the invader's impacts to depend nonlinearly on its abundance, (ii) collateral damages to native species incurred due to nonspecific removal methods or (iii) native‐invader trait differences. To identify an invader suppression strategy that maximizes average native population size, we applied optimal control theory to a two‐species model of a native species threatened by an invasive competitor. We examined trade‐offs between iterative physical removals that selectively target invaders and intensifiable chemical control that is nonselective but has higher efficacy. We found that while iterative removals were capable of supporting large native populations when applied continuously, cost could be prohibitively high. In contrast, when favourable native‐invader trait differences enabled native species to re‐establish more quickly than invaders, intensifiable methods could achieve substantial restoration benefits at lower cost by focussing removal effort into periodic, high‐efficacy events. In a metapopulation, removals that rotated among spatial patches were optimal when the native species had higher dispersal, whereas synchronous removals were preferred when native recovery was initiated locally and the invader could disperse. For a case study in Hawaiian streams, we compared how effective two alternative methods of removing invasive live‐bearing fishes (poeciliids) might be at restoring the endemic freshwater goby Sicyopterus stimpsoni. We found that rotenone (a piscicidal chemical) offered superior benefits when the control budget was small and efficacy was high, but that electrofishing (use of electricity to manually collect target fish) was better with larger budgets and in many lower‐efficacy scenarios. Synthesis and applications. Our findings demonstrate that, by accounting for species interactions and collateral damage, invasive species control strategies can be optimized in light of species traits. Choices about the timing, locations and types of removal events present opportunities to increase the efficiency with which invasive species suppression benefits native species.

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Migratory gauntlets on oceanic islands: Watershed disturbance increases the cost of amphidromy

Cited by 6 publications

References 54 publications

Migratory flexibility in native Hawai'ian amphidromous fishes

Migratory flexibility in native Hawai'ian amphidromous fishes

Stream and ocean hydrodynamics mediate partial migration strategies in an amphidromous Hawaiian goby

Optimizing invader suppression to restore native species: Leveraging species traits to overcome collateral damage

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