about
Ecological divergence and conservatism: spatiotemporal patterns of niche evolution in a genus of livebearing fishes (Poeciliidae: Xiphophorus)Genomic resources for a model in adaptation and speciation research: characterization of the Poecilia mexicana transcriptomeCrayfishes (Decapoda : Cambaridae) of Oklahoma: identification, distributions, and natural historyLife on the edge: hydrogen sulfide and the fish communities of a Mexican cave and surrounding waters.Reduced opsin gene expression in a cave-dwelling fishLocally adapted fish populations maintain small-scale genetic differentiation despite perturbation by a catastrophic flood event.Predator-induced changes of female mating preferences: innate and experiential effects.The rediscovery of a long described species reveals additional complexity in speciation patterns of poeciliid fishes in sulfide springs.Parasites in sexual and asexual mollies (Poecilia, Poeciliidae, Teleostei): a case for the Red Queen?An indigenous religious ritual selects for resistance to a toxicant in a livebearing fish.Upstream effects of a reservoir on fish assemblages 45 years following impoundment.Does a predatory insect contribute to the divergence between cave- and surface-adapted fish populations?Parallel evolution of cox genes in H2S-tolerant fish as key adaptation to a toxic environment.Extremophile Poeciliidae: multivariate insights into the complexity of speciation along replicated ecological gradients.Phylogenetic analyses of the subgenus Mollienesia (Poecilia, Poeciliidae, Teleostei) reveal taxonomic inconsistencies, cryptic biodiversity, and spatio-temporal aspects of diversification in Middle America.Mechanisms Underlying Adaptation to Life in Hydrogen Sulfide-Rich Environments.Does divergence in female mate choice affect male size distributions in two cave fish populations?Testing the ecological consequences of evolutionary change using elements.Morphological variation in vanishing Mexican desert fishes of the genus Characodon (Goodeidae).Genome-scale data reveal that endemic Poecilia populations from small sulphidic springs display no evidence of inbreeding.Complexities of gene expression patterns in natural populations of an extremophile fish (Poecilia mexicana, Poeciliidae).Replicated hybrid zones of Xiphophorus swordtails along an elevational gradient.Environmental variation, hybridization, and phenotypic diversification in Cuatro Ciénegas pupfishes.Spatiotemporal environmental heterogeneity and the maintenance of the tailspot polymorphism in the variable platyfish (Xiphophorus variatus).From richer to poorer: successful invasion by freshwater fishes depends on species richness of donor and recipient basins.Evolution of body shape in differently coloured sympatric congeners and allopatric populations of Lake Malawi's rock-dwelling cichlids.Colonisation of toxic environments drives predictable life-history evolution in livebearing fishes (Poeciliidae).Local adaptation and pronounced genetic differentiation in an extremophile fish, Poecilia mexicana, inhabiting a Mexican cave with toxic hydrogen sulphide.Reduction of Energetic Demands through Modification of Body Size and Routine Metabolic Rates in Extremophile Fish.The roles of plasticity and evolutionary change in shaping gene expression variation in natural populations of extremophile fish.Polymorphic MHC loci in an asexual fish, the amazon molly (Poecilia formosa; Poeciliidae).Adaptive, but not condition-dependent, body shape differences contribute to assortative mating preferences during ecological speciation.H2S exposure elicits differential expression of candidate genes in fish adapted to sulfidic and non-sulfidic environments.Selection from parasites favours immunogenetic diversity but not divergence among locally adapted host populations.Genetic differentiation and selection against migrants in evolutionarily replicated extreme environments.Hydrogen sulfide, bacteria, and fish: a unique, subterranean food chain.Natural and sexual selection against immigrants maintains differentiation among micro-allopatric populations.Toxic hydrogen sulfide and dark caves: phenotypic and genetic divergence across two abiotic environmental gradients in Poecilia mexicana.Extreme environments and the origins of biodiversity: adaptation and speciation in sulfide spring fishes.Correlated evolution of thermal niches and functional physiology in tropical freshwater fishes.
