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Corush (2019)
Evolutionary patterns of diadromy in fishes: more than a transitional state between marine and freshwaterBMC Evol Biol, 19
Stroud (2016)
Ecological opportunity and adaptive radiationAnnu Rev Ecol Evol Syst, 47
Nielsen (2002)
Mapping mutations on phylogeniesSyst Biol, 51
Martin (2019)
The paradox behind the pattern of rapid adaptive radiation: how can the speciation process sustain itself through an early burst?Annu Rev Ecol Evol Syst, 50
Seehausen (2014)
Speciation in freshwater fishesAnnu Rev Ecol Evol Syst, 45
Kaeuffer (2012)
Parallel and nonparallel aspects of ecological, phenotypic, and genetic divergence across replicate population pairs of lake and stream sticklebackEvolution, 66
Egan (2017)
Diets and trophic guilds of small fishes from coastal marine habitats in western TaiwanJ Fish Biol, 91
Near (2013)
Phylogeny and tempo of diversification in the superradiation of spiny-rayed fishesProc Natl Acad Sci, 110
Tedesco (2017)
Explaining global-scale diversification patterns in actinopterygian fishesJ Biogeogr, 44
Cavender-Bares (2009)
The merging of community ecology and phylogenetic biologyEcol Lett, 12
Huelsenbeck (2003)
Stochastic mapping of morphological charactersSyst Biol, 52
Aristide (2019)
Understanding the effect of competition during evolutionary radiations: an integrated model of phenotypic and species diversificationEcol Lett, 22
Parenti (1996)
Phylogenetic systematics and biogeography of Phallostethid fishes (Atherinomorpha, Phallostethidae) of northwestern Borneo, with description of a new speciesCopeia, 1996
Conway (2017)
Molecular systematics of the New World clingfish genus Gobiesox (Teleostei: Gobiesocidae) and the origin of a freshwater cladeMol Phylogenet Evol, 112
De Sant'Anna (2013)
†Belone countermani, a new Miocene needlefish (Belonidae) from the St. Marys formation of Calvert Cliffs, MarylandProc Biol Soc Washingt, 126
Barbour (1973)
A biogeographical history of Chirostoma (Pisces: Atherinidae): a species flock fromtheMexican PlateauCopeia, 1973
Boettiger (2012)
rfishbase: exploring, manipulating and visualizing FishBase data from R
Peters (1983)
10.1017/CBO9780511608551
Leroy (2019)
Global biogeographical regions of freshwater fish speciesJ Biogeogr, 46
Kolmann (2022)
Ecological and phenotypic diversification after a continental invasion in Neotropical freshwater stingraysIntegr Comp Biol, icac019
Harmon (2019)
Detecting the macroevolutionary signal of species interactionsJ Evol Biol, 32
Betancur-R (2009)
Molecular phylogenetics and evolutionary history of ariid catfishes revisited: a comprehensive samplingBMC Evol Biol, 9
Albert (2012)
Diversity and evolution of body size in fishesEvol Biol, 39
Burns (2019)
Ancient and contingent body shape diversification in a hyperdiverse continental fish radiationEvolution, 73
Anderson (2021)
Character displacement drives trait divergence in a continental faunaProc Natl Acad Sci, 118
Clarke (2021)
Evidence for general size-by-habitat rules in actinopterygian fishes across nine scales of observationEcol Lett, 24
Lee (1999)
Causes and consequences of recent freshwater invasions by saltwater animalsTrends Ecol Evol, 14
Fontenelle (2021)
Molecular phylogeny for the Neotropical freshwater stingrays (Myliobatiformes: Potamotrygoninae) reveals limitations of traditional taxonomyBiol J Linn Soc, 134
Kinziger (2005)
Molecular systematics of the genus Cottus (Scorpaeniformes: Cottidae)Copeia, 2
Bloom (2012)
It's a family matter: molecular phylogenetics of Atheriniformes and the polyphyly of the surf silversides (Family: Notocheiridae)Mol Phylogenet Evol, 62
Briggs (1960)
Two new freshwater clingfishes of the genus Gobiesox from southern MexicoOccas Pap Univ Michigan, 616
Depczynski (2005)
