Evolutionary History, Immigration History, and the Extent of Diversification in Community Assembly
نویسندگان
چکیده
During community assembly, species may accumulate not only by immigration, but also by in situ diversification. Diversification has intrigued biologists because its extent varies even among closely related lineages under similar ecological conditions. Recent research has suggested that some of this puzzling variation may be caused by stochastic differences in the history of immigration (relative timing and order of immigration by founding populations), indicating that immigration and diversification may affect community assembly interactively. However, the conditions under which immigration history affects diversification remain unclear. Here we propose the hypothesis that whether or not immigration history influences the extent of diversification depends on the founding populations' prior evolutionary history, using evidence from a bacterial experiment. To create genotypes with different evolutionary histories, replicate populations of Pseudomonas fluorescens were allowed to adapt to a novel environment for a short or long period of time (approximately 10 or 100 bacterial generations) with or without exploiters (viral parasites). Each evolved genotype was then introduced to a new habitat either before or after a standard competitor genotype. Most genotypes diversified to a greater extent when introduced before, rather than after, the competitor. However, introduction order did not affect the extent of diversification when the evolved genotype had previously adapted to the environment for a long period of time without exploiters. Diversification of these populations was low regardless of introduction order. These results suggest that the importance of immigration history in diversification can be predicted by the immigrants' evolutionary past. The hypothesis proposed here may be generally applicable in both micro- and macro-organisms.
منابع مشابه
Assembly-History Dynamics of a Pitcher-Plant Protozoan Community in Experimental Microcosms
BACKGROUND History drives community assembly through differences both in density (density effects) and in the sequence in which species arrive (sequence effects). Density effects arise from predictable population dynamics, which are free of history, but sequence effects are due to a density-free mechanism, arising solely from the order and timing of immigration events. Few studies have determin...
متن کاملAssembly history dictates ecosystem functioning: evidence from wood decomposer communities.
Community assembly history is increasingly recognized as a fundamental determinant of community structure. However, little is known as to how assembly history may affect ecosystem functioning via its effect on community structure. Using wood-decaying fungi as a model system, we provide experimental evidence that large differences in ecosystem functioning can be caused by small differences in sp...
متن کاملSpecial Issue Integrating ecology and phylogenetics: the footprint of history in modern-day communities
In the face of rapid changes in Earth’s biota, understanding the evolutionary processes that drive patterns of species diversity, differentiation, and coexistence in ecosystems globally has never been more pressing. Advances through computational methods, analytical approaches, long-term observations, and well-designed experiments are essential to sustaining the complex interactions and ecosyst...
متن کاملEvolutionary responses of communities to extinctions
................................................................................................................2 INTRODUCTION........................................................................................................3 EVOLUTIONARY DOMAINS OF ATTRACTION ..................................................5 Gradual evolution................................................................
متن کاملPhylogenetic analysis of ecomorphological divergence, community structure, and diversification rates in dusky salamanders (Plethodontidae: Desmognathus).
An important dimension of adaptive radiation is the degree to which diversification rates fluctuate or remain constant through time. Focusing on plethodontid salamanders of the genus Desmognathus, we present a novel synthetic analysis of phylogeographic history, rates of ecomorphological evolution and species accumulation, and community assembly in an adaptive radiation. Dusky salamanders are h...
متن کامل