Your search keyword '"Plath M"' showing total 14 results

1. Unique evolutionary trajectories in repeated adaptation to hydrogen sulphide-toxic habitats of a neotropical fish (Poecilia mexicana).

Author

Pfenninger M, Patel S, Arias-Rodriguez L, Feldmeyer B, Riesch R, and Plath M

Subjects

Animals, Gene Flow, Genetic Variation, Genetics, Population, Polymorphism, Single Nucleotide, Population Density, Selection, Genetic, Sequence Analysis, DNA, Adaptation, Physiological genetics, Ecosystem, Evolution, Molecular, Hydrogen Sulfide toxicity, Poecilia genetics

Abstract

Replicated ecological gradients are prime systems to study processes of molecular evolution underlying ecological divergence. Here, we investigated the repeated adaptation of the neotropical fish Poecilia mexicana to habitats containing toxic hydrogen sulphide (H2 S) and compared two population pairs of sulphide-adapted and ancestral fish by sequencing population pools of >200 individuals (Pool-Seq). We inferred the evolutionary processes shaping divergence and tested the hypothesis of increase of parallelism from SNPs to molecular pathways. Coalescence analyses showed that the divergence occurred in the face of substantial bidirectional gene flow. Population divergence involved many short, widely dispersed regions across the genome. Analyses of allele frequency spectra suggest that differentiation at most loci was driven by divergent selection, followed by a selection-mediated reduction of gene flow. Reconstructing allelic state changes suggested that selection acted mainly upon de novo mutations in the sulphide-adapted populations. Using a corrected Jaccard index to quantify parallel evolution, we found a negligible proportion of statistically significant parallel evolution of Jcorr  = 0.0032 at the level of SNPs, divergent genome regions (Jcorr  = 0.0061) and genes therein (Jcorr  = 0.0091). At the level of metabolic pathways, the overlap was Jcorr  = 0.2545, indicating increasing parallelism with increasing level of biological integration. The majority of pathways contained positively selected genes in both sulphide populations. Hence, adaptation to sulphidic habitats necessitated adjustments throughout the genome. The largely unique evolutionary trajectories may be explained by a high proportion of de novo mutations driving the divergence. Our findings favour Gould's view that evolution is often the unrepeatable result of stochastic events with highly contingent effects., (© 2015 John Wiley & Sons Ltd.)

Published

2015

2. Parallel evolution of cox genes in H2S-tolerant fish as key adaptation to a toxic environment.

Author

Pfenninger M, Lerp H, Tobler M, Passow C, Kelley JL, Funke E, Greshake B, Erkoc UK, Berberich T, and Plath M

Subjects

Amino Acid Substitution, Animals, Base Sequence, Environment, Evolution, Molecular, Mitochondria genetics, Phylogeny, Sequence Analysis, DNA, Adaptation, Physiological genetics, Electron Transport Complex IV genetics, Hydrogen Sulfide adverse effects, Poecilia genetics

Abstract

Populations that repeatedly adapt to the same environmental stressor offer a unique opportunity to study adaptation, especially if there are a priori predictions about the genetic basis underlying phenotypic evolution. Hydrogen sulphide (H2S) blocks the cytochrome-c oxidase complex (COX), predicting the evolution of decreased H2S susceptibility of the COX in three populations in the Poecilia mexicana complex that have colonized H2S-containing springs. Here, we demonstrate that decreased H2S susceptibility of COX evolved in parallel in two sulphide lineages, as evidenced by shared amino acid substitutions in cox1 and cox3 genes. One of the shared substitutions likely triggers conformational changes in COX1 blocking the access of H2S. In a third sulphide population, we detect no decreased H2S susceptibility of COX, suggesting that H2S resistance is achieved through another mechanism. Our study thus demonstrates that even closely related lineages follow both parallel and disparate molecular evolutionary paths to adaptation in response to the same selection pressure.

