Your search keyword '"Sean D. Schoville"' showing total 2 results

1. Rapid speciation and ecological divergence into North American alpine habitats: the Nippononebria (Coleoptera: Carabidae) species complex

Author

Sean D. Schoville, David H. Kavanaugh, Yi-Ming Weng, Matthew J. Medeiros, Benton M Veire, and Roman Yu. Dudko

Subjects

Северная Америка, 0106 biological sciences, 0301 basic medicine, Species complex, видовой насос, Ecology, Nippononebria, биогеография, Biology, 010603 evolutionary biology, 01 natural sciences, Divergence, альпийская среда обитания, 03 medical and health sciences, 030104 developmental biology, Habitat, экологическая дивергенция, Genetic algorithm, ледниковый климат, жужелицы, диверсификация, Ecology, Evolution, Behavior and Systematics, быстрое видообразование

Abstract

The climate-driven species pump hypothesis has been supported in a number of phylogeographic studies of alpine species. Climate-driven shifts in distribution, coupled with rapid demographic change, have led to strong genetic drift and lineage diversification. Although the species pump has been linked to rapid speciation in a number of studies, few studies have demonstrated that ecological divergence accompanies rapid speciation. Here we examine genetic, morphological and physiological variation in members of the ground beetle taxon Nippononebria, to test three competing hypotheses of evolutionary diversification: isolation and incomplete lineage sorting (no speciation), recent speciation without ecological divergence, or recent speciation with ecological divergence into alpine habitats. Genetic data are consistent with recent divergence, with major lineages forming in the last million years. A species tree analysis, in conjunction with morphological divergence in male reproductive traits, support the formation of three recognized Nippononebria taxa. Furthermore, both morphological and physiological traits demonstrate ecological divergence in alpine lineages, with convergent shifts in body shape and thermal tolerance breadth. This provides strong evidence that the climate-driven species pump can generate ecological novelty, though it is argued that spatial scale may be a key determinant of broader patterns of macroevolution in alpine communities.

Published

2020

2. Testing the ‘Pleistocene species pump’ in alpine habitats: lineage diversification of flightless ground beetles (Coleoptera: Carabidae: Nebria) in relation to altitudinal zonation

Author

David H. Kavanaugh, George K. Roderick, and Sean D. Schoville

Subjects

Nebria, education.field_of_study, biology, Ecology, Range (biology), Population, Nebria ingens, Altitudinal zonation, biology.organism_classification, Nebria ovipennis, Nebria spatulata, Biological dispersal, education, Ecology, Evolution, Behavior and Systematics

Abstract

95..111 Alpine species often have similar demographic responses to Pleistocene climate changes, but exhibit different spatial patterns of genetic diversity. Using a comparative phylogeographical approach, we examined the factors influencing lineage formation in three alpine carabid beetles of the genus Nebria Latreille inhabiting the California Sierra Nevada. These flightless beetles differ in altitudinal zonation and habitat preferences, but overlap spatially, have limited dispersal capacities and share life history characteristics. Species distribution modelling predicted decreasing population connectivity in relation to increasing altitudinal preferences. Diversity patterns at the cytochrome oxidase subunit I gene revealed north–south genetic structure and recent population growth in all three species. The high-elevation-restricted species, Nebria ingens Horn, exhibited a deep phylogeographical split, morphological divergence and evidence of limited, unidirectional gene flow towards the south. This was supported by additional data from three nuclear genes and isolation with migration analysis. Nebria spatulata Van Dyke, inhabiting an intermediate altitudinal range, exhibited fixed morphological differences between northern and southern populations, but showed limited structure. The broadly distributed Nebria ovipennis LeConte showed less structure and lacked morphological variation. Diversification of these Nebria species supports the role of altitudinal zonation in lineage formation and is consistent with the Pleistocene species pump model. © 2012 The Linnean Society of London, Biological Journal of the Linnean Society, 2012, 107, 95–111.

Published

2012