Supplementary material from "Discovery of facultative parthenogenesis in a new world crocodile"
Posted on 2023-05-24 - 18:44
Over the past two decades, there has been an astounding growth in the documentation of vertebrate facultative parthenogenesis (FP). This unusual reproductive mode has been documented in birds, non-avian reptiles—specifically lizards and snakes—and elasmobranch fishes. Part of this growth among vertebrate taxa is attributable to awareness of the phenomenon itself and advances in molecular genetics/genomics and bioinformatics, and as such our understanding has developed considerably. Nonetheless, questions remain as to its occurrence outside of these vertebrate lineages, most notably in Chelonia (turtles) and Crocodylia (crocodiles, alligators and gharials). The latter group is particularly interesting because unlike all previously documented cases of FP in vertebrates, crocodilians lack sex chromosomes and sex determination is controlled by temperature. Here, using whole-genome sequencing data, we provide the first evidence of FP in a crocodilian, the American Crocodile, Crocodylus acutus. The data support terminal fusion automixis as the reproductive mechanism; a finding which suggests a common evolutionary origin of FP across reptiles, crocodilians and birds. With FP now documented in the two main branches of extant archosaurs, this discovery offers tantalizing insights into the possible reproductive capabilities of the extinct archosaurian relatives of crocodilians and birds, notably members of Pterosauria and Dinosauria.
CITE THIS COLLECTION
Booth, Warren; Levine, Brenna A.; Corush, Joel B.; Davis, Mark A.; Dwyer, Quetzal; Plecker, Roel De; et al. (2023): Supplementary material from "Discovery of facultative parthenogenesis in a new world crocodile". The Royal Society. Collection. https://doi.org/10.6084/m9.figshare.c.6662935.v1
Select your citation style and then place your mouse over the citation text to select it.
Read the peer-reviewed publication
Brenna A. Levine
Joel B. Corush
Mark A. Davis
Roel De Plecker
Gordon W. Schuett