Published

2014

3. Colonisation of toxic environments drives predictable life-history evolution in livebearing fishes (Poeciliidae).

Author

Riesch R, Plath M, Schlupp I, Tobler M, and Brian Langerhans R

Subjects

Animals, Body Size, Clutch Size, Female, Fertility, Pregnancy, Biological Evolution, Hydrogen Sulfide toxicity, Poecilia physiology

Abstract

New World livebearing fishes (family Poeciliidae) have repeatedly colonised toxic, hydrogen sulphide-rich waters across their natural distribution. Physiological considerations and life-history theory predict that these adverse conditions should favour the evolution of larger offspring. Here, we examined nine poeciliid species that independently colonised toxic environments, and show that these fishes have indeed repeatedly evolved much larger offspring size at birth in sulphidic waters, thus uncovering a widespread pattern of predictable evolution. However, a second pattern, only indirectly predicted by theory, proved additionally common: a reduction in the number of offspring carried per clutch (i.e. lower fecundity). Our analyses reveal that this secondary pattern represents a mere consequence of a classic life-history trade-off combined with strong selection on offspring size alone. With such strong natural selection in extreme environments, extremophile organisms may commonly exhibit multivariate phenotypic shifts even though not all diverging traits necessarily represent adaptations to the extreme conditions., (© 2013 John Wiley & Sons Ltd/CNRS.)

Published

2014

4. Effects of extreme habitat conditions on otolith morphology: a case study on extremophile live bearing fishes (Poecilia mexicana, P. sulphuraria).

Author

Schulz-Mirbach T, Riesch R, García de León FJ, and Plath M

Subjects

Animals, Brain anatomy & histology, Caves, Ear, Inner anatomy & histology, Ecosystem, Female, Male, Organ Size, Otolithic Membrane drug effects, Otolithic Membrane growth & development, Poecilia growth & development, Darkness, Hydrogen Sulfide toxicity, Otolithic Membrane ultrastructure, Poecilia anatomy & histology, Stress, Physiological

Abstract

Our study was designed to evaluate if, and to what extent, restrictive environmental conditions affect otolith morphology. As a model, we chose two extremophile livebearing fishes: (i) Poecilia mexicana, a widespread species in various Mexican freshwater habitats, with locally adapted populations thriving in habitats characterized by the presence of one (or both) of the natural stressors hydrogen sulphide and darkness, and (ii) the closely related Poecilia sulphuraria living in a highly sulphidic habitat (Baños del Azufre). All three otolith types (lapilli, sagittae, and asterisci) of P. mexicana showed a decrease in size ranging from the non-sulphidic cave habitat (Cueva Luna Azufre), to non-sulphidic surface habitats, to the sulphidic cave (Cueva del Azufre), to sulphidic surface habitats (El Azufre), to P. sulphuraria. Although we found a distinct differentiation between ecotypes with respect to their otolith morphology, no clear-cut pattern of trait evolution along the two ecological gradients was discernible. Otoliths from extremophiles captured in the wild revealed only slight similarities to aberrant otoliths found in captive-bred fish. We therefore hypothesize that extremophile fishes have developed coping mechanisms enabling them to avoid aberrant otolith growth - an otherwise common phenomenon in fishes reared under stressful conditions., (Copyright © 2011 Elsevier GmbH. All rights reserved.)

Published

2011

5. Toxic hydrogen sulphide and dark caves: pronounced male life-history divergence among locally adapted Poecilia mexicana (Poeciliidae).

Author

Riesch R, Plath M, and Schlupp I

Subjects

Animals, Darkness, Ecosystem, Female, Genetic Speciation, Geological Phenomena, Hallucinations, Male, Adaptation, Physiological genetics, Hydrogen Sulfide toxicity, Poecilia genetics, Poecilia physiology

Abstract

Chronic environmental stress is known to induce evolutionary change. Here, we assessed male life-history trait divergence in the neotropical fish Poecilia mexicana from a system that has been described to undergo incipient ecological speciation in adjacent, but reproductively isolated toxic/nontoxic and surface/cave habitats. Examining both field-caught and common garden-reared specimens, we investigated the extent of differentiation and plasticity of life-history strategies employed by male P. mexicana. We found strong site-specific life-history divergence in traits such as fat content, standard length and gonadosomatic index. The majority of site-specific life-history differences were also expressed under common garden-rearing conditions. We propose that apparent conservatism of male life histories is the result of other (genetically based) changes in physiology and behaviour between populations. Together with the results from previous studies, this is strong evidence for local adaptation as a result of ecologically based divergent selection., (© 2010 The Authors. Journal of Evolutionary Biology © 2010 European Society For Evolutionary Biology.)

