2022-12-292022-12-292019-10DINIZ-FILHO, José Alexandre F. et al. Quantitative genetics of body size evolution on islands: an individual-based simulation approach. Biology Letters, London, v. 15, e 20190481, Oct. 2019.e- 1744-9561http://repositorio.bc.ufg.br/handle/ri/21683According to the island rule, small-bodied vertebrateswill tend to evolve larger body size on islands, whereas the opposite happens to large-bodied species. This controversial pattern has been studied at the macroecological and biogeographical scales, but new developments in quantitative evolutionary genetics now allow studying the island rule from a mechanistic perspective. Here, we develop a simulation approach based on an individual-based model to model body size change on islands as a progressive adaptation to amoving optimum, determined by density-dependent population dynamics.We applied the model to evaluate body size differentiation in the pigmy extinct hominin Homo floresiensis, showing that dwarfing may have occurred in only about 360 generations (95% CI ranging from 150 to 675 generations). This result agrees with reports suggesting rapid dwarfing of large mammals on islands, as well as with the recent discovery that small-sized hominins lived in Flores as early as 700 kyr ago. Our simulations illustrate the power of analysing ecological and evolutionary patterns from an explicit quantitative genetics perspective.engAcesso Abertohttp://creativecommons.org/licenses/by-nc-nd/4.0/AdaptationBody sizeDwarfingIsland ruleHomoArtigohttps://doi.org/10.1098/rsbl.2019.0481