Shortest recorded vertebrate lifespan found in a coral reef fishCurr Biol, 15
Hughes (2020)
Biogeography, habitat transitions and hybridization in a radiation of South American silverside fishes revealed by mitochondrial and genomic RAD dataMol Ecol, 29
Rundell (2009)
Adaptive radiation, nonadaptive radiation, ecological speciation and nonecological speciationTrends Ecol Evol, 24
Jones (2012)
The genomic basis of adaptive evolution in threespine sticklebacksNature, 484
Herler (2011)
Gobies on coral reefs
Deagle (2012)
Population genomics of parallel phenotypic evolution in stickleback across stream–lake ecological transitionsProc R Soc B Biol Sci, 279
Patterson (2002)
Phylogeny, concerted convergence, and phylogenetic niche conservatism in the core liliales: insights from rbcL and ndhF sequence dataEvolution, 56
Pfennig (2009)
Character displacement: ecological and reproductive responses to a common evolutionary problemQ Rev Biol, 84
Gittenberger (1991)
What about non-adaptive radiation?Biol J Linn Soc, 43
Simões (2016)
The evolving theory of evolutionary radiationsTrends Ecol Evol, 31
Watson (2004)
The world's smallest vertebrate, Schindleria brevipinguis, a new paedomorphic species in the family Schindleriidae (Perciformes: Gobioidei)Rec Aust Museum, 56
Grant (1972)
Convergent and divergent character displacementBiol J Linn Soc, 4
Conway (2019)
A new genus and two new species of miniature clingfishes from temperate southern Australia (Teleostei, Gobiesocidae)Zookeys, 864
Yamanoue (2011)
Multiple invasions into freshwater by pufferfishes (Teleostei: Tetraodontidae): a mitogenomic perspectivePLoS One, 6
Bastide (2018)
Inference of adaptive shifts for multivariate correlated traitsSyst Biol, 67
Mayfield (2010)
Opposing effects of competitive exclusion on the phylogenetic structure of communitiesEcol Lett, 13
Weitzman (1988)
Miniaturization in South American freshwater fishes: an overview and discussionProc Biol Soc Washingt, 101
Bloom (2018)
Evolution of body size and trophic position in migratory fishes: a phylogenetic comparative analysis of Clupeiformes (anchovies, herring, shad, and allies)Biol J Linn Soc, 125
Davis (2012)
Marine-freshwater transitions are associated with the evolution of dietary diversification in terapontid grunters (Teleostei: Terapontidae)J Evol Biol, 25
Cooney (2021)
Heterogeneous relationships between rates of speciation and body size evolution across vertebrate cladesNat Ecol Evol, 5
Betancur-R (2015)
Fossil-based comparative analyses reveal ancient marine ancestry erased by extinction in ray-finned fishesEcol Lett, 18
Colosimo (2005)
Widespread parallel evolution in sticklebacks by repeated fixation of ectodysplasin allelesScience, 307
Hendry (2003)
To sea or not to sea? Anadromy vs. non-anadromy in salmonids
Cadotte (2017)
Should environmental filtering be abandoned?Trends Ecol Evol, 32
Revell (2012)
Phytools: an R package for phylogenetic comparative biology (and other things)Methods Ecol Evol, 3
Bowen (1983)
Detritivory in Neotropical fish communitiesEnviron Biol Fishes, 9
Hagen (1973)
Selective predation and the intensity of selection acting upon the lateral plates of threespine sticklebacksHeredity, 30
Burns (2020)
Migratory lineages rapidly evolve larger body sizes than non-migratory relatives in ray-finned fishesProc R Soc B Biol Sci, 287
Beaulieu (2018)
Can we build it? Yes we can, but should we use it? Assessing the quality and value of a very large phylogeny of campanulid angiospermsAm J Bot, 105
Betancur-R (2010)
Molecular phylogenetics supports multiple evolutionary transitions from marine to freshwater habitats in ariid catfishesMol Phylogenet Evol, 55
Kozak (2006)
Does niche conservatism promote speciation? A case study in North American SalamandersEvolution, 60
Lim (2015)