Published

2011

6. Toxic hydrogen sulfide and dark caves: life-history adaptations in a livebearing fish (Poecilia mexicana, Poeciliidae).

Author

Riesch R, Plath M, and Schlupp I

Subjects

Adipose Tissue, Animals, Ecosystem, Female, Male, Reproduction drug effects, Reproduction physiology, Viviparity, Nonmammalian drug effects, Adaptation, Physiological, Darkness, Geological Phenomena, Hydrogen Sulfide toxicity, Poecilia physiology, Viviparity, Nonmammalian physiology

Abstract

Life-history traits are very sensitive to extreme environmental conditions, because resources that need to be invested in somatic maintenance cannot be invested in reproduction. Here we examined female life-history traits in the Mexican livebearing fish Poecilia mexicana from a variety of benign surface habitats, a creek with naturally occurring toxic hydrogen sulfide (H2S), a sulfidic cave, and a non-sulfidic cave. Previous studies revealed pronounced genetic and morphological divergence over very small geographic scales in this system despite the absence of physical barriers, suggesting that local adaptation to different combinations of two selection factors, toxicity (H2S) and darkness, is accompanied by very low rates of gene flow. Hence, we investigated life-history divergence between these populations in response to the selective pressures of darkness and/or toxicity. Our main results show that toxicity and darkness both select for (or impose constraints on) the same female trait dynamics: reduced fecundity and increased offspring size. Since reduced fecundity in the sulfur cave population was previously shown to be heritable, we discuss how divergent life-history evolution may promote further ecological divergence: for example, reduced fecundity and increased offspring autonomy are clearly beneficial in extreme environments, but fish with these traits are outcompeted in benign habitats.

Published

2010

7. Toxic hydrogen sulfide and dark caves: phenotypic and genetic divergence across two abiotic environmental gradients in Poecilia mexicana.

Author

Tobler M, Dewitt TJ, Schlupp I, García de León FJ, Herrmann R, Feulner PG, Tiedemann R, and Plath M

Subjects

Adaptation, Biological, Animals, Cytochromes b genetics, Environmental Exposure, Female, Gene Flow, Genetic Markers, Geography, Gills anatomy & histology, Male, Microsatellite Repeats, Phenotype, Poecilia anatomy & histology, Poecilia physiology, Selection, Genetic, Biological Evolution, Environment, Hydrogen Sulfide toxicity, Poecilia genetics

Abstract

Divergent natural selection drives evolutionary diversification. It creates phenotypic diversity by favoring developmental plasticity within populations or genetic differentiation and local adaptation among populations. We investigated phenotypic and genetic divergence in the livebearing fish Poecilia mexicana along two abiotic environmental gradients. These fish typically inhabit nonsulfidic surface rivers, but also colonized sulfidic and cave habitats. We assessed phenotypic variation among a factorial combination of habitat types using geometric and traditional morphometrics, and genetic divergence using quantitative and molecular genetic analyses. Fish in caves (sulfidic or not) exhibited reduced eyes and slender bodies. Fish from sulfidic habitats (surface or cave) exhibited larger heads and longer gill filaments. Common-garden rearing suggested that these morphological differences are partly heritable. Population genetic analyses using microsatellites as well as cytochrome b gene sequences indicate high population differentiation over small spatial scale and very low rates of gene flow, especially among different habitat types. This suggests that divergent environmental conditions constitute barriers to gene flow. Strong molecular divergence over short distances as well as phenotypic and quantitative genetic divergence across habitats in directions classic to fish ecomorphology suggest that divergent selection is structuring phenotypic variation in this system.

Published

2008

8. Local adaptation and pronounced genetic differentiation in an extremophile fish, Poecilia mexicana, inhabiting a Mexican cave with toxic hydrogen sulphide.

