800 results on '"Wainwright, Peter C."'
Search Results
2. Bioinspired tearing manipulation with a robotic fish
- Author
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Wang, Stanley J, Romero, Juan, Li, Monica S, Wainwright, Peter C, and Stuart, Hannah S
- Abstract
We present SunBot, a robotic system for the study and implementation of fish-inspired tearing manipulations. Various fish species-such as the sunburst butterflyfish-feed on prey fixed to substrates, a maneuver previously not demonstrated by robotic fish which typically specialize for open water swimming and surveillance. Biological studies indicate that a dynamic 'head flick' behavior may play a role in tearing off soft prey during such feeding. In this work, we study whether the robotic tail is an effective means to generate such head motions for ungrounded tearing manipulations in water. We describe the function of SunBot and compare the forces that it applies to a fixed prey in the lab while varying tail speeds and ranges of motion. A simplified dynamic template model for the tail-driven head flick maneuver matches peak force magnitudes from experiments, indicating that inertial effects of the fish's body play a substantial role. Finally, we demonstrate a tearing scenario and evaluate a free-swimming trial of SunBot - this is important to show that the actuator that enables swimming also provides the new dual purpose of forceful tearing manipulation.
- Published
- 2023
3. FishShapes v1: Functionally relevant measurements of teleost shape and size on three dimensions
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Price, Samantha A, Friedman, Sarah T, Corn, Katherine A, Larouche, Olivier, Brockelsby, Kasey, Lee, Anna J, Nagaraj, Maya, Bertrand, Nick G, Danao, Mailee, Coyne, Megan C, Estrada, John R, Friedman, Rachel, Hoeft, Evan, Iwan, Mikayla, Gross, Dominique, Kao, Jo Hsuan, Landry, Brian, Linares, Monica J, McGlinn, Carley, Nguyen, Jennifer A, Proffitt, Allison G, Rodriguez, Sierra, Rupp, Maxwell R, Shen, Erin Y, Susman, Victoria, Tovar, Angelly J, Vary, Laura LJ, Zapfe, Katerina L, and Wainwright, Peter C
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Animals ,Fishes ,Phenotype ,body depth ,body width ,caudal peduncle depth ,caudal peduncle width ,ecomorphology ,fishes ,head depth ,lower jaw length ,mouth width ,standard length ,Teleostei ,Ecological Applications ,Ecology ,Evolutionary Biology - Abstract
Teleost fishes account for 96% of all fish species and exhibit a spectacular variety of body forms. Teleost lineages range from deep bodied to elongate (e.g., eels, needlefish), laterally compressed (e.g., ribbonfish) to globular (e.g., pufferfish), and include uniquely shaped lineages such as seahorses, flatfishes, and ocean sunfishes. Adaptive body shape convergence within fishes has long been hypothesized but the nature of the relationships between fish form and ecological and environmental variables remain largely unknown at the macroevolutionary scale. To facilitate the investigation of the interacting factors influencing teleost body shape evolution we measured eight functionally relevant linear traits on adult-sized specimens along with specimen mass. Linear measurements of standard length, maximum body depth, maximum fish width, lower jaw length, mouth width, head depth, minimum caudal peduncle depth, and minimum caudal peduncle width were taken in millimeters with calipers, or tape measures for oversized specimens. We measured these traits on a total of 16,523 specimens (1-3 specimens per species) at the Smithsonian National Museum of Natural History and took approximately 7000 person hours of data collection to complete. The data went through a three-step error-checking process to clean and validate the data and then species averages were calculated. We present the complete specimen data set, which encompasses approximately one-fifth of extant teleost species diversity, spanning ~90% of teleost families and ~96% of orders. The species and family names are compatible with the taxonomy used by FishBase and the order information with the phylogenetically informed taxonomy of Betancur-R and colleagues published in 2014. This dataset is licensed under Creative Commons CC0 1.0 Universal (CC0 1.0) but please cite this paper when using the data or a subset of it.
- Published
- 2022
4. Alternating regimes of shallow and deep-sea diversification explain a species-richness paradox in marine fishes
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Miller, Elizabeth Christina, Martinez, Christopher M, Friedman, Sarah T, Wainwright, Peter C, Price, Samantha A, and Tornabene, Luke
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Life Below Water ,Animals ,Carbon ,Ecosystem ,Fishes ,Phylogeny ,Water ,fishes ,deep sea ,coral reefs ,ecological filters ,speciation rates - Abstract
The deep sea contains a surprising diversity of life, including iconic fish groups such as anglerfishes and lanternfishes. Still, >65% of marine teleost fish species are restricted to the photic zone
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- 2022
5. The rise of biting during the Cenozoic fueled reef fish body shape diversification
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Corn, Katherine A, Friedman, Sarah T, Burress, Edward D, Martinez, Christopher M, Larouche, Olivier, Price, Samantha A, and Wainwright, Peter C
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Environmental Sciences ,Biological Sciences ,Ecology ,Evolutionary Biology ,Animals ,Biological Evolution ,Coral Reefs ,Extinction ,Biological ,Feeding Behavior ,Fishes ,Male ,Somatotypes ,macroevolution ,suction feeding ,benthic grazing ,evolutionary rates ,RevBayes - Abstract
Diversity of feeding mechanisms is a hallmark of reef fishes, but the history of this variation is not fully understood. Here, we explore the emergence and proliferation of a biting mode of feeding, which enables fishes to feed on attached benthic prey. We find that feeding modes other than suction, including biting, ram biting, and an intermediate group that uses both biting and suction, were nearly absent among the lineages of teleost fishes inhabiting reefs prior to the end-Cretaceous mass extinction, but benthic biting has rapidly increased in frequency since then, accounting for about 40% of reef species today. Further, we measured the impact of feeding mode on body shape diversification in reef fishes. We fit a model of multivariate character evolution to a dataset comprising three-dimensional body shape of 1,530 species of teleost reef fishes across 111 families. Dedicated biters have accumulated over half of the body shape variation that suction feeders have in just 18% of the evolutionary time by evolving body shape ∼1.7 times faster than suction feeders. As a possible response to the ecological and functional diversity of attached prey, biters have dynamically evolved both into shapes that resemble suction feeders as well as novel body forms characterized by lateral compression and small jaws. The ascendance of species that use biting mechanisms to feed on attached prey reshaped modern reef fish assemblages and has been a major contributor to their ecological and phenotypic diversification.
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- 2022
6. Sit and survive: predation avoidance by cryptobenthic coral reef fishes
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Mihalitsis, Michalis, Bellwood, David R., and Wainwright, Peter C.
