18 results on '"Reznick, David N."'
Search Results
2. Life-History Evolution in Guppies (Poecilia reticulata: Poeciliidae). IV. Parallelism in Life-History Phenotypes
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Reznick, David N., Rodd, F. Helen, and Cardenas, Michael
- Published
- 1996
3. Adaptation in a variable environment: Phenotypic plasticity and bet-hedging during egg diapause and hatching in an annual killifish
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Furness, Andrew I., Lee, Kevin, and Reznick, David N.
- Published
- 2015
4. Experimental Evidence for Density-Dependent Regulation and Selection on Trinidadian Guppy Life Histories
- Author
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Bassar, Ronald D., Lopez-Sepulcre, Andres, Reznick, David N., and Travis, Joseph
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- 2013
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5. Direct and Indirect Ecosystem Effects of Evolutionary Adaptation in the Trinidadian Guppy ( Poecilia reticulata )
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Bassar, Ronald D., Ferriere, Regis, López-Sepulcre, Andrés, Marshall, Michael C., Travis, Joseph, Pringle, Catherine M., and Reznick, David N.
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- 2012
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6. Widespread intraspecific organismal stoichiometry among populations of the Trinidadian guppy
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El-Sabaawi, Rana W., Zandonà, Eugenia, Kohler, Tyler J., Marshall, Michael C., Moslemi, Jennifer M., Travis, Joseph, López-Sepulcre, Andrés, Ferriére, Regis, Pringle, Catherine M., Thomas, Steven A., Reznick, David N., and Flecker, Alexander S.
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- 2012
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7. CONVERGENCE OF LIFE-HISTORY PHENOTYPES IN A TRINIDADIAN KILLIFISH (RIVULUS HARTII)
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Furness, Andrew I., Walsh, Matthew R., and Reznick, David N.
- Published
- 2012
8. Local Adaptation in Trinidadian Guppies Alters Ecosystem Processes
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Bassar, Ronald D., Marshall, Michael C., López-Sepulcre, Andrés, Zandonà, Eugenia, Auer, Sonya K., Travis, Joseph, Pringle, Catherine M., Flecker, Alexander S., Thomas, Steven A., Fraser, Douglas F., Reznick, David N., and Post, Eric
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- 2010
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9. Habitat Predicts Reproductive Superfetation and Body Shape in the Livebearing Fish Poeciliopsis turrubarensis
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Zúñiga-Vega, J. Jaime, Reznick, David N., and Johnson, Jerald B.
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- 2007
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10. The developmental and genetic trajectory of coloration in the guppy (Poecilia reticulata).
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Dick, Cynthia, Arendt, Jeff, Reznick, David N., and Hayashi, Cheryl Y.
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GUPPIES ,PHENOTYPES ,FINS (Anatomy) ,CAROTENOIDS ,ANIMAL coloration ,GENE expression - Abstract
Examining the association between trait variation and development is crucial for understanding the evolution of phenotypic differences. Male guppy ornamental caudal fin coloration is one trait that shows a striking degree of variation within and between guppy populations. Males initially have no caudal fin coloration, then gradually develop it as they reach sexual maturity. For males, there is a trade‐off between female preference for caudal fin coloration and increased visibility to predators. This trade‐off may reach unique endpoints in males from different predation regimes. Caudal fin coloration includes black melanin, orange/yellow pteridines or carotenoids, and shimmering iridescence. This study examined the phenotypic trajectory and genetics associated with color development. We found that black coloration always developed first, followed by orange/yellow, then iridescence. The ordering and timing of color appearance was the same regardless of predation regime. The increased expression of melanin synthesis genes correlated well with the visual appearance of black coloration, but there was no correlation between carotenoids or pteridine synthesis gene expression and the appearance of orange/yellow. The lack of orange/yellow coloration in earlier male caudal fin developmental stages may be due to reduced expression of genes underlying the development of orange/yellow xanthophores. [ABSTRACT FROM AUTHOR]
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- 2018
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11. Convergent evolution of coloration in experimental introductions of the guppy (Poecilia reticulata).
- Author
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Dick, Cynthia, Hinh, Jasmine, Hayashi, Cheryl Y., and Reznick, David N.
