Ecologia e evolução de Croton floribundus Spreng: como a diversidade e estrutura genética de uma espécie arbórea pioneira são afetadas por distúrbios naturais e antrópicos?

The spatial genetic structure of plant populations may vary across life stages, across generations and among different environmental conditions. These changes are driven by evolutionary and ecological forces. Pioneer tree species exhibit particular life histories and population structures that are mainly affected by environmental changes generated by natural or human disturbances. Our aim was to investigate how the life-history traits, ecological processes, and the genetic factors associated to natural and human disturbances can affect the genetic diversity and structure of populations of a pioneer tree species. We studied Croton floribundus Spreng. (Euphorbiaceae), a pioneer tree species abundant in gaps and secondary areas of the semi-deciduous tropical forest, in two areas with contrasting levels of human disturbance: a primary forest and an early successional forest. In order to address the main question of this study, we examined the pattern of distribution of the species under the different environmental conditions generated by natural and human disturbances (Chapter I); tested and characterized universal chloroplast microsatellite (cpSSR) primers for C. floribundus (Chapter II); developed and characterized nuclear microsatellite (SSR) markers for C. floribundus as well as examined some cytogenetic traits of the species in order to test for polyploidy and to evaluate its implications for the appropriate use of the SSR markers (Chapter III); and evaluated the genetic diversity and structure of C. floribundus between two size classes and among populations in the primary forest and in the early successional forest (Chapter IV). C. floribundus was widespread and equally distributed along the gap size range in the primary forest, but its population structure varied between areas with contrasting levels of human disturbance. Six universal cpSSR loci were optimized and characterized for C. floribundus. The cytogenetic study allowed the accurate characterization of SSR loci as well as provided new data on the origin and evolution of the species. The number of bivalents observed in meiosis n=56 (2n=8x=112) showed the occurrence of polyploidy in all populations studied. High genetic diversity levels were found for C. floribundus. Seed dispersal and colonizations (and extinctions) were determinants of the fine-scale genetic structure of C. floribundus in both forest types. Also, their effects associated to the human disturbances seem to strongly increase the genetic differentiation among populations in the early successional forest. Analysis of nuclear and chloroplast markers suggested that gene flow by pollen is responsible for maintaining the genetic diversity within populations of C. floribundus in both primary and early successional forests. In the latter, gene flow by seeds seem to be equally important. The results showed that gap dynamics, colonization process, and pollen and seed dispersal affect the genetic diversity and structure of the pioneer tree species by increasing or decreasing them depending mainly on the number of colonizers, the number of source populations, the gene flow rates, and the level of human disturbance of the area (AU)