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- 2024
- Full Text
- View/download PDF
7. Reevaluating claims of ecological speciation in Halichoeres bivittatus
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Warren, Dan L, Eytan, Ron I, Dornburg, Alex, Iglesias, Teresa L, Brandley, Matthew C, and Wainwright, Peter C
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Biological Sciences ,Ecology ,Genetics ,Life Below Water ,Evolutionary Biology ,Evolutionary biology ,Ecological applications - Abstract
Allopatry has traditionally been viewed as the primary driver of speciation in marine taxa, but the geography of the marine environment and the larval dispersal capabilities of many marine organisms render this view somewhat questionable. In marine fishes, one of the earliest and most highly cited empirical examples of ecological speciation with gene flow is the slippery dick wrasse, Halichoeres bivittatus. Evidence for this cryptic or incipient speciation event was primarily in the form of a deep divergence in a single mitochondrial locus between the northern and southern Gulf of Mexico, combined with a finding that these two haplotypes were associated with different habitat types ("tropical" vs. "subtropical") in the Florida Keys and Bermuda, where they overlap. Here, we examine habitat assortment in the Florida Keys using a broader sampling of populations and habitat types than were available for the original study. We find no evidence to support the claim that haplotype frequencies differ between habitat types, and little evidence to support any differences between populations in the Keys. These results undermine claims of ecological speciation with gene flow in Halichoeres bivittatus. Future claims of this type should be supported by multiple lines of evidence that illuminate potential mechanisms and allow researchers to rule out alternative explanations for spatial patterns of genetic differences.
- Published
- 2021
8. The Effect of Locomotion Mode on Body Shape Evolution in Teleost Fishes
- Author
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Friedman, Sarah T, Price, Samantha A, and Wainwright, Peter C
- Abstract
Teleost fishes vary in their reliance on median and paired fins (MPF) or undulation of the body (BCF) to generate thrust during straight-line, steady swimming. Previous work indicates that swimming mode is associated with different body shapes, though this has never been empirically demonstrated across the diversity of fishes. As the body does not play as active a mechanical role in steady swimming by MPF swimmers, this may relax constraints and spur higher rates of body shape diversification. We test these predictions by measuring the impact of the dominant steady swimming mode on the evolution of body shape across 2295 marine teleost fishes. Aligning with historical expectations, BCF swimmers exhibit a more elongate, slender body shape, while MPF propulsion is associated with deeper and wider body shapes. However, in contrast to expectations, we find that BCF propulsion is associated with higher morphological diversity and greater variance around trait optima. This surprising result is consistent with the interpretation that stronger functional trade-offs stimulate phenotypic evolution, rather than constrain it.
- Published
- 2021
9. Constraints on the ecomorphological convergence of zooplanktivorous butterflyfishes
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Hodge, Jennifer R, Song, Yutong, Wightman, Molly A, Milkey, Analisa, Tran, Binh, Štajner, Anya, Roberts, Alexus S, Hemingson, Christopher R, Wainwright, Peter C, and Price, Samantha A
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Biological Sciences ,Evolutionary Biology ,Plant biology ,Zoology - Abstract
Whether distantly related organisms evolve similar strategies to meet the demands of a shared ecological niche depends on their evolutionary history and the nature of form-function relationships. In fishes, the visual identification and consumption of microscopic zooplankters, selective zooplanktivory, is a distinct type of foraging often associated with a suite of morphological specializations. Previous work has identified inconsistencies in the trajectory and magnitude of morphological change following transitions to selective zooplanktivory, alluding to the diversity and importance of ancestral effects. Here we investigate whether transitions to selective zooplanktivory have influenced the morphological evolution of marine butterflyfishes (family Chaetodontidae), a group of small-prey specialists well known for several types of high-precision benthivory. Using Bayesian ancestral state estimation, we inferred the recent evolution of zooplanktivory among benthivorous ancestors that hunted small invertebrates and browsed by picking or scraping coral polyps. Traits related to the capture of prey appear to be functionally versatile, with little morphological distinction between species with benthivorous and planktivorous foraging modes. In contrast, multiple traits related to prey detection or swimming performance are evolving toward novel, zooplanktivore-specific optima. Despite a relatively short evolutionary history, general morphological indistinctiveness, and evidence of constraint on the evolution of body size, convergent evolution has closed a near significant amount of the morphological distance between zooplanktivorous species. Overall, our findings describe the extent to which the functional demands associated with selective zooplanktivory have led to generalizable morphological features among butterflyfishes and highlight the importance of ancestral effects in shaping patterns of morphological convergence.
- Published
- 2021
10. Prolonged morphological expansion of spiny-rayed fishes following the end-Cretaceous
- Author
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Ghezelayagh, Ava, Harrington, Richard C., Burress, Edward D., Campbell, Matthew A., Buckner, Janet C., Chakrabarty, Prosanta, Glass, Jessica R., McCraney, W. Tyler, Unmack, Peter J., Thacker, Christine E., Alfaro, Michael E., Friedman, Sarah T., Ludt, William B., Cowman, Peter F., Friedman, Matt, Price, Samantha A., Dornburg, Alex, Faircloth, Brant C., Wainwright, Peter C., and Near, Thomas J.
- Published
- 2022
- Full Text
- View/download PDF
11. Size as a complex trait and the scaling relationships of its components across teleosts
- Author
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Alencar, Laura R. V., Hodge, Jennifer R., Friedman, Sarah T., Wainwright, Peter C., and Price, Samantha A.
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- 2022
- Full Text
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12. High-latitude ocean habitats are a crucible of fish body shape diversification
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Burns, Michael D, primary, Friedman, Sarah T, additional, Corn, Katherine A, additional, Larouche, Olivier, additional, Price, Samantha A, additional, Wainwright, Peter C, additional, and Burress, Edward D, additional
- Published
- 2024
- Full Text
- View/download PDF
13. Geography of speciation affects rate of trait divergence in haemulid fishes
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Tavera, José J and Wainwright, Peter C
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Emerging Infectious Diseases ,Animals ,Atlantic Ocean ,Biological Evolution ,Genetic Speciation ,Geography ,Life History Traits ,Pacific Ocean ,Perciformes ,Phenotype ,Phylogeny ,sympatry ,allopatry ,haemulidae ,character displacement ,trait evolution ,Biological Sciences ,Agricultural and Veterinary Sciences ,Medical and Health Sciences - Abstract
Speciation and the interactions between recently diverged species are thought to be major causes of ecological and morphological divergence in evolutionary radiations. Here, we explore the extent to which geographical overlap and time since speciation may promote divergence in marine species, which represent a small fraction of currently published studies about the patterns and processes of speciation. A time-calibrated molecular phylogeny of New World haemulid fishes, a major radiation of reef and shore fishes in the tropical West Atlantic and East Pacific, reveals 21 sister species pairs, of which eight are fully sympatric and 13 are allopatric. Sister species comparisons show a non-significant relation between most of the phenotypic traits and time since divergence in allopatric taxa. Additionally, we find no difference between sympatric and allopatric pairs in the rate of divergence in colour pattern, overall body shape, or functional morphological traits associated with locomotion or feeding. However, sympatric pairs show a significant decrease in the rate of divergence in all of these traits with increasing time since their divergence, suggesting an elevated rate of divergence at the time of speciation, the effect of which attenuates as divergence time increases. Our results are consistent with an important role for geographical overlap driving phenotypic divergence early in the speciation process, but the lack of difference in rates between sympatric and allopatric pairs indicates that the interactions between closely related species are not dominant drivers of this divergence.
