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dc.creatorZenni, Rafael Dudeque-
dc.creatorCunha, Wanderson Lacerda da-
dc.creatorSena, Guilherme-
dc.date.accessioned2018-11-21T18:55:24Z-
dc.date.available2018-11-21T18:55:24Z-
dc.date.issued2016-
dc.identifier.citationZENNI, R. D.; CUNHA, W. L. da; SENA, G. Rapid increase in growth and productivity can aid invasions by a non-native tree. AoB Plants, [S.l.], v. 8, p. 1-16, 2016.pt_BR
dc.identifier.urihttp://repositorio.ufla.br/jspui/handle/1/31872-
dc.description.abstractResearch on biological invasions has produced detailed theories describing range expansions of introduced populations. However, current knowledge of evolutionary factors associated with invasive range expansions, especially those related to rapid evolution of long-lived organisms, is still rudimentary. Here, we used a system of six 40-year-old invasive pine populations that originated from replicated introduction events to study evolution in productivity, growth, and chemical defence traits. We tested the hypotheses that invasive populations were undergoing rapid phenotypic change as populations spread, that populations exhibit trade-offs between evolution in growth and chemical defences, and that rates of rapid evolution in plant growth and productivity effect rates of invasion. Although all invasions started from replicated pools of genetic material and equal propagule pressure, we found divergence in mean values for the six invasive populations in the six traits measured. Not only were there between-population variations but also invasive populations were also rapidly changing along each invasive population expansion. Two populations displayed greater leaf areas (LAs) and smaller specific LAs (SLAs) during range expansion. Four populations had faster growth rates at the leading edge of the invasion front in comparison with plants at the rear edge. In terms of total plant defences, non-volatile resin increased in plants along one invasion gradient and decreased in a second, total needle phenolics increased in plants along one invasion gradient and total wood phenolics increased in plants along the one invasion gradient and decreased in a second. We found no trade-offs between investments in growth and chemical defence. Also, faster rates of change in growth rate and LA were positively associated with greater dispersal distances of invasive populations, suggesting rapid evolution may increase invasiveness. Understanding the roles of both natural and human-mediated ecological and evolutionary processes in population-level dynamics is key to understanding the ability of non-native species to invade.pt_BR
dc.languageen_USpt_BR
dc.publisherOxford University Presspt_BR
dc.rightsacesso abertopt_BR
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/*
dc.sourceAoB Plantspt_BR
dc.subjectBiological invasionspt_BR
dc.subjectContemporary evolutionpt_BR
dc.subjectExotic speciespt_BR
dc.subjectGrowth-defence trade-offspt_BR
dc.subjectInvasion biologypt_BR
dc.subjectInvasivenesspt_BR
dc.subjectPinus taedapt_BR
dc.subjectRange expansionpt_BR
dc.subjectTree invasionspt_BR
dc.titleRapid increase in growth and productivity can aid invasions by a non-native treept_BR
dc.typeArtigopt_BR
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