P50
Q28603989-EDAC1FEB-7078-499C-871E-6762D597A57CQ28706123-7680B2C8-2775-433E-909E-39AD6D87ACAEQ29467581-133033D8-8303-44A6-B428-C81E4107FD27Q33247395-36F0227E-FC47-49C2-8674-2371639DDA42Q33632912-EE6EE184-471E-4D5E-A61C-5AF5F08BC096Q33669540-4FFD087E-F5FB-4CB3-B118-1B0D4D4446A0Q33949930-69D6EA0C-5578-48E2-BFD1-E6964186C8CCQ34366677-DD21E318-F06B-494A-8571-6536E27B262DQ34587668-E14C7703-D5A8-40C9-902B-1D92CB804F3DQ34700065-1A4A7D83-1822-4B6D-BB3A-38DF8E0FBF8AQ34703235-C0C0D9AD-5947-4DE1-BDE4-6A0A7895D88AQ34981093-4F3D5CDB-7E15-4B58-8F46-93FD72FFA9DAQ35166337-2AA313FF-0B35-4B40-98C9-71FB6548F060Q36059236-B0B633F1-0E68-4498-AC74-2CD23357E2CDQ36089919-AAC7AF5C-66E6-4D46-BE61-013ECE87EBF4Q36904216-8FE00BDF-9D33-41A3-9B08-79CB56819F5FQ37028827-DC8E8380-E8F3-4672-A397-AE062E807B21Q37606158-1D79BBB7-EA87-4E8D-9191-4B8AEB29E32EQ38404953-2362C528-3ED4-434E-8E05-9F7E22622038Q38668173-6FB0F788-76F2-4349-AAF8-7B31AF4910E4Q38734267-CAD5241D-2AFB-4943-B04B-DEE70B09FD75Q38957694-73F308E5-80DE-422A-A1A0-A69C36331074Q39526706-EDBCCF1C-5EAA-49BC-83D0-14D3DB7595DCQ40125564-597A46E1-C07C-4934-85F2-23E830449EF6Q40305753-0EE70AD4-0082-4031-A444-BF836301890EQ42647785-E97F9DCB-F1D7-471B-84A4-30F727294781Q43019857-44984FA8-D17F-4406-ACDA-75B0608FB8C2Q43022165-5E67EC7B-70A7-4C48-86E6-1A45A8DB150DQ43024834-802AF487-B8E9-4A95-A8FE-07DF9FD3CB2BQ43032517-7E706E48-D099-4606-B2C9-5CDF8B1C6942Q43748455-7C5F6D02-F1B5-40EC-98F6-77FEC6AE9E2BQ46480266-2372CF36-F09A-4113-A239-DDFB31CE19FAQ46895881-98165C6B-F632-4076-B632-FC0FB788EEF3Q46906791-031F2E6A-488D-4510-AC2E-5A4790E5D3D9Q46951740-07EBCC5D-17DF-451E-8AE3-7AE8864B88D9Q47247034-A2EE6D6C-AE79-4B76-ACB4-5EE6A0C3482CQ47268510-A67D7138-2872-428F-B9F6-14D7D2D1D7BAQ47280229-6A373813-E5C9-4430-87F5-2573B8266BC1Q47648066-5118C056-E451-42D4-96B0-EC1C87F0E34CQ51150022-CEDF2BF1-EAE9-404A-8EBA-D21BA1F14CB8
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Michael Tobler
@ast
Michael Tobler
@en
Michael Tobler
@es
Michael Tobler
@sl
type
label
Michael Tobler
@ast
Michael Tobler
@en
Michael Tobler
@es
Michael Tobler
@sl
prefLabel
Michael Tobler
@ast
Michael Tobler
@en
Michael Tobler
@es
Michael Tobler
@sl
P106
P21
P31
P496
0000-0002-0326-0890