<div><p>The ability to succeed in diverse conditions is a key factor allowing introduced species to successfully invade and spread across new areas. Two non-exclusive factors have been suggested to promote this ability: adaptive phenotypic