5 research outputs found

    Bridging Research and Education: A Look into the Evolutionary History of Batfishes and How Museum Exhibits Can be Used to Engage the Public

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    The objective of this thesis was not only to contribute to our understanding of batfishes but to also show interesting and educational ways research can be presented to the general public. The first part of this project examines the evolutionary history of batfishes. Batfishes (Ogcocephalidae) are an understudied, group of marine anglerfishes that are dorsoventrally flattened and have an illicium and esca used to attract prey. Relationships among these taxa, as well as the position of Ogcocephalidae within Lophiiformes, remain poorly understood, with previous studies showing conflicting, and poorly resolved results. The timing of divergence and depth of origination in the water column have also not been explored in any detail. In this study, a concatenated nuclear and mitochondrial dataset was constructed across several anglerfish families to elucidate phylogenetic relationships among all batfish genera, to clarify the placement of Ogcocephaloidei within Lophiiformes, and to estimate divergence times using fossil calibrations. An ancestral state reconstruction was also conducted to examine the history of shifts in preferred habitat depths within batfishes. Phylogenetic analyses supported monophyly of each sub-order within Lophiiformes, and placed Ogcocephaloidei as the sister group to Antennarioidei. Batfish genera were divided into an Eastern Pacific/Western Atlantic clade and an Indo-Pacific clade; Halieutaea was recovered as the sister group to all other batfishes. Based on divergence time estimations and ancestral state reconstructions, Ogcocephalidae is Eocene/Paleocene in age and likely originated on the lower continental shelf/upper continental slope. To bring elements of the batfish research into public outreach, I contributed to the LSU Museum of Natural Science’s stand alone fish exhibit book, “Making a Big Splash with Louisiana Fishes,” which aimed to complement the concepts discussed in the exhibit in an engaging way. In addition to the text included in the exhibit, the book also incorporates ten kids’ activities, a short story for kids, ABCs of Louisiana, and a short guide to Louisiana fishes. Museum exhibits are a great way to incorporate research into public outreach. They not only enrich the surrounding community, but also contribute to an overall understanding of the importance and nature of scientific research

    Making a Big Splash with Louisiana Fishes

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    This book is a companion piece to Making a Big Splash with Louisiana Fishes, an exhibit created in 2012 at Louisiana State University’s Museum of Natural Science (MNS)https://digitalcommons.lsu.edu/spmns/1002/thumbnail.jp

    Examining evolutionary relationships and shifts in depth preferences in batfishes (Lophiiformes: Ogcocephalidae)

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    © 2014 Elsevier Inc. Batfishes (Ogcocephalidae) are an understudied, group of marine anglerfishes that are dorsoventrally flattened and have an illicium and esca (terminal lure) used to attract prey. The family contains 10 genera and 75 recognized species from nearly all tropical and subtropical seas. Relationships among these taxa, as well as the position of Ogcocephalidae within Lophiiformes, remain poorly understood with previous studies showing conflicting, and poorly resolved results. The timing of divergence and depth of origination in the water column have also not been explored in any detail. In this study a concatenated nuclear (three genes) and mitochondrial (two genes) dataset was constructed across several anglerfish families to elucidate phylogenetic relationships among all ten batfish genera, to clarify the placement of Ogcocephaloidei within Lophiiformes, and to estimate divergence times using fossil calibrations. An ancestral state reconstruction was also conducted to examine the history of shifts in preferred habitat depths within batfishes. Phylogenetic analyses supported monophyly of each sub-order within Lophiiformes and placed Ogcocephaloidei as the sister group to Antennarioidei. Batfish genera were divided into an Eastern Pacific/Western Atlantic clade and an Indo-Pacific clade; Halieutaea was recovered as the sister group to all other batfishes. Based on divergence time estimations and ancestral state reconstructions of preferred depth, Ogcocephalidae is Eocene in age and originated on the lower continental shelf/upper continental slope (disphotic zone)

    Using community phylogenetics to assess phylogenetic structure in the fitzcarrald region of Western Amazonia

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    © 2020 The Authors. Di versity and Distributions Published by SBI. Here we explore the use of community phylogenetics as a tool to document patterns of biodiversity in the Fitzcarrald region, a remote area in Southwestern Amazonia. For these analyses, we subdivide the region into basin-wide assemblages encompassing the headwaters of four Amazonian tributaries (Urubamba, Yuruá, Purús and Las Piedras basins), and habitat types: river channels, terra firme (non-floodplain) streams, and floodplain lakes. We present a robust, well-documented collection of fishes from the region including 272 species collected from 132 field sites over 63 field days and four years, comprising the most extensive collection of fishes from this region to date. We conduct a preliminary community phylogenetic analysis based on this collection and recover results largely statistically indistinguishable from the random expectation, with only a few instances of phylogenetic structure. Based on these results, and of those published in other recent biogeographic studies, we conclude that the Fitzcarrald fish species pool accumulated over a period of several million years, plausibly as a result of dispersal from the larger species pool of Greater Amazonia
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