Molecular and morphological analyses reveal phylogenetic relationships of stingrays focusing on the family dasyatidae (Myliobatiformes)PLoS One, 10
Brockhurst (2007)
Niche occupation limits adaptive radiation in experimental microcosmsPLoS One, 2
McCraney (2020)
Supermatrix phylogeny resolves goby lineages and reveals unstable root of GobiariaMol Phylogenet Evol, 151
Steele (2014)
Body size diversity and frequency distributions of Neotropical Cichlid fishes (Cichliformes: Cichlidae: Cichlinae)PLoS One, 9
Rabosky (2013)
Rates of speciation and morphological evolution are correlated across the largest vertebrate radiationNat Commun, 4
Aschliman (2012)
Body plan convergence in the evolution of skates and rays (Chondrichthyes: Batoidea)Mol Phylogenet Evol, 63
Friedman (2020)
Body shape diversification along the benthic–pelagic axis in marine fishesProc R Soc B Biol Sci, 287
Harmon (2010)
Early bursts of body size and shape evolution are rare in comparative dataEvolution, 64
Nelson (2016)
10.1002/9781119174844
Conway (2020)
Molecular phylogenetics of the clingfishes (Teleostei: Gobiesocidae)—implications for classificationCopeia, 108
Schenk (2013)
Ecological opportunity and incumbency in the diversification of repeated continental colonizations by muroid rodentsSyst Biol, 62
Wagner (2012)
Ecological opportunity and sexual selection together predict adaptive radiationNature, 487
Benton (2009)
The red queen and the court jester: species diversity and the role of biotic and abiotic factors through timeScience, 323
Revell (2013)
Two new graphical methods for mapping trait evolution on phylogeniesMethods Ecol Evol, 4
Rittmeyer (2012)
Ecological guild evolution and the discovery of the world's smallest vertebratePLoS One, 7
Romanuk (2011)
Trophic level scales positively with body size in fishesGlobal Ecol Biogeogr, 20
Bamber (1988)
Pre-adaptive plasticity in atherinids and the estuarine seat of teleost evolutionJ Fish Biol, 33
Roff (1991)
Life history consequences of bioenergetic and biomechanical constraints on migrationIntegr Comp Biol, 31
Kraft (2015)
Community assembly, coexistence and the environmental filtering metaphorFunct Ecol, 29
Emerson (2008)
Phylogenetic analysis of community assembly and structure over space and timeTrends Ecol Evol, 23
Garland (1993)
Phylogenetic analysis of covariance by computer simulationSyst Biol, 42
Goto (2015)
Evolutionary diversification in freshwater sculpins (Cottoidea): a review of two major adaptive radiationsEnviron Biol Fishes, 98
Rabosky (2020)
Speciation rate and the diversity of fishes in freshwaters and the oceansJ Biogeogr, 47
Bloom (2011)
The biogeography of marine incursions in South AmericaHistorical biogeograhpy of neotropical freshwater fishes
Sidlauskas (2008)
Continuous and arrested morphological diversification in sister clades of characiform fishes: a phylomorphospace approachEvolution, 62
Guinot (2015)
Contrasting “fish” diversity dynamics between marine and freshwater environmentsCurr Biol, 25
Betancur-R. (2012)
Apparent signal of competition limiting diversification after ecological transitions from marine to freshwater habitatsEcol Lett, 15
Darwin (1859)
On the origin of species by means of natural selection, or, the preservation of favoured races in the struggle for lifeBr Foreign Med Chir Rev, 25
Brown (1956)
Character displacementSyst ZoolSyst Zool, 5
Glor (2010)
Phylogenetic insights on adaptive radiationAnnu Rev Ecol Evol Syst, 41
Bell (1994)
Introduction to the evolutionary biology of the threespine stickleback
Buser (2019)
Have niche, will travel. new means of linking diet and ecomorphology reveals niche conservatism in freshwater cottoid fishesIntegr Org Biol, 1
Santini (2013)
Do habitat shifts drive diversification in teleost fishes? An example from the pufferfishes (Tetraodontidae)J Evol Biol, 26
Simpson (1953)
10.7312/simp93764
Knouft (2003)