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GUPPIES ,COLOR of fish ,PHENOTYPES ,GENE expression in fishes ,NUCLEOTIDE sequence - Abstract
Abstract: Despite the multitude of examples of evolution in action, relatively fewer studies have taken a replicated approach to understand the repeatability of evolution. Here, we examine the convergent evolution of adaptive coloration in experimental introductions of guppies from a high‐predation (HP) environment into four low‐predation (LP) environments. LP introductions were replicated across 2 years and in two different forest canopy cover types. We take a complementary approach by examining both phenotypes and genetics. For phenotypes, we categorize the whole color pattern on the tail fin of male guppies and analyze evolution using a correspondence analysis. We find that coloration in the introduction sites diverged from the founding Guanapo HP site. Sites group together based on canopy cover, indicating convergence in response to light environment. However, the axis that explains the most variation indicates a lack of convergence. Therefore, evolution may proceed along similar phenotypic trajectories, but still maintain unique variation within sites. For the genetics underlying the divergent phenotypes, we examine expression levels of color genes. We find no evidence for differential expression, indicating that the genetic basis for the color changes remains undetermined. [ABSTRACT FROM AUTHOR]
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- 2018
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12. Gene Flow Constrains and Facilitates Genetically Based Divergence in Quantitative Traits.
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Fitzpatrick, Sarah W., Handelsman, Corey A., Torres-Dowdall, Julian, Ruell, Emily W., Broder, E. Dale, Kronenberger, John A., Reznick, David N., Ghalambor, Cameron K., Angeloni, Lisa M., and Funk, W. Chris
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GENE flow ,POPULATION genetics ,PHENOTYPES ,GUPPIES ,EVOLUTIONARY theories ,SPATIOTEMPORAL processes - Abstract
Theory predicts that gene flow will decrease phenotypic differences among populations. Correlational studies have in some cases documented constraining effects of gene flow on phenotypic divergence and/or have also provided evidence for local differentiation despite high gene flow. However, correlative studies are unable to evaluate how gene flow affects genetically based phenotypic divergence or the extent to which gene flow constrains adaptive divergence. Translocation experiments using Trinidadian guppies provided an opportunity to test the effects of new gene flow on quantitative traits in native recipient populations. We measured a suite of traits in guppies reared in common garden environments before and multiple generations following gene flow from guppies that originated from a different environment. We interpreted our results in light of a priori predictions based on evolutionary theory and extensive background information about guppies and our focal populations. Although we could not include a spatiotemporal control that would allow us to be certain that the observed changes were directly caused by gene flow, we found that post-gene flow populations showed genetically based shifts in most traits. Whether traits shifted in predicted adaptive directions or whether they became more or less similar to the source population depended on the trait and initial conditions of the population. Our study provided a rare opportunity to test how recent gene flow affects genetically based changes in traits with known adaptive significance, and our results attest to the complex interactions between gene flow and selection. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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13. Local adaptation of fish consumers alters primary production through changes in algal community composition and diversity.
- Author
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Bassar, Ronald D., Bryan, Brynne L., Marshall, Michael C., Pringle, Catherine M., Reznick, David N., and Travis, Joseph
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ANIMAL adaptation ,ALGAE ,BIODIVERSITY ,POECILIA ,GUPPIES ,PHENOTYPES ,FISH evolution - Abstract
Ecological research has focused on understanding how changes in consumer abundance affects community structure and ecosystem processes. However, there is increasing evidence that evolutionary changes in consumers can also alter community structure and ecosystem processes. Typically, the effects of consumer phenotype on communities and ecosystem processes are measured as net effects that integrate numerous ecological pathways. Here, we analyze new data from experimental manipulations of Trinidadian guppy Poecilia reticulata presence, density and phenotype to examine how effects on the algal community cause changes in gross-primary production (GPP). We combine analytical tools borrowed from path analysis with experimental exclosures in mesocosms to separate the ecological and evolutionary effects of guppies into direct and indirect components. We show that the evolutionary effects of guppy phenotype act through different ecological pathways than the effects of guppy presence and density on GPP. As reported in previous studies that used a different measure of algal biomass, adding guppies and doubling their densities decreased algal biovolume through direct effects. In contrast to these previously reported results, exchanging guppy phenotypes that live without predators for phenotypes that live with predators did not affect algal biovolume. Instead, guppies from populations that live with predators increased the diversity of algal species and increased GPP compared to guppies that live without predators. These changes in the algal community were driven primarily by guppy phenotypes that live with predators-algal communities in mesocosms without fish were similar to those with guppies from predator-free locations, but both were different from mesocosms with guppies from populations that live with predators. Changes in the algal community were driven directly by differences in foraging behavior between the two consumer phenotypes. We reconcile these results with our previous findings, thereby enhancing our understanding of the relationship between ecological and evolutionary processes. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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14. Reproductive mode and the shifting arenas of evolutionary conflict.
