Journal ArticleDOI
Predicting Plant Migration Rates in a Changing World: The Role of Long-Distance Dispersal.
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TLDR
Although dispersal had the strongest effect on the predicted spread rate, it was showed that dispersal interacts strongly with plant life history, disturbance, and habitat loss in influencing the predicted rate of spread.Abstract:
Models of plant migration based on estimates of biological parameters severely underestimate the rate of spread when compared to empirical estimates of plant migration rates. This is disturbing, since an ability to predict migration and colonization rates is needed for predicting how native species will distribute themselves in response to habitat loss and climate change and how rapidly invasive species will spread. Part of the problem is the difficulty of formally including rare long‐distance dispersal events in spread models. In this article, we explore the process of making predictions about plant migration rates. In particular, we examine the links between data, statistical models, and ecological predictions. We fit mixtures of Weibull distributions to several dispersal data sets and show that statistical and biological criteria for selecting the most appropriate statistical model conflict. Fitting a two‐component mixture model to the same data increases the spread‐rate prediction by an aver...read more
Citations
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Journal ArticleDOI
Predicting the impacts of climate change on the distribution of species: are bioclimate envelope models useful?
TL;DR: In this paper, a hierarchical modeling framework is proposed through which some of these limitations can be addressed within a broader, scale-dependent framework, and it is proposed that, although the complexity of the natural system presents fundamental limits to predictive modelling, the bioclimate envelope approach can provide a useful first approximation as to the potentially dramatic impact of climate change on biodiversity.
Journal ArticleDOI
Spatial patterns of seed dispersal, their determinants and consequences for recruitment.
TL;DR: Together with the development and refinement of mathematical models, this promises a deeper, more mechanistic understanding of dispersal processes and their consequences.
Journal ArticleDOI
Predicting global change impacts on plant species' distributions: Future challenges
Wilfried Thuiller,Cécile H. Albert,Miguel B. Araújo,Pam Berry,Mar Cabeza,Antoine Guisan,Thomas Hickler,Guy F. Midgley,James S. Paterson,Frank M. Schurr,Martin T. Sykes,Niklaus E. Zimmermann +11 more
TL;DR: This review proposes two main avenues to progress the understanding and prediction of the different processes occurring on the leading and trailing edge of the species' distribution in response to any global change phenomena and concludes with clear guidelines on how such modelling improvements will benefit conservation strategies in a changing world.
Journal ArticleDOI
Long-distance seed dispersal in plant populations.
TL;DR: It is argued that genetic methods provide a broadly applicable way to monitor long-distance seed dispersal and, hence, that better data is needed from the tails of seeds that travel long distances.
Journal ArticleDOI
Plant invasions : merging the concepts of species invasiveness and community invasibility
David M. Richardson,Petr Pyšek +1 more
TL;DR: Concepts, hypotheses and theories reviewed here can be linked to the naturalization-invasion continuum concept, which relates invasion processes with a sequence of environmental and biotic barriers that an introduced species must negotiate to become casual, naturalized and invasive.
References
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Journal ArticleDOI
Ecology of Seed Dispersal
Henry E Howe,Judith Smallwood +1 more
TL;DR: A general objective of this paper is to explore the degree to which dispersal process and mode are integrated and, in so doing, to catalyze their union.
Journal ArticleDOI
Habitat destruction and the extinction debt
TL;DR: A model is described that explains multispecies coexistence in patchy habitats and which predicts that their abundance may be fleeting, a future ecological cost of current habitat destruction.
Journal ArticleDOI
Random dispersal in theoretical populations.
TL;DR: In this paper, the authors used the random walk problem as a starting point for the analytical study of dispersal in living organisms and applied the law of diffusion to the understanding of the spatial distribution of population density in both linear and two-dimensional habitats.