The evolution of body size in extant groups of North American freshwater fishes: speciation, size distributions, and Cope's ruleAm Nat, 161
Unmack (2013)
Phylogeny and biogeography of rainbowfishes (Melanotaeniidae) from Australia and New GuineaMol Phylogenet Evol, 67
Bloom (2012)
Molecular phylogenetics reveals a pattern of biome conservatism in New World anchovies (family Engraulidae)J Evol Biol, 25
Bloom (2017)
On the origins of marine-derived freshwater fishes in South AmericaJ Biogeogr, 44
Albert (2020)
Diversification of Neotropical freshwater fishesAnnu Rev Ecol Evol Syst, 51
Friedman (2021)
Divergent processes drive parallel evolution in marine and freshwater fishesSyst Biol, 0
Berner (2009)
Variable progress toward ecological speciation in parapatry: stickleback across eight lake-stream transitionsEvolution, 63
Griffiths (2012)
Body size distributions in North American freshwater fish: large-scale factorsGlobal Ecol Biogeogr, 21
Egan (2018)
Phylogenetic analysis of trophic niche evolution reveals a latitudinal herbivory gradient in Clupeoidei (herrings, anchovies, and allies)Mol Phylogenet Evol, 124
McGee (2020)
The ecological and genomic basis of explosive adaptive radiationNature, 586
Adams (2013)
Geomorph: an R package for the collection and analysis of geometric morphometric shape dataMethods Ecol Evol, 4
Cahill (2008)
Does phylogenetic relatedness influence the strength of competition among vascular plants?Perspect Plant Ecol Evol Syst, 10
Rüber (2007)
Evolution of miniaturization and the phylogenetic position of Paedocypris, comprising the world's smallest vertebrateBMC Evol Biol, 7
Fontenelle (2021)
Biogeography of the Neotropical freshwater stingrays (Myliobatiformes: Potamotrygoninae) reveals effects of continent-scale paleogeographic change and drainage evolutionJ Biogeogr, 48
Lovejoy (2006)
Miocene marine incursions and marine/freshwater transitions: evidence from Neotropical fishesJ South Amer Earth Sci, 21
Germain (2021)
On the origin of coexisting speciesTrends Ecol Evol, 36
Weber (2017)
Evolution in a community context: on integrating ecological interactions and macroevolutionTrends Ecol Evol, 32
Chase (2007)
Drought mediates the importance of stochastic community assemblyProc Natl Acad Sci, 104
Lucek (2013)
Repeated and predictable patterns of ecotypic differentiation during a biological invasion: lake–stream divergence in parapatric Swiss sticklebackJ Evol Biol, 26
Goulding (1983)
Ecology of Amazonian needlefishes (Belonidae), 2
Flecker (1996)
Ecosystem engineering by a dominant detritivore in a diverse tropical streamEcology, 77
Pennell (2014)
Geiger v2.0: an expanded suite of methods for fitting macroevolutionary models to phylogenetic treesBioinformatics, 30
Vega (2012)
Why are there so few fish in the sea?Proc R Soc B Biol Sci, 279
Lucek (2014)
Quick divergence but slow convergence during ecotype formation in lake and stream stickleback pairs of variable ageJ Evol Biol, 27
Muschick (2018)
Arrival order and release from competition does not explain why haplochromine cichlids radiated in Lake VictoriaProc R Soc B Biol Sci, 285
Rabosky (2013)
Diversity-dependence, ecological speciation, and the role of competition in macroevolutionAnnu Rev Ecol Evol Syst, 44
Uyeda (2011)
The million-year wait for macroevolutionary burstsProc Natl Acad Sci, 108
McDowall (2003)
Shads and diadromy: implications for ecology, evolution, and biogeographyAm Fish Soc Symp, 2003
Weber (2016)
Coexistence in close relatives: beyond competition and reproductive isolation in Sister TaxaAnnu Rev Ecol Evol Syst, 47
Davis (2020)
Effects of adoption of freshwater residency on life-history ecology of terapontid gruntersFreshw Biol, 65
Bloom (2018)
Systematics of clupeiformes and testing for ecological limits on species richness in a trans-marine/freshwater cladeNeotrop Ichthyol, 16
