Tyler Pavlowich scite author profile

There is a knowledge gap in the ecological risk assessment of transgenic fish as to whether novel traits change their vulnerability to predation and thus their ability to establish themselves in nature. The U.S. commercialization of ornamental transgenic zebra danios Danio rerio and the approaching commercialization of other transgenic fish heighten the need for ecologically realistic models with which to address this question. Transgenic zebra danios with fluorescent body colors represent a good model system because marketed lines are likely to be released by hobby aquarists and it is relatively easy to study their interspecific interactions under nearly natural conditions. In experiments including habitat complexity, transgenic red‐fluorescent‐protein zebra danios were approximately twice as vulnerable as the wild type to predation by largemouth bass Micropterus salmoides and eastern mosquitofish Gambusia holbrooki, two native predators that potentially resist invasion by introduced fish. Increased predation vulnerability should decrease the risk of transgenics’ becoming established if other fitness‐related traits are equivalent in nature. The zebra danio model is ideal for further testing the generality of this result under more complex ecological conditions.

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Understanding spearfishing in a coral reef fishery: Fishers’ opportunities, constraints, and decision-making

Pavlowich

Kapuscinski

2017

PLoS ONE

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Social and ecological systems come together during the act of fishing. However, we often lack a deep understanding of the fishing process, despite its importance for understanding and managing fisheries. A quantitative, mechanistic understanding of the opportunities fishers encounter, the constraints they face, and how they make decisions within the context of opportunities and constraints will enhance the design of fisheries management strategies to meet linked ecological and social objectives and will improve scientific capacity to predict impacts of different strategies. We examined the case of spearfishing in a Caribbean coral reef fishery. We mounted cameras on fishers’ spearguns to observe the fish they encountered, what limited their ability to catch fish, and how they made decisions about which fish to target. We observed spearfishers who dove with and without the assistance of compressed air, and compared the fishing process of each method using content analysis of videos and decision models of fishers’ targeting selections. Compressor divers encountered more fish, took less time to catch each fish, and had a higher rate of successful pursuits. We also analyzed differences among taxa in this multispecies fishery, because some taxa are known to be ecologically or economically more valuable than others. Parrotfish are ecologically indispensable for healthy coral reefs, and they were encountered and captured more frequently than any other taxon. Fishers made decisions about which fish to target based on a fish’s market value, proximity to the fisher, and taxon. The information uncovered on fishers’ opportunities, constraints, and decision making has implications for managing this fishery and others. Moreover, it demonstrates the value of pursuing an improved understanding of the fishing process from the perspective of the fishers.

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Leveraging sex change in parrotfish to manage fished populations

Pavlowich

Webster

Kapuscinski

2018

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Healthy parrotfish (family Scaridae) communities fulfill the essential ecosystem process of herbivory in coral reefs, but artisanal fisheries that target parrotfish have degraded their populations. Outright bans and gear restrictions that do not allow parrotfish capture can effectively protect and restore parrotfish populations. As these management actions would be unfeasible in many places, options that allow some fishing but still encourage population rebuilding need to be considered. The life history of parrotfish complicates management decisions because they transition from a mostly female “initial phase” to an all-male “terminal phase.” Size-selective fishing on the largest fish can lead to unnaturally low proportions of males in a population, potentially leading to losses in reproduction. At the same time, these visually distinct life phases could present an opportunity to employ a type of catch restriction that would be easy to understand and monitor. We built an agent-based model of the stoplight parrotfish, Sparisoma viride, which included three possible mechanisms of life-phase transitioning, to predict how this species and others like it might react to catch restrictions based on life phase. We found that restricting catch to only terminal-phase (male) fish typically led to populations of greater abundance and biomass and less-disturbed life-phase ratio, compared to a similar fishing mortality applied to the whole population. This model result highlights a potentially important lesson for all exploited protogynous hermaphrodites: a robust population of initial-phase fish may be key to maximizing reproductive potential when the size at life-phase transition compensates for changes in population structure.

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The challenges of local governance: Gear-based fragmentation in the Dominican fishery of Buen Hombre

2016

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Tyler Pavlowich

Fluorescent Transgenic Zebra Danio More Vulnerable to Predators than Wild‐Type Fish

Understanding spearfishing in a coral reef fishery: Fishers’ opportunities, constraints, and decision-making

Leveraging sex change in parrotfish to manage fished populations

The challenges of local governance: Gear-based fragmentation in the Dominican fishery of Buen Hombre

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