Author

Plath M, Hauswaldt JS, Moll K, Tobler M, García De León FJ, Schlupp I, and Tiedemann R

Subjects

Animal Migration, Animals, Eye anatomy & histology, Gene Flow, Mexico, Microsatellite Repeats, Organ Size, Poecilia anatomy & histology, Poecilia physiology, Adaptation, Biological, Genetic Variation, Hydrogen Sulfide metabolism, Poecilia genetics

Abstract

We investigated genetic differentiation and migration patterns in a small livebearing fish, Poecilia mexicana, inhabiting a sulfidic Mexican limestone cave (Cueva del Azufre). We examined fish from three different cave chambers, the sulfidic surface creek draining the cave (El Azufre) and a nearby surface creek without the toxic hydrogen sulphide (Arroyo Cristal). Using microsatellite analysis of 10 unlinked loci, we found pronounced genetic differentiation among the three major habitats: Arroyo Cristal, El Azufre and the cave. Genetic differentiation was also found within the cave between different pools. An estimation of first-generation migrants suggests that (i) migration is unidirectional, out of the cave, and (ii) migration among different cave chambers occurs to some extent. We investigated if the pattern of genetic differentiation is also reflected in a morphological trait, eye size. Relatively large eyes were found in surface habitats, small eyes in the anterior cave chambers, and the smallest eyes were detected in the innermost cave chamber (XIII). This pattern shows some congruence with a previously proposed morphocline in eye size. However, our data do not support the proposed mechanism for this morphocline, namely that it would be maintained by migration from both directions into the middle cave chambers. This would have led to an increased variance in eye size in the middle cave chambers, which we did not find. Restricted gene flow between the cave and the surface can be explained by local adaptations to extreme environmental conditions, namely H2S and absence of light. Within the cave system, habitat properties are patchy, and genetic differentiation between cave chambers despite migration could indicate local adaptation at an even smaller scale.

Published

2007

9. Life on the edge: hydrogen sulfide and the fish communities of a Mexican cave and surrounding waters.

Author

Tobler M, Schlupp I, Heubel KU, Riesch R, de León FJ, Giere O, and Plath M

Subjects

Animals, Biodiversity, Chemoautotrophic Growth, Energy Metabolism, Hydrogen Sulfide metabolism, Mexico, Oxygen analysis, Poecilia metabolism, Population Density, Adaptation, Physiological, Fresh Water chemistry, Hydrogen Sulfide analysis, Poecilia physiology

Abstract

Most eucaryotic organisms classified as living in an extreme habitat are invertebrates. Here we report of a fish living in a Mexican cave (Cueva del Azufre) that is rich in highly toxic H(2)S. We compared the water chemistry and fish communities of the cave and several nearby surface streams. Our study revealed high concentrations of H(2)S in the cave and its outflow (El Azufre). The concentrations of H(2)S reach more than 300 muM inside the cave, which are acutely toxic for most fishes. In both sulfidic habitats, the diversity of fishes was heavily reduced, and Poecilia mexicana was the dominant species indicating that the presence of H(2)S has an all-or-none effect, permitting only few species to survive in sulfidic habitats. Compared to habitats without H(2)S, P. mexicana from the cave and the outflow have a significantly lower body condition. Although there are microhabitats with varying concentrations of H(2)S within the cave, we could not find a higher fish density in areas with lower concentrations of H(2)S. We discuss that P. mexicana is one of the few extremophile vertebrates. Our study supports the idea that extreme habitats lead to an impoverished species diversity.

Published

2006

10. A new and morphologically distinct population of cavernicolous Poecilia mexicana (Poeciliidae: Teleostei)

Author

Tobler, M., Riesch, R., García de León, F. J., Schlupp, I., and Plath, M.

Published

2008

11. Sperm production in an extremophile fish, the cave molly (Poecilia mexicana, Poeciliidae, Teleostei)

Author

Franssen, C M, Tobler, M, Riesch, R, Garcia de Léon, F J, Tiedemann, R, Schlupp, I, Plath, M, and University of Zurich

Subjects

10127alt Institute of Zoology (former), 1105 Ecology, Evolution, Behavior and Systematics, 1104 Aquatic Science, Energy limitation, Hydrogen sulfide, 570 Life sciences, biology, 590 Animals (Zoology), Cave fish, Testes weight, Spermatogenesis

Published

2008

12. Extreme habitats as refuge from parasite infections? Evidence from an extremophile fish

Author

Tobler, M, Schlupp, I, Garcia de Leon, F J, Glaubrecht, M, Plath, M, University of Zurich, and Tobler, M

Subjects

10127alt Institute of Zoology (former), 1105 Ecology, Evolution, Behavior and Systematics, Poeciliidae, Hydrogen sulfide, Uvulifer sp, 570 Life sciences, biology, 590 Animals (Zoology), Cave fish, Hypoxia, Trematodes, 2309 Nature and Landscape Conservation

Published

2007

13. Toxic hydrogen sulphide shapes brain anatomy: a comparative study of sulphide-adapted ecotypes in the Poecilia mexicana complex.