- Published
- 2019
14. Reef fish functional traits evolve fastest at trophic extremes
- Author
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Borstein, Samuel R, Fordyce, James A, O’Meara, Brian C, Wainwright, Peter C, and McGee, Matthew D
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Climate Change Impacts and Adaptation ,Biological Sciences ,Ecology ,Environmental Management ,Evolutionary Biology ,Environmental Sciences ,Animals ,Biodiversity ,Biological Evolution ,Coral Reefs ,Diet ,Fishes ,Life History Traits ,Phylogeny ,Evolutionary biology ,Environmental management - Abstract
Trophic ecology is thought to exert a profound influence on biodiversity, but the specifics of the process are rarely examined at large spatial and evolutionary scales. We investigate how trophic position and diet breadth influence functional trait evolution in one of the most species-rich and complex vertebrate assemblages, coral reef fishes, within a large-scale phylogenetic framework. We show that, in contrast with established theory, functional traits evolve fastest in trophic specialists with narrow diet breadths at both very low and high trophic positions. Top trophic level specialists exhibit the most functional diversity, while omnivorous taxa with intermediate trophic positions and wide diet breadth have the least functional diversity. Our results reveal the importance of trophic position in shaping evolutionary dynamics while simultaneously highlighting the incredible trophic and functional diversity present in coral reef fish assemblages.
- Published
- 2019
15. Pectoral Dimorphism is a Pervasive Feature of Skate Diversity and Offers Insight into their Evolution
- Author
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Martinez, Christopher M, Kao, Bryan H, Sparks, John S, and Wainwright, Peter C
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Biological Sciences ,Ecology ,Evolutionary Biology ,Plant biology ,Zoology - Abstract
Mature skates (Batoidea: Rajoidei) display a unique form of sexual dimorphism in which males develop a concave anterior pectoral fin, giving them a bell-shaped appearance. Recent work has linked the male-specific transformation to differential skeletal development that is coincident with the rapid elongation of claspers, cartilage-supported intromittent organs. Still, little is known about the prevalence of pectoral dimorphism across skates or of interspecific variation in its expression. Here, we use various morphological approaches to broadly explore pectoral dimorphism in skates, with the goal of understanding its significance in their evolutionary history. We find that pectoral fin sexual dimorphism exists across skate diversity, positively identifying its presence in at least 131 species spanning 33 genera, approximately 40% of valid species. Further, we show that the nature of male-female shape change is largely consistent across species, but that it differs in its magnitude at a biologically meaningful scale. Finally, we use the pygmy skate Fenestraja plutonia as a case study to illustrate ontogenetic patterns in the development of pectoral fin dimorphism, additionally identifying sex-based differences in the pelvic girdle and jaw. Our work suggests that the diversity of pectoral dimorphism in skates is linked to comparative growth and maturation, and potentially to processes underlying reproductive and life history diversification within the group.
- Published
- 2019
16. Replicated Functional Evolution in Cichlid Adaptive Radiations.
- Author
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Martinez, Christopher M., Corn, Katherine A., Williamson, Sarah, Satterfield, Darien, Roberts-Hugghis, Alexus S., Barley, Anthony, Borstein, Samuel R., McGee, Matthew D., and Wainwright, Peter C.
- Subjects
ADAPTIVE radiation ,BIOLOGICAL evolution ,CICHLIDS ,MORPHOMETRICS ,RADIATION - Abstract
Adaptive radiations highlight the mechanisms by which species and traits diversify and the extent to which these patterns are predictable. We used 1,110 high-speed videos of suction feeding to study functional and morphological diversification in 300 cichlid species from three African Great Lake radiations of varying ages (Victoria, Malawi, and Tanganyika) and an older, spatially dispersed continental radiation in the Neotropics. Among African radiations, standing diversity was reflective of time. Morphological and functional variance in Lake Victoria, the youngest radiation, was a subset of that within Lake Malawi, which itself was nested within the older Tanganyikan radiation. However, functional diversity in Neotropical cichlids was often lower than that in Lake Tanganyika, despite being much older. These two radiations broadly overlapped, but each diversified into novel trait spaces not found in the youngest lake radiations. Evolutionary rates across radiations were inversely related to age, suggesting extremely rapid trait evolution at early stages, particularly in lake radiations. Despite this support for early bursts, other patterns of trait diversity were inconsistent with expectations of adaptive radiations. This work suggests that cichlid functional evolution has played out in strikingly similar fashion in different radiations, with contingencies eventually resulting in lineage-specific novelties. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
17. Feeding ecology underlies the evolution of cichlid jaw mobility
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Martinez, Christopher M, McGee, Matthew D, Borstein, Samuel R, and Wainwright, Peter C
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Biological Sciences ,Ecology ,Cichlid ,diet ,geometric morphometrics ,kinematics ,motion trajectory ,Evolutionary Biology ,Evolutionary biology - Abstract
The fish feeding apparatus is among the most diverse functional systems in vertebrates. While morphological and mechanical variations of feeding systems are well studied, we know far less about the diversity of the motions that they produce. We explored patterns of feeding movements in African cichlids from Lakes Malawi and Tanganyika, asking whether the degree of kinesis is associated with dietary habits of species. We used geometric morphometrics to measure feeding kinesis as trajectories of shape change, based on 326 high-speed videos in 56 species. Cranial morphology was significantly related to feeding movements, both of which were distributed along a dietary axis associated with prey evasiveness. Small-mouthed cichlids that feed by scraping algae and detritus from rocks had low kinesis strikes, while large-mouthed species that eat large, evasive prey (fishes and shrimps) generated the greatest kinesis. Despite having higher overall kinesis, comparisons of trajectory shape (linearity) revealed that cichlids that eat mobile prey also displayed more kinematically conserved, or efficient, feeding motions. Our work indicates that prey evasiveness is strongly related to the evolution of cichlid jaw mobility, suggesting that this same relationship may explain the origins and diversity of highly kinetic jaws that characterize the super-radiation of spiny-rayed fishes.
- Published
- 2018
18. Ecology shapes the evolutionary trade-off between predator avoidance and defence in coral reef butterflyfishes.
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Hodge, Jennifer R, Alim, Chidera, Bertrand, Nick G, Lee, Wesley, Price, Samantha A, Tran, Binh, and Wainwright, Peter C
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Animals ,Fishes ,Perciformes ,Anthozoa ,Predatory Behavior ,Ecology ,Coral Reefs ,Chaetodontidae ,constraint ,coral reef ecology ,evolutionary trade-off ,foraging strategy ,functional morphology ,phylogenetic comparative method ,predation risk ,social behaviour ,spines ,Ecological Applications ,Evolutionary Biology - Abstract
Antipredator defensive traits are thought to trade-off evolutionarily with traits that facilitate predator avoidance. However, complexity and scale have precluded tests of this prediction in many groups, including fishes. Using a macroevolutionary approach, we test this prediction in butterflyfishes, an iconic group of coral reef inhabitants with diverse social behaviours, foraging strategies and antipredator adaptations. We find that several antipredator traits have evolved adaptively, dependent primarily on foraging strategy. We identify a previously unrecognised axis of diversity in butterflyfishes where species with robust morphological defences have riskier foraging strategies and lack sociality, while species with reduced morphological defences feed in familiar territories, have adaptations for quick escapes and benefit from the vigilance provided by sociality. Furthermore, we find evidence for the constrained evolution of fin spines among species that graze solely on corals, highlighting the importance of corals, as both prey and structural refuge, in shaping fish morphology.