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Furness, Andrew I., Morrison, Keenan R., Orr, Teri J., Arendt, Jeff D., and Reznick, David N.
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ARENAS ,PHENOTYPES ,BIOLOGICAL evolution ,GENETICS ,ORGANISMS ,ANIMAL reproduction - Abstract
In sexually reproducing organisms, the genetic interests of individuals are not perfectly aligned. Conflicts among family members are prevalent since interactions involve the transfer of limited resources between interdependent players. Intrafamilial conflict has traditionally been considered along three major axes: between the sexes, between parents and offspring, and between siblings. In these interactions, conflict is expected over traits in which the resulting phenotypic value is determined by multiple family members who have only partially overlapping fitness optima. We focus on four major categories of animal reproductive mode (broadcast spawning, egg laying, live bearing, and live bearing with matrotrophy) and identify the shared phenotypes or traits over which conflict is expected, and then review the empirical literature for evidence of their occurrence. Major transitions among reproductive mode, such as a shift from external to internal fertilization, an increase in egg-retention time, modifications of embryos and mothers for nutrient transfer, the evolution of postnatal parental care, and increased interaction with the kin network, mark key shifts that both change and expand the arenas in which conflict is played out. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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15. Non-adaptive plasticity potentiates rapid adaptive evolution of gene expression in nature.
- Author
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Ghalambor, Cameron K., Hoke, Kim L., Ruell, Emily W., Fischer, Eva K., Reznick, David N., and Hughes, Kimberly A.
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PHENOTYPIC plasticity ,GENE expression ,GENOTYPE-environment interaction ,PHENOTYPES ,GUPPIES ,CICHLIDS ,BIOLOGICAL divergence ,EVOLUTION research - Abstract
Phenotypic plasticity is the capacity for an individual genotype to produce different phenotypes in response to environmental variation. Most traits are plastic, but the degree to which plasticity is adaptive or non-adaptive depends on whether environmentally induced phenotypes are closer or further away from the local optimum. Existing theories make conflicting predictions about whether plasticity constrains or facilitates adaptive evolution. Debate persists because few empirical studies have tested the relationship between initial plasticity and subsequent adaptive evolution in natural populations. Here we show that the direction of plasticity in gene expression is generally opposite to the direction of adaptive evolution. We experimentally transplanted Trinidadian guppies (Poecilia reticulata) adapted to living with cichlid predators to cichlid-free streams, and tested for evolutionary divergence in brain gene expression patterns after three to four generations. We find 135 transcripts that evolved parallel changes in expression within the replicated introduction populations. These changes are in the same direction exhibited in a native cichlid-free population, suggesting rapid adaptive evolution. We find 89% of these transcripts exhibited non-adaptive plastic changes in expression when the source population was reared in the absence of predators, as they are in the opposite direction to the evolved changes. By contrast, the remaining transcripts exhibiting adaptive plasticity show reduced population divergence. Furthermore, the most plastic transcripts in the source population evolved reduced plasticity in the introduction populations, suggesting strong selection against non-adaptive plasticity. These results support models predicting that adaptive plasticity constrains evolution, whereas non-adaptive plasticity potentiates evolution by increasing the strength of directional selection. The role of non-adaptive plasticity in evolution has received relatively little attention; however, our results suggest that it may be an important mechanism that predicts evolutionary responses to new environments. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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16. Intraspecific phenotypic differences in fish affect ecosystem processes as much as bottom-up factors.
- Author
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El‐Sabaawi, Rana W., Bassar, Ronald D., Rakowski, Chase, Marshall, Michael C., Bryan, Brynne L., Thomas, Steven N., Pringle, Catherine, Reznick, David N., and Flecker, Alexander S.