Author

Schulz‐Mirbach, T., Eifert, C., Riesch, R., Farnworth, M. S., Zimmer, C., Bierbach, D., Klaus, S., Tobler, M., Streit, B., Indy, J. R., Arias‐Rodriguez, L., and Plath, M.

Subjects

OSTEICHTHYES, BRAIN, RADIOGRAPHY, POECILIA, HYDROGEN sulfide, BRAIN anatomy

Abstract

The teleost brain is an energetically costly organ, which raises the question of how brain anatomy is shaped by divergent ecological factors in contrasting (extreme/resource-limited vs. benign) environments. A previous study compared different ecotypes of the teleost Poecilia mexicana in the Tacotalpa drainage system and found that cave fish had a smaller eye diameter, a smaller optic tectum and larger telencephalic lobes relative to ancestral surface-dwelling fish. Smaller eyes and a smaller optic tectum but larger telencephalic lobes were also found in fish from a sulphidic surface habitat near one of the caves, which the authors hypothesized to result from limited vision in turbid sulphide waters. In this study, we tested if repeated transitions along a replicated, natural toxicity gradient result in repeated ('convergent') anatomical changes of the teleost brain. We compared ecotypes in the P. mexicana species complex that have independently evolved increased tolerance to hydrogen sulphide (H2S) in three river drainages in southern Mexico, including a phylogenetically old H2S-adapted form ( P. sulphuraria) and two P. mexicana ecotypes that represent earlier stages of adaptation to H2S. All H2S-adapted ecotypes exhibited smaller eyes, a smaller optic tectum volume and a smaller brain volume, but larger corpora cerebelli and hypothalamic volume than fish from non-sulphidic habitats. Drainage-specific effects were found for the telencephalic lobes, the total brain and eye size, as sexes responded differently to the presence of H2S depending on the drainage of origin. Turbidity and toxicity in sulphidic habitats may explain patterns of brain size divergence similar in direction (but not degree) to those observed in cave ecotypes. Hence, variation in brain anatomy reflects major ecological differences, and repeated ecological gradients can result in convergent differences in brain anatomy. Nonetheless, some unique patterns of brain differentiation suggest as yet unidentified differences in selection regimes between different sulphidic springs. [ABSTRACT FROM AUTHOR]

Published

2016

14. Natural and sexual selection against immigrants maintains differentiation among micro-allopatric populations.

Author

TOBLER, M., RIESCH, R., TOBLER, C. M., SCHULZ-MIRBACH, T., and PLATH, M.

Subjects

HYPOGEAN fishes, HYDROGEN sulfide, REPRODUCTIVE isolation, MICROORGANISMS, HABITATS

Abstract

Local adaptation to divergent environmental conditions can promote population genetic differentiation even in the absence of geographic barriers and hence lead to speciation. But what mechanisms contribute to reproductive isolation among diverging populations? We tested for natural and sexual selection against immigrants in a fish species inhabiting (and adapting to) nonsulphidic surface habitats, sulphidic surface habitats and a sulphidic cave. Gene flow is strong among sample sites situated within the same habitat type, but low among divergent habitat types. Our results indicate that females of both sulphidic populations discriminate against immigrant males during mate choice. Furthermore, using reciprocal translocation experiments, we document natural selection against migrants between nonsulphidic and sulphidic habitats, whereas migrants between sulphidic cave and surface habitats did not exhibit increased mortality within the same time period. Consequently, both natural and sexual selection may contribute to isolation among parapatric populations, and selection against immigrants may be a powerful mechanism facilitating speciation among locally adapted populations even over very small spatial distances. [ABSTRACT FROM AUTHOR]

Published

2009