- Published
- 2018
19. Building trophic specializations that result in substantial niche partitioning within a young adaptive radiation.
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Hernandez, Luz Patricia, Adriaens, Dominique, Martin, Christopher H, Wainwright, Peter C, Masschaele, Bert, and Dierick, Manuel
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Jaw ,Animals ,Killifishes ,Feeding Behavior ,Phenotype ,Biological Evolution ,Cyprinodon ,adductor mandibulae ,durophagy ,functional morphology ,jaw ,lepidophagy ,scale-eating ,Cyprinodon ,Dental/Oral and Craniofacial Disease ,Biomedical Engineering ,Medical Physiology ,Anatomy & Morphology - Abstract
Dietary partitioning often accompanies the increased morphological diversity seen during adaptive radiations within aquatic systems. While such niche partitioning would be expected in older radiations, it is unclear how significant morphological divergence occurs within a shorter time period. Here we show how differential growth in key elements of the feeding mechanism can bring about pronounced functional differences among closely related species. An incredibly young adaptive radiation of three Cyprinodon species residing within hypersaline lakes in San Salvador Island, Bahamas, has recently been described. Characterized by distinct head shapes, gut content analyses revealed three discrete feeding modes in these species: basal detritivory as well as derived durophagy and lepidophagy (scale-feeding). We dissected, cleared and stained, and micro-CT scanned species to assess functionally relevant differences in craniofacial musculoskeletal elements. The widespread feeding mode previously described for cyprinodontiforms, in which the force of the bite may be secondary to the requisite dexterity needed to pick at food items, is modified within both the scale specialist and the durophagous species. While the scale specialist has greatly emphasized maxillary retraction, using it to overcome the poor mechanical advantage associated with scale-eating, the durophage has instead stabilized the maxilla. In all species the bulk of the adductor musculature is composed of AM A1. However, the combined masses of both adductor mandibulae (AM) A1 and A3 in the scale specialist were five times that of the other species, showing the importance of growth in functional divergence. The scale specialist combines plesiomorphic jaw mechanisms with both a hypertrophied AM A1 and a slightly modified maxillary anatomy (with substantial functional implications) to generate a bite that is both strong and allows a wide range of motion in the upper jaw, two attributes that normally tradeoff mechanically. Thus, a significant feeding innovation (scale-eating, rarely seen in fishes) may evolve based largely on allometric changes in ancestral structures. Alternatively, the durophage shows reduced growth with foreshortened jaws that are stabilized by an immobile maxilla. Overall, scale specialists showed the most divergent morphology, suggesting that selection for scale-biting might be stronger or act on a greater number of traits than selection for either detritivory or durophagy. The scale specialist has colonized an adaptive peak that few lineages have climbed. Thus, heterochronic changes in growth can quickly produce functionally relevant change among closely related species.
- Published
- 2018
20. Decoupled jaws promote trophic diversity in cichlid fishes
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Burress, Edward D., Martinez, Christopher M., and Wainwright, Peter C.
- Published
- 2020
21. Global ecological success of Thalassoma fishes in extreme coral reef habitats
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Fulton, Christopher J, Wainwright, Peter C, Hoey, Andrew S, and Bellwood, David R
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Climate Change Impacts and Adaptation ,Biological Sciences ,Ecology ,Environmental Management ,Environmental Sciences ,Life Below Water ,aspect ratio ,ecomorphology ,labriform ,macroecology ,specialization ,Evolutionary Biology ,Evolutionary biology ,Ecological applications - Abstract
Phenotypic adaptations can allow organisms to relax abiotic selection and facilitate their ecological success in challenging habitats, yet we have relatively little data for the prevalence of this phenomenon at macroecological scales. Using data on the relative abundance of coral reef wrasses and parrotfishes (f. Labridae) spread across three ocean basins and the Red Sea, we reveal the consistent global dominance of extreme wave-swept habitats by fishes in the genus Thalassoma, with abundances up to 15 times higher than any other labrid. A key locomotor modification-a winged pectoral fin that facilitates efficient underwater flight in high-flow environments-is likely to have underpinned this global success, as numerical dominance by Thalassoma was contingent upon the presence of high-intensity wave energy. The ecological success of the most abundant species also varied with species richness and the presence of congeneric competitors. While several fish taxa have independently evolved winged pectoral fins, Thalassoma appears to have combined efficient high-speed swimming (to relax abiotic selection) with trophic versatility (to maximize exploitation of rich resources) to exploit and dominate extreme coral reef habitats around the world.
- Published
- 2017
22. The Impact of Organismal Innovation on Functional and Ecological Diversification
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Wainwright, Peter C and Price, Samantha A
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Biological Sciences ,Evolutionary Biology ,Animals ,Biodiversity ,Biological Evolution ,Ecology ,Feeding Behavior ,Fishes ,Biochemistry and Cell Biology ,Zoology ,Evolutionary biology - Abstract
Innovations in organismal functional morphology are thought to be a major force in shaping evolutionary patterns, with the potential to drive adaptive radiation and influence the evolutionary prospects for lineages. But the evolutionary consequences of innovation are diverse and usually do not result in adaptive radiation. What factors shape the macroevolutionary impact of innovations? We assert that little is known in general about the macroevolutionary outcomes associated with functional innovations and we discuss a framework for studying biological innovations in an evolutionary context. Innovations are novel functional mechanisms that enhance organismal performance. The ubiquity of trade-offs in functional systems means that enhanced performance on one axis often occurs at the expense of performance on another axis, such that many innovations result in an exchange of performance capabilities, rather than an expansion. Innovations may open up new resources for exploitation but their consequences for functional and ecological diversification depend heavily on the adaptive landscape around these novel resources. As an example of a broader program that we imagine, we survey five feeding innovations in labrid fishes, an exceptionally successful and ecologically diverse group of reef fishes, and explore their impact on the rate of evolution of jaw functional morphology. All of the innovations provide performance enhancements and result in changes in patterns of resource use, but most are not associated with subsequent functional diversification or substantial ecological diversification. Because selection acts on a specific performance enhancement and not on the evolutionary potential of an innovation, the enhancement of diversity may be highly serendipitous. The macroevolutionary potential of innovations depends critically on the interaction between the performance enhancement and the ecological opportunity that is exposed.