Losos (2010)
Adaptive radiation, ecological opportunity, and evolutionary determinismAm Nat, 175
Bloom (2020)
Mode of miniaturisation influences body shape evolution in new world anchovies (Engraulidae)J Fish Biol, 96
Fujiwara (2021)
Description of a new genus and two new species of Indo–Pacific clingfishes (Gobiesocidae: Diademichthyinae) with redescription and reassignment of two species previously assigned to Lepadichthys Waite, 1904Ichthyol Herpetol, 109
Wellborn (2015)
Ecological opportunity and the adaptive diversification of lineagesEcol Evol, 5
Fuller (2007)
Speciation in killifish and the role of salt toleranceJ Evol Biol, 20
Rowsey (2019)
Tempo and mode of mandibular shape and size evolution reveal mixed support for incumbency effects in two clades of island-endemic rodents (Muridae: Murinae)Evolution, 73
Bloom (2013)
Do freshwater fishes diversify faster than marine fishes? a test using state-dependent diversification analyses and molecular phylogenetics of new world silversides (Atherinopsidae)Evolution, 67
Yoder (2010)
Ecological opportunity and the origin of adaptive radiationsJ Evol Biol, 23
Weiher (1995)
Assembly rules, null models, and trait dispersion: new questions from old patternsOikos, 74
Miller (2021)
Comparing diversification rates in lakes, rivers, and the seaEvolution, 75
Hembry (2020)
Ecological interactions and macroevolution: a new field with old rootsAnnu Rev Ecol Evol Syst, 51
Malabarba (2017)
A new predatory herring-like fish (Teleostei: Clupeiformes) from the early cretaceous of Brazil, and implications for relationships in the ClupeoideiZool J Linn Soc, 180
Campanella (2015)
Multi-locus fossil-calibrated phylogeny of Atheriniformes (Teleostei, Ovalentaria)Mol Phylogenet Evol, 86
Kolmann (2020)
Habitat transitions alter the adaptive landscape and shape phenotypic evolution in needlefishes (Belonidae)Ecol Evol, 10
Evolutionary transitions between marine and freshwater ecosystems have occurred repeatedly throughout the phylogenetic history of fishes. The theory of ecological opportunity predicts that lineages that colonize species-poor regions will have greater potential for phenotypic diversification than lineages invading species-rich regions. Thus, transitions between marine and freshwaters may promote phenotypic diversification in trans-marine/freshwater fish clades. We used phylogenetic comparative methods to analyze body size data in nine major fish clades that have crossed the marine/freshwater boundary. We explored how habitat transitions, ecological opportunity, and community interactions influenced patterns of phenotypic diversity. Our analyses indicated that transitions between marine and freshwater habitats did not drive body size evolution, and there are few differences in body size between marine and freshwater lineages. We found that body size disparity in freshwater lineages is not correlated with the number of independent transitions to freshwaters. We found a positive correlation between body size disparity and overall species richness of a given area, and a negative correlation between body size disparity and diversity of closely related species. Our results indicate that the diversity of incumbent freshwater species does not restrict phenotypic diversification, but the diversity of closely related taxa can limit body size diversification. Ecological opportunity arising from colonization of novel habitats does not seem to have a major effect in the trajectory of body size evolution in trans-marine/freshwater clades. Moreover, competition with closely related taxa in freshwaters has a greater effect than competition with distantly related incumbent species.
Integrative and Comparative Biology – Oxford University Press
Published: Jun 8, 2022
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