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An introduced species\u27 propagule pressure strongly influences the genetic diversity and evolutionary potential of its descendants and even the likelihood of biological invasion. We examined population genetic consequences arising from introduction of the invasive annual grass Bromus tectorum into the central United States (U.S.). The origin and frequency of introductions were investigated by assembling allozyme diversity data from 60 widely spaced populations. At least five introduction events contributed to the grass’s genetic diversity in the central U.S. Populations in this region have fewer alleles (30 vs. 43) and polymorphic loci (5 vs. 13) than native populations, evidence of a genetic bottleneck. However, the populations are, on a...
An emerging insight in invasion biology is that intra-specific genetic variation, human usage, and i...
Bromus tectorum (cheatgrass) is an annual, self-fertilizing grass with an enormous native range acro...
The potential for rapid evolution in invasive species makes them useful for studying adaptive respon...
High propagule pressure is correlated with invasion success, and has important implications for the ...
Biological invasions can be substantially influenced by the genetic sampling associated with a spec...
Molecular markers prove to be an invaluable tool in assessing the introduction dynamics, pattern of ...
Biological invasions are defined as the introduction, establishment and spread of an organism into a...
Premise of the study: Assessing propagule pressure and geographic origins of invasive species provid...
Molecular markers prove to be an invaluable tool in assessing the introduction dynamics, pattern of ...
Biological invasions are a significant area of research due to perceived negative environmental and ...
Biological invasions offer excellent systems to study the evolutionary processes involved in introdu...
The spatial expansions of invasive organisms in the novel range are generally expected to follow an ...
The invasive annual Bromus tectorum (cheatgrass) is distributed in Canada primarily south of 52° N l...
We compared the levels and distribution of genetic diversity in Eurasian and North American populati...
Bromus tectorum, a devastating plant invader in western North America, had entered Pennsylvania by 1...
An emerging insight in invasion biology is that intra-specific genetic variation, human usage, and i...
Bromus tectorum (cheatgrass) is an annual, self-fertilizing grass with an enormous native range acro...
The potential for rapid evolution in invasive species makes them useful for studying adaptive respon...
High propagule pressure is correlated with invasion success, and has important implications for the ...
Biological invasions can be substantially influenced by the genetic sampling associated with a spec...
Molecular markers prove to be an invaluable tool in assessing the introduction dynamics, pattern of ...
Biological invasions are defined as the introduction, establishment and spread of an organism into a...
Premise of the study: Assessing propagule pressure and geographic origins of invasive species provid...
Molecular markers prove to be an invaluable tool in assessing the introduction dynamics, pattern of ...
Biological invasions are a significant area of research due to perceived negative environmental and ...
Biological invasions offer excellent systems to study the evolutionary processes involved in introdu...
The spatial expansions of invasive organisms in the novel range are generally expected to follow an ...
The invasive annual Bromus tectorum (cheatgrass) is distributed in Canada primarily south of 52° N l...
We compared the levels and distribution of genetic diversity in Eurasian and North American populati...
Bromus tectorum, a devastating plant invader in western North America, had entered Pennsylvania by 1...
An emerging insight in invasion biology is that intra-specific genetic variation, human usage, and i...
Bromus tectorum (cheatgrass) is an annual, self-fertilizing grass with an enormous native range acro...
The potential for rapid evolution in invasive species makes them useful for studying adaptive respon...
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