- Published
- 2016
23. Replicated divergence in cichlid radiations mirrors a major vertebrate innovation.
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McGee, Matthew D, Faircloth, Brant C, Borstein, Samuel R, Zheng, Jimmy, Darrin Hulsey, C, Wainwright, Peter C, and Alfaro, Michael E
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Jaw ,Animals ,Cichlids ,Sequence Analysis ,DNA ,Feeding Behavior ,Adaptation ,Physiological ,Phylogeny ,Biological Evolution ,Biomechanical Phenomena ,evolutionary innovation ,kinematics ,ultraconserved elements ,Biological Sciences ,Agricultural and Veterinary Sciences ,Medical and Health Sciences - Abstract
Decoupling of the upper jaw bones--jaw kinesis--is a distinctive feature of the ray-finned fishes, but it is not clear how the innovation is related to the extraordinary diversity of feeding behaviours and feeding ecology in this group. We address this issue in a lineage of ray-finned fishes that is well known for its ecological and functional diversity--African rift lake cichlids. We sequenced ultraconserved elements to generate a phylogenomic tree of the Lake Tanganyika and Lake Malawi cichlid radiations. We filmed a diverse array of over 50 cichlid species capturing live prey and quantified the extent of jaw kinesis in the premaxillary and maxillary bones. Our combination of phylogenomic and kinematic data reveals a strong association between biting modes of feeding and reduced jaw kinesis, suggesting that the contrasting demands of biting and suction feeding have strongly influenced cranial evolution in both cichlid radiations.
- Published
- 2016
24. Sit and survive: predation avoidance by cryptobenthic coral reef fishes
- Author
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Mihalitsis, Michalis, primary, Bellwood, David R., additional, and Wainwright, Peter C., additional
- Published
- 2023
- Full Text
- View/download PDF
25. The influence of size on body shape diversification across Indo-Pacific shore fishes
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Friedman, Sarah T., Martinez, Christopher M., Price, Samantha A., and Wainwright, Peter C.
- Published
- 2019
26. Geography of speciation affects rate of trait divergence in haemulid fishes
- Author
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Tavera, José J. and Wainwright, Peter C.
- Published
- 2019
27. Adaptive radiation in labrid fishes : A central role for functional innovations during 65 My of relentless diversification
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Burress, Edward D. and Wainwright, Peter C.
- Published
- 2019
28. Identification of the notothenioid sister lineage illuminates the biogeographic history of an Antarctic adaptive radiation
- Author
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Near, Thomas J, Dornburg, Alex, Harrington, Richard C, Oliveira, Claudio, Pietsch, Theodore W, Thacker, Christine E, Satoh, Takashi P, Katayama, Eri, Wainwright, Peter C, Eastman, Joseph T, and Beaulieu, Jeremy M
- Subjects
Genetics ,Animals ,Antarctic Regions ,Evolution ,Molecular ,Fish Proteins ,Likelihood Functions ,Perciformes ,Phylogeny ,South America ,Ancestral range estimation ,Weddellian Province ,Notothenioidei ,Percomorpha - Abstract
BackgroundAntarctic notothenioids are an impressive adaptive radiation. While they share recent common ancestry with several species-depauperate lineages that exhibit a relictual distribution in areas peripheral to the Southern Ocean, an understanding of their evolutionary origins and biogeographic history is limited as the sister lineage of notothenioids remains unidentified. The phylogenetic placement of notothenioids among major lineages of perciform fishes, which include sculpins, rockfishes, sticklebacks, eelpouts, scorpionfishes, perches, groupers and soapfishes, remains unresolved. We investigate the phylogenetic position of notothenioids using DNA sequences of 10 protein coding nuclear genes sampled from more than 650 percomorph species. The biogeographic history of notothenioids is reconstructed using a maximum likelihood method that integrates phylogenetic relationships, estimated divergence times, geographic distributions and paleogeographic history.ResultsPercophis brasiliensis is resolved, with strong node support, as the notothenioid sister lineage. The species is endemic to the subtropical and temperate Atlantic coast of southern South America. Biogeographic reconstructions imply the initial diversification of notothenioids involved the western portion of the East Gondwanan Weddellian Province. The geographic disjunctions among the major lineages of notothenioids show biogeographic and temporal correspondence with the fragmentation of East Gondwana.ConclusionsThe phylogenetic resolution of Percophis requires a change in the classification of percomorph fishes and provides evidence for a western Weddellian origin of notothenioids. The biogeographic reconstruction highlights the importance of the geographic and climatic isolation of Antarctica in driving the radiation of cold-adapted notothenioids.
- Published
- 2015
29. Are 100 enough? Inferring acanthomorph teleost phylogeny using Anchored Hybrid Enrichment
- Author
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Eytan, Ron I, Evans, Benjamin R, Dornburg, Alex, Lemmon, Alan R, Lemmon, Emily Moriarty, Wainwright, Peter C, and Near, Thomas J
- Subjects
Genetics ,Animals ,Bayes Theorem ,Fishes ,High-Throughput Nucleotide Sequencing ,Multilocus Sequence Typing ,Phylogeny ,Ovalentaria ,Anchored hybrid enrichment ,Phylogenomics ,Cichlidae ,Blenniiformes ,Acanthomorpha ,Percomorpha ,Pholidichthys - Abstract
BackgroundThe past decade has witnessed remarkable progress towards resolution of the Tree of Life. However, despite the increased use of genomic scale datasets, some phylogenetic relationships remain difficult to resolve. Here we employ anchored phylogenomics to capture 107 nuclear loci in 29 species of acanthomorph teleost fishes, with 25 of these species sampled from the recently delimited clade Ovalentaria. Previous studies employing multilocus nuclear exon datasets have not been able to resolve the nodes at the base of the Ovalentaria tree with confidence. Here we test whether a phylogenomic approach will provide better support for these nodes, and if not, why this may be.ResultsAfter using a novel method to account for paralogous loci, we estimated phylogenies with maximum likelihood and species tree methods using DNA sequence alignments of over 80,000 base pairs. Several key relationships within Ovalentaria are well resolved, including 1) the sister taxon relationship between Cichlidae and Pholidichthys, 2) a clade containing blennies, grammas, clingfishes, and jawfishes, and 3) monophyly of Atherinomorpha (topminnows, flyingfishes, and silversides). However, many nodes in the phylogeny associated with the early diversification of Ovalentaria are poorly resolved in several analyses. Through the use of rarefaction curves we show that limited phylogenetic resolution among the earliest nodes in the Ovalentaria phylogeny does not appear to be due to a deficiency of data, as average global node support ceases to increase when only 1/3rd of the sampled loci are used in analyses. Instead this lack of resolution may be driven by model misspecification as a Bayesian mixed model analysis of the amino acid dataset provided good support for parts of the base of the Ovalentaria tree.ConclusionsAlthough it does not appear that the limited phylogenetic resolution among the earliest nodes in the Ovalentaria phylogeny is due to a deficiency of data, it may be that both stochastic and systematic error resulting from model misspecification play a role in the poor resolution at the base of the Ovalentaria tree as a Bayesian approach was able to resolve some of the deeper nodes, where the other methods failed.
- Published
- 2015
30. Reef-associated fishes have more maneuverable body shapes at a macroevolutionary scale
- Author
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Larouche, Olivier, Benton, Bailey, Corn, Katherine A., Friedman, Sarah T., Gross, Dominique, Iwan, Mikayla, Kessler, Brian, Martinez, Christopher M., Rodriguez, Sierra, Whelpley, Hannah, Wainwright, Peter C., and Price, Samantha A.
