Phenotypic novelty in experimental hybrids is predicted by the genetic distance between species of cichlid fish

Stelkens, Rike; Schmid, Corinne; Selz, Oliver M.; Seehausen, Ole

doi:10.1186/1471-2148-9-283

Cited by 133 publications

(193 citation statements)

References 74 publications

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“…The ratio of the H, HG and G locus types was approximately equal to 1:2:1 following the genetic segregation of Mendelian law. This result differed from several reports on the abnormal genetic patterns of fish F 2 hybrids analyzed using molecular methods (Liu, 2003;Liu et al, 1998;Stelkens et al, 2009). Collectively, the backcross progeny and F 2 hybrids showed a degree of genetic recombination and segregation despite using only one nuclear marker.…”

Section: Maternal Inheritance and Genetic Recombinationcontrasting

confidence: 99%

Artificial interspecific backcrosses between the hybrid of female Crassostrea hongkongensis × male C. gigas and the two parental species

Zhang

et al. 2016

Aquaculture

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Section: Maternal Inheritance and Genetic Recombinationcontrasting

confidence: 99%

Artificial interspecific backcrosses between the hybrid of female Crassostrea hongkongensis × male C. gigas and the two parental species

Zhang

et al. 2016

Aquaculture

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“…In addition, Tilapiine species (Oreochromis esculentus and Oreochromis niloticus) have also been reported to hybridize under experimental conditions (Welcomme 1966). Other GM studies regarding African cichlids (haplochromines) in lake Tanganyika reported pronounced shape variations in the F1 hybrids and concluded that hybridization among cichlids contribute significantly to morphological divergent (Stelkens et al 2009;Kerschbaumer and Sturmbauer 2011). The outstanding morph divergent exhibited by Victoria and Kyoga populations might therefore be an expression of introgression between Nile tilapia and its native relatives which might be one possible explanation why the native Tilapiines vanished.…”

Section: Discussionmentioning

confidence: 99%

Anthropogenic impacts on the contextual morphological diversification and adaptation of Nile tilapia (Oreochromis niloticus, L. 1758) in East Africa

et al. 2018

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Nile tilapia occurs naturally in East Africa where it's an economically important species. Many of the natural populations of Nile tilapia have been affected by anthropogenic activities including translocations, associated with programmes aimed at enhancing capture fisheries and aquaculture productivity. Using geometric morphometric analyses, we tested the hypothesis that such anthropogenic activities have augmented admixture among natural populations of Nile tilapia and influenced the geographical distribution of morphological variation within the species. Our expectation was that Nile tilapia shape divergent might be consistent with reportedly anthropogenic activities in nonnative environments. To test this hypothesis, we analyzed the shapes of 490 individuals from thirteen populations; three farms, six natives and four nonnative natural populations. Our analysis revealed that the most pronounced shape diversification was observed in seven populations; three nonnatives (Victoria, Kyoga and Sindi farm) and four natives (Albert, River Nile, George and Turkana). The features responsible for the observed morphotypes were mainly related to the orientation of the anterior region of the fish and may be due to diversifying selection in response to new environmental pressures (for nonnative populations), admixture or drift. Shape change in the nonnative high-altitude populations was unexpectedly conserved, suggesting recent introductions which may have not resulted in admixture or there was strong selection against change in the traits measured. On the other hand, the recorded morphotypic clusters explained the possible genetic link to their putative ancestral home. Our results were partially consistent with our prediction that the nonnative populations exhibited divergent morphotypes. We recommend further investigations with molecular genetics for followup of these findings.

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“…This results in the occurrence of extreme trait values not observed in either parental taxon, including novel phenotypes, 27 ultimately increasing phenotypic variation in hybrid populations. Transgressive segregation has been shown to increase with increasing genetic distance between parental species 27 due to a rising number of fixed alleles with opposite effects. 28 Transgression in important traits is one means by which hybrids can invade and succeed in niches that are distinct from their parental species.…”

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confidence: 96%

Phenotypic traits of primate hybrids: Recognizing admixture in the fossil record

Ackermann

2010

Evolutionary Anthropology

116

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For many years, the likelihood that hybridization occurred in human evolution has been debated. Tattersall and Schwartz pointed out one of the core problems with resolving this debate, namely “that nobody has any idea what a Neanderthal/modern human hybrid might look like in theory, and few have dared to suggest in practice that any particular known fossil represents such a hybrid.”1:7117 Moreover, while molecular data is proving increasingly useful for characterising hybrid zones, the utility of the phenotype for this purpose is not clear.2 Here I address these issues, discussing both theoretical and empirically‐derived expectations for what hybrid morphology looks like, with an emphasis on the skeleton of hybrid primates, and consideration of the hominin fossil record.

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Phenotypic novelty in experimental hybrids is predicted by the genetic distance between species of cichlid fish

Cited by 133 publications

References 74 publications

Artificial interspecific backcrosses between the hybrid of female Crassostrea hongkongensis × male C. gigas and the two parental species

Artificial interspecific backcrosses between the hybrid of female Crassostrea hongkongensis × male C. gigas and the two parental species

Anthropogenic impacts on the contextual morphological diversification and adaptation of Nile tilapia (Oreochromis niloticus, L. 1758) in East Africa

Phenotypic traits of primate hybrids: Recognizing admixture in the fossil record

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