- Subjects
ECOLOGY ,PHENOTYPES ,COMPETITION (Biology) ,NUTRIENT cycles ,INVERTEBRATES ,FOREST litter - Abstract
Evolution of life history traits can occur rapidly and has the potential to influence ecological processes, which can also be shaped by abiotic and biotic factors. Few studies have shown that life history phenotype can affect ecological processes as much as commonly studied biotic ecological variables, but currently we do not know how the ecological effects of life history phenotype compare in size to the effects of abiotic factors, or whether the ecological effects of phenotypes are sensitive to variability in abiotic conditions. Using a factorial mesocosm experiment we compared the ecosystem effects of guppy Poecilia reticulata life history phenotypes in two light treatments representing a four-fold difference in light levels, which was comparable to upstream downstream differences in light availability in Trinidadian streams. Light and phenotype had significant effects on similar aspects of ecosystem function. Whereas light had a stronger effect on ecosystem structure (algal and invertebrate stocks) than phenotype, phenotype and light had nearly equal effects on many ecosystem processes (nutrient recycling, nutrient fluxes, ecosystem metabolism and leaf litter decomposition). Light had a stronger effect on most guppy life history traits and guppy fitness than differences between phenotypes. The effect of light on these traits was consistent with higher availability of food resources in the high light treatments. Interactions between light and phenotype were weak for the majority of response variables suggesting that abiotic variability did not alter the mechanisms by which phenotypes affect ecosystem function. We conclude that subtle phenotypic differences in consumers can affect ecosystem processes as much as meaningful variability in abiotic factors which until recently were thought to be the primary drivers of ecosystem function in nature. However, despite its effects on traits and the ecosystem, light did not alter the effect of guppy phenotype on ecosystem function. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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17. Reproductive mode and the shifting arenas of evolutionary conflict.
- Author
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Furness, Andrew I., Morrison, Keenan R., Orr, Teri J., Arendt, Jeff D., and Reznick, David N.
- Subjects
BIOLOGICAL evolution ,REPRODUCTION ,PHENOTYPES ,FERTILIZATION (Biology) ,OVIPARITY ,SIBLICIDE in animals - Abstract
In sexually reproducing organisms, the genetic interests of individuals are not perfectly aligned. Conflicts among family members are prevalent since interactions involve the transfer of limited resources between interdependent players. Intrafamilial conflict has traditionally been considered along three major axes: between the sexes, between parents and offspring, and between siblings. In these interactions, conflict is expected over traits inwhich the resulting phenotypic value is determined by multiple family members who have only partially overlapping fitness optima. We focus on four major categories of animal reproductive mode (broadcast spawning, egg laying, live bearing, and live bearing with matrotrophy) and identify the shared phenotypes or traits over which conflict is expected, and then review the empirical literature for evidence of their occurrence. Major transitions among reproductive mode, such as a shift from external to internal fertilization, an increase in egg-retention time, modifications of embryos and mothers for nutrient transfer, the evolution of postnatal parental care, and increased interaction with the kin network, mark key shifts that both change and expand the arenas in which conflict is played out. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
18. Fine-scale local adaptation in life histories along a continuous environmental gradient in Trinidadian guppies.
- Author
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Torres Dowdall, Julián, Handelsman, Corey A., Ruell, Emily W., Auer, Sonya K., Reznick, David N., and Ghalambor, Cameron K.
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BIOLOGICAL adaptation ,GUPPIES ,BIOLOGICAL evolution ,MATHEMATICAL models ,ENVIRONMENTAL impact analysis ,PHENOTYPES - Abstract
1. Theoretical models of life-history evolution predict a continuum of fast to slow life histories, yet most of empirical support for this theory comes from studies that have considered dichotomous environments (i.e. high vs. low food, presence or absence of major predators). Although this approach has been very successful in identifying the signature of local adaptation, it might limit our ability to identify the causes of underlying patterns of phenotypic variation. By studying the variation in life-history traits along continuous gradients, we can gain better insight into the diversity of adaptations exhibited by natural populations. 2. We studied the evolution of life-history traits along a gradient of predation pressure in the Trinidadian guppy ( Poecilia reticulata). Six localities along the Guanapo-Caroni River drainage were selected with respect to their predator community, going from upstream localities where guppies only coexist with a single gape-limited fish predator, to lowland sites where guppies coexist with a complex fish community. Along this gradient, we characterized the field pattern of phenotypic variation in age and size at maturity and reproductive effort. Further, to determine the genetic basis of this variation, we measured these traits in second-generation laboratory-born fish from the same localities sampled in the wild. 3. In nature, we found a fine-scale pattern of phenotypic variation in most life-history traits that paralleled the continuous predation gradient. In the laboratory, we observed that reproductive allocation and brood size progressively decrease while age at maturity and interbrood interval progressively increase with a reduction in the predator community, suggesting a genetic basis to the parallel patterns observed in the field for reproductive allocation and offspring number. 4. However, there were some exceptions to the observed pattern of variation. Females from one low-predation locality matured younger and reproduced more frequently than expected based upon the simple nature of the fish community. We also found significant differences between our field and laboratory results for embryo size, suggesting that this trait is highly plastic. 5. Our results imply that local adaptation in guppies occurs at a finer scale than has previously been shown. Furthermore, while our results are consistent with predator-driven life-history variation, we also find patterns of plasticity that would not be apparent in the traditional dichotomous approach. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
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