- Published
- 2020
- Full Text
- View/download PDF
31. Retinal topography maps in R: New tools for the analysis and visualization of spatial retinal data
- Author
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Cohn, Brian A, Collin, Shaun P, Wainwright, Peter C, and Schmitz, Lars
- Subjects
Biomedical and Clinical Sciences ,Ophthalmology and Optometry ,Eye Disease and Disorders of Vision ,Neurosciences ,Eye ,Animals ,Cell Count ,Humans ,Retina ,Spatial Processing ,Topography ,Medical ,retinal topography maps ,visual ecology ,retinal ganglion cells ,Retistruct ,retinal wholemount ,retinal flatmount ,thin plate spline ,visualization ,Medical and Health Sciences ,Psychology and Cognitive Sciences ,Experimental Psychology ,Ophthalmology and optometry - Abstract
Retinal topography maps are a widely used tool in vision science, neuroscience, and visual ecology, providing an informative visualization of the spatial distribution of cell densities across the retinal hemisphere. Here, we introduce Retina, an R package for computational mapping, inspection of topographic model fits, and generation of average maps. Functions in Retina take cell count data obtained from retinal wholemounts using stereology software. Accurate visualizations and comparisons between different eyes have been difficult in the past, because of deformation and incisions of retinal wholemounts. We account for these issues by incorporation of the R package Retistruct, which results in a retrodeformation of the wholemount into a hemispherical shape, similar to the original eyecup. The maps are generated by thin plate splines, after the data were transformed into a two-dimensional space with an azimuthal equidistant plot projection. Retina users can compute retinal topography maps independent of stereology software choice and assess model fits with a variety of diagnostic plots. Functionality of Retina also includes species average maps, an essential feature for interspecific analyses. The Retina package will facilitate rigorous comparative studies in visual ecology by providing a robust quantitative approach to generate retinal topography maps.
- Published
- 2015
32. How warm is too warm for the life cycle of actinopterygian fishes?
- Author
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Motani, Ryosuke and Wainwright, Peter C
- Subjects
Ovum ,Spermatozoa ,Animals ,Fishes ,Oxygen ,Temperature ,Spermatogenesis ,Embryonic Development ,Life Cycle Stages ,Larva ,Models ,Biological ,Female ,Male ,Models ,Biological ,Biochemistry and Cell Biology ,Other Physical Sciences - Abstract
We investigated the highest constant temperature at which actinopterygian fishes can complete their lifecycles, based on an oxygen supply model for cleavage-stage eggs. This stage is one of the most heat-sensitive periods during the lifecycle, likely reflecting the exhaustion of maternally supplied heat shock proteins without new production. The model suggests that average eggs would not develop normally under a constant temperature of about 36 °C or higher. This estimate matches published empirical values derived from laboratory and field observations. Spermatogenesis is more heat sensitive than embryogenesis in fishes, so the threshold may indeed be lower, at about 35 °C, unless actinopterygian fishes evolve heat tolerance during spermatogenesis as in birds. Our model also predicts an inverse relationship between egg size and temperature, and empirical data support this prediction. Therefore, the average egg size, and hence hatching size, is expected to shrink in a greenhouse world but a feeding function prohibits the survival of very small hatchlings, posing a limit to the shrinkage. It was once suggested that a marine animal community may be sustained under temperatures up to about 38 °C, and this value is being used, for example, in paleotemperature reconstruction. A revision of the value is overdue. (199/200).
- Published
- 2015
33. Complex histories of repeated gene flow in Cameroon crater lake cichlids cast doubt on one of the clearest examples of sympatric speciation.
- Author
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Martin, Christopher H, Cutler, Joseph S, Friel, John P, Dening Touokong, Cyrille, Coop, Graham, and Wainwright, Peter C
- Subjects
Animals ,Cichlids ,Genetics ,Population ,Phylogeny ,Genomic Library ,Cameroon ,Genetic Speciation ,Gene Flow ,Lakes ,Sympatry ,Reproductive Isolation ,Adaptive radiation ,RADseq ,admixture ,ecological speciation ,gene flow ,introgression ,magic trait ,next-generation sequencing ,population genomics ,Genetics ,Population ,Evolutionary Biology ,Ecology - Abstract
One of the most celebrated examples of sympatric speciation in nature are monophyletic radiations of cichlid fishes endemic to Cameroon crater lakes. However, phylogenetic inference of monophyly may not detect complex colonization histories involving some allopatric isolation, such as double invasions obscured by genome-wide gene flow. Population genomic approaches are better suited to test hypotheses of sympatric speciation in these cases. Here, we use comprehensive sampling from all four sympatric crater lake cichlid radiations in Cameroon and outgroups across Africa combined with next-generation sequencing to genotype tens of thousands of SNPs. We find considerable evidence of gene flow between all four radiations and neighboring riverine populations after initial colonization. In a few cases, some sympatric species are more closely related to outgroups than others, consistent with secondary gene flow facilitating their speciation. Our results do not rule out sympatric speciation in Cameroon cichlids, but rather reveal a complex history of speciation with gene flow, including allopatric and sympatric phases, resulting in both reproductively isolated species and incipient species complexes. The best remaining non-cichlid examples of sympatric speciation all involve assortative mating within microhabitats. We speculate that this feature may be necessary to complete the process of sympatric speciation in nature.
- Published
- 2015
34. Why are marine adaptive radiations rare in Hawai'i?
- Author
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Wainwright, Peter C
- Subjects
Biological Sciences ,Ecology ,Evolutionary Biology ,Genetics ,Adaptation ,Physiological ,Animals ,Gene Flow ,Perciformes ,adaptation ,fishes ,gene flow ,islands ,speciation ,Biological sciences - Abstract
Islands can be sites of dynamic evolutionary radiations, and the Hawaiian Islands have certainly given us a bounty of insights into the processes and mechanisms of diversification. Adaptive radiations in silverswords and honeycreepers have inspired a generation of biologists with evidence of rapid diversification that resulted in exceptional levels of ecological and morphological diversity. In this issue of Molecular Ecology, tiny waterfall-climbing gobies make a case for their place among Hawaiian evolutionary elite. Moody et al. (2015) present an analysis of gene flow and local adaptation in six goby populations on Kaua'i and Hawai'i measured in three consecutive years to try to disentangle the relative role of local adaptation and gene flow in shaping diversity within Sicyopterus stimpsoni. Their study shows that strong patterns of local selection result in streams with gobies adapted to local conditions in spite of high rates of gene flow between stream populations and no evidence for significant genetic population structure. These results help us understand how local adaptation and gene flow are balanced in gobies, but these fishes also offer themselves as a model that illustrates why adaptive diversification in Hawai'i's marine fauna is so different from the terrestrial fauna.
- Published
- 2015
35. Why is Madagascar special? The extraordinarily slow evolution of pelican spiders (Araneae, Archaeidae).
- Author
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Wood, Hannah M, Gillespie, Rosemary G, Griswold, Charles E, and Wainwright, Peter C
- Subjects
Animals ,Spiders ,Sequence Analysis ,DNA ,Ecosystem ,Phenotype ,Time Factors ,Madagascar ,Climate Change ,Biological Evolution ,Phylogeography ,Biogeography ,divergence time estimation ,paleoendemics ,phylogenetics ,trait diversification ,Evolutionary Biology ,Ecology - Abstract
Although Madagascar is an ancient fragment of Gondwana, the majority of taxa studied thus far appear to have reached the island through dispersal from Cenozoic times. Ancient lineages may have experienced a different history compared to more recent Cenozoic arrivals, as such lineages would have encountered geoclimatic shifts over an extended time period. The motivation for this study was to unravel the signature of diversification in an ancient lineage by comparing an area known for major geoclimatic upheavals (Madagascar) versus other areas where the environment has been relatively stable. Archaeid spiders are an ancient paleoendemic group with unusual predatory behaviors and spectacular trophic morphology that likely have been on Madagascar since its isolation. We examined disparities between Madagascan archaeids and their non-Madagascan relatives regarding timing of divergence, rates of trait evolution, and distribution patterns. Results reveal an increased rate of adaptive trait diversification in Madagascan archaeids. Furthermore, geoclimatic events in Madagascar over long periods of time may have facilitated high species richness due to montane refugia and stability, rainforest refugia, and also ecogeographic shifts, allowing for the accumulation of adaptive traits. This research suggests that time alone, coupled with more ancient geoclimatic events allowed for the different patterns in Madagascar.
- Published
- 2015
36. A Morphospace for Reef Fishes: Elongation Is the Dominant Axis of Body Shape Evolution
- Author
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Claverie, Thomas and Wainwright, Peter C
- Subjects
Animals ,Body Size ,Coral Reefs ,Ecosystem ,Evolution ,Molecular ,Fishes ,Phylogeny ,Species Specificity ,Tropical Climate ,General Science & Technology - Abstract
Tropical reef fishes are widely regarded as being perhaps the most morphologically diverse vertebrate assemblage on earth, yet much remains to be discovered about the scope and patterns of this diversity. We created a morphospace of 2,939 species spanning 56 families of tropical Indo-Pacific reef fishes and established the primary axes of body shape variation, the phylogenetic consistency of these patterns, and whether dominant patterns of shape change can be accomplished by diverse underlying changes. Principal component analysis showed a major axis of shape variation that contrasts deep-bodied species with slender, elongate forms. Furthermore, using custom methods to compare the elongation vector (axis that maximizes elongation deformation) and the main vector of shape variation (first principal component) for each family in the morphospace, we showed that two thirds of the families diversify along an axis of body elongation. Finally, a comparative analysis using a principal coordinate analysis based on the angles among first principal component vectors of each family shape showed that families accomplish changes in elongation with a wide range of underlying modifications. Some groups such as Pomacentridae and Lethrinidae undergo decreases in body depth with proportional increases in all body regions, while other families show disproportionate changes in the length of the head (e.g., Labridae), the trunk or caudal region in all combinations (e.g., Pempheridae and Pinguipedidae). In conclusion, we found that evolutionary changes in body shape along an axis of elongation dominates diversification in reef fishes. Changes in shape on this axis are thought to have immediate implications for swimming performance, defense from gape limited predators, suction feeding performance and access to some highly specialized habitats. The morphological modifications that underlie changes in elongation are highly diverse, suggesting a role for a range of developmental processes and functional consequences.
- Published
- 2014
37. Replicated Functional Evolution in Cichlid Adaptive Radiations
- Author
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Martinez, Christopher M., primary, Corn, Katherine A., additional, Williamson, Sarah, additional, Satterfield, Darien R., additional, Roberts-Hugghis, Alexus S., additional, Barley, Anthony, additional, Borstein, Samuel R., additional, McGee, Matthew D., additional, and Wainwright, Peter C., additional
- Published
- 2023
- Full Text
- View/download PDF
38. Extremely fast feeding strikes are powered by elastic recoil in a seahorse relative, the snipefish, Macroramphosus scolopax
- Author
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Longo, Sarah J., Goodearly, Tyler, and Wainwright, Peter C.
- Published
- 2018
39. How hummingbirds stay nimble on the wing
- Author
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Wainwright, Peter C.
- Published
- 2018
40. Functional basis of ecological divergence in sympatric stickleback
- Author
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McGee, Matthew D, Schluter, Dolph, and Wainwright, Peter C
- Abstract
Abstract Background The evolution of ecological divergence in closely related species is a key component of adaptive radiation. However, in most examples of adaptive radiation the mechanistic basis of ecological divergence remains unclear. A classic example is seen in the young benthic and limnetic stickleback species pairs of British Columbia. In each pair the benthic species feeds on littoral macroinvertebrates whereas the limnetic feeds on pelagic zooplankton. Previous studies indicate that in both short-term feeding trials and long-term enclosure studies, benthics and limnetics exhibit enhanced performance on their own resource but fare more poorly on the other species’ resource. We examined the functional basis of ecological divergence in the stickleback species pair from Paxton Lake, BC, using biomechanical models of fish feeding applied to morphological traits. We examined the consequences of morphological differences using high speed video of feeding fish. Results Benthic stickleback possess morphological traits that predict high suction generation capacity, including greatly hypertrophied epaxial musculature. In contrast, limnetic stickleback possess traits thought to enhance capture of evasive planktonic prey, including greater jaw protrusion than benthics and greater displacement advantage in both the lower jaw-opening lever system and the opercular four-bar linkage. Kinematic data support the expectations from the morphological analysis that limnetic stickleback exhibit faster strikes and greater jaw protrusion than benthic fish, whereas benthics exert greater suction force on attached prey. Conclusions We reveal a previously unknown suite of complex morphological traits that affect rapid ecological divergence in sympatric stickleback. These results indicate that postglacial divergence in stickleback involves many functional systems and shows the value of investigating the functional consequences of phenotypic divergence in adaptive radiation.
- Published
- 2013
41. Molecular and fossil evidence place the origin of cichlid fishes long after Gondwanan rifting
- Author
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Friedman, Matt, Keck, Benjamin P, Dornburg, Alex, Eytan, Ron I, Martin, Christopher H, Hulsey, C Darrin, Wainwright, Peter C, and Near, Thomas J
- Subjects
Animals ,Biological Evolution ,Cichlids ,Evolution ,Molecular ,Evolution ,Planetary ,Fish Proteins ,Fishes ,Fossils ,Molecular Sequence Data ,Phylogeny ,Polymerase Chain Reaction ,Sequence Analysis ,DNA ,biogeography ,dispersal ,fossil record ,molecular clock ,vicariance ,Biological Sciences ,Agricultural and Veterinary Sciences ,Medical and Health Sciences - Abstract
Cichlid fishes are a key model system in the study of adaptive radiation, speciation and evolutionary developmental biology. More than 1600 cichlid species inhabit freshwater and marginal marine environments across several southern landmasses. This distributional pattern, combined with parallels between cichlid phylogeny and sequences of Mesozoic continental rifting, has led to the widely accepted hypothesis that cichlids are an ancient group whose major biogeographic patterns arose from Gondwanan vicariance. Although the Early Cretaceous (ca 135 Ma) divergence of living cichlids demanded by the vicariance model now represents a key calibration for teleost molecular clocks, this putative split pre-dates the oldest cichlid fossils by nearly 90 Myr. Here, we provide independent palaeontological and relaxed-molecular-clock estimates for the time of cichlid origin that collectively reject the antiquity of the group required by the Gondwanan vicariance scenario. The distribution of cichlid fossil horizons, the age of stratigraphically consistent outgroup lineages to cichlids and relaxed-clock analysis of a DNA sequence dataset consisting of 10 nuclear genes all deliver overlapping estimates for crown cichlid origin centred on the Palaeocene (ca 65-57 Ma), substantially post-dating the tectonic fragmentation of Gondwana. Our results provide a revised macroevolutionary time scale for cichlids, imply a role for dispersal in generating the observed geographical distribution of this important model clade and add to a growing debate that questions the dominance of the vicariance paradigm of historical biogeography.
- Published
- 2013
42. Potential enhanced ability of giant squid to detect sperm whales is an exaptation tied to their large body size
- Author
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Schmitz, Lars, Motani, Ryosuke, Oufiero, Christopher E, Martin, Christopher H, McGee, Matthew D, and Wainwright, Peter C
- Abstract
Abstract It has been hypothesized that sperm whale predation is the driver of eye size evolution in giant squid. Given that the eyes of giant squid have the size expected for a squid this big, it is likely that any enhanced ability of giant squid to detect whales is an exaptation tied to their body size. Future studies should target the mechanism behind the evolution of large body size, not eye size. Reconstructions of the evolutionary history of selective regime, eye size, optical performance, and body size will improve the understanding of the evolution of large eyes in large ocean animals.
- Published
- 2013
43. Allometry indicates giant eyes of giant squid are not exceptional
- Author
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Schmitz, Lars, Motani, Ryosuke, Oufiero, Christopher E, Martin, Christopher H, McGee, Matthew D, Gamarra, Ashlee R, Lee, Johanna J, and Wainwright, Peter C
- Abstract
Abstract Background The eyes of giant and colossal squid are among the largest eyes in the history of life. It was recently proposed that sperm whale predation is the main driver of eye size evolution in giant squid, on the basis of an optical model that suggested optimal performance in detecting large luminous visual targets such as whales in the deep sea. However, it is poorly understood how the eye size of giant and colossal squid compares to that of other aquatic organisms when scaling effects are considered. Results We performed a large-scale comparative study that included 87 squid species and 237 species of acanthomorph fish. While squid have larger eyes than most acanthomorphs, a comparison of relative eye size among squid suggests that giant and colossal squid do not have unusually large eyes. After revising constants used in a previous model we found that large eyes perform equally well in detecting point targets and large luminous targets in the deep sea. Conclusions The eyes of giant and colossal squid do not appear exceptionally large when allometric effects are considered. It is probable that the giant eyes of giant squid result from a phylogenetically conserved developmental pattern manifested in very large animals. Whatever the cause of large eyes, they appear to have several advantages for vision in the reduced light of the deep mesopelagic zone.
- Published
- 2013
44. On the measurement of ecological novelty: scale-eating pupfish are separated by 168 my from other scale-eating fishes.
- Author
-
Martin, Christopher H and Wainwright, Peter C
- Subjects
Animals ,Killifishes ,Feeding Behavior ,Ecosystem ,Adaptation ,Biological ,Phylogeny ,Species Specificity ,Phenotype ,Time Factors ,Bahamas ,Female ,Male ,Genetic Speciation ,General Science & Technology - Abstract
The colonization of new adaptive zones is widely recognized as one of the hallmarks of adaptive radiation. However, the adoption of novel resources during this process is rarely distinguished from phenotypic change because morphology is a common proxy for ecology. How can we quantify ecological novelty independent of phenotype? Our study is split into two parts: we first document a remarkable example of ecological novelty, scale-eating (lepidophagy), within a rapidly-evolving adaptive radiation of Cyprinodon pupfishes on San Salvador Island, Bahamas. This specialized predatory niche is known in several other fish groups, but is not found elsewhere among the 1,500 species of atherinomorphs. Second, we quantify this ecological novelty by measuring the time-calibrated phylogenetic distance in years to the most closely-related species with convergent ecology. We find that scale-eating pupfish are separated by 168 million years of evolution from the nearest scale-eating fish. We apply this approach to a variety of examples and highlight the frequent decoupling of ecological novelty from phenotypic divergence. We observe that novel ecology is not always tightly correlated with rates of phenotypic or species diversification, particularly within recent adaptive radiations, necessitating the use of additional measures of ecological novelty independent of phenotype.
- Published
- 2013
45. Deep sea evolution: Glowing lures, parasitic males and rapid speciation in anglerfishes.
- Author
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Wainwright, Peter C.
- Subjects
- *
ANGLERFISHES , *ADAPTIVE radiation , *MALES , *IMMUNE system - Abstract
Anglerfish are creatures of the deep ocean, featuring glowing lures, huge, toothy mouths and parasitic males physically attached to females. A new study finds that genomic degradation of the immune system facilitated the origin of parasitic males as anglerfishes invaded the deep zone where they experienced an adaptive radiation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
46. Discordance between Morphological and Mechanical Diversity in the Feeding Mechanism of Centrarchid Fishes
- Author
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Collar, David C. and Wainwright, Peter C.
- Published
- 2006
47. The Effects of Acute Temperature Change on Prey Capture Kinematics in Largemouth Bass, Micropterus salmoides
- Author
-
Wainwright, Peter C.
- Published
- 2006
48. Testing for Different Rates of Continuous Trait Evolution Using Likelihood
- Author
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O'Meara, Brian C., Ané, Cécile, Sanderson, Michael J., and Wainwright, Peter C.
- Published
- 2006
49. Nocturnality constrains morphological and functional diversity in the eyes of reef fishes
- Author
-
Schmitz, Lars and Wainwright, Peter C
- Abstract
Abstract Background Ambient light levels are often considered to drive the evolution of eye form and function. Diel activity pattern is the main mechanism controlling the visual environment of teleost reef fish, with day-active (diurnal) fish active in well-illuminated conditions, whereas night-active (nocturnal) fish cope with dim light. Physiological optics predicts several specific evolutionary responses to dim-light vision that should be reflected in visual performance features of the eye. Results We analyzed a large comparative dataset on morphological traits of the eyes in 265 species of teleost reef fish in 43 different families. The eye morphology of nocturnal reef teleosts is characterized by a syndrome that indicates better light sensitivity, including large relative eye size, high optical ratio and large, rounded pupils. Improved dim-light image formation comes at the cost of reduced depth of focus and reduction of potential accommodative lens movement. Diurnal teleost reef fish, released from the stringent functional requirements of dim-light vision have much higher morphological and optical diversity than nocturnal species, with large ranges of optical ratio, depth of focus, and lens accommodation. Conclusions Physical characteristics of the environment are an important factor in the evolution and diversification of the vertebrate eye. Both teleost reef fish and terrestrial amniotes meet the functional requirements of dim-light vision with a similar evolutionary response of morphological and optical modifications. The trade-off between improved dim-light vision and reduced optical diversity may be a key factor in explaining the lower trophic diversity of nocturnal reef teleosts.
- Published
- 2011
50. Fossil Calibrations and Molecular Divergence Time Estimates in Centrarchid Fishes (Teleostei: Centrarchidae)
- Author
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Near, Thomas J., Bolnick, Daniel I., and Wainwright, Peter C.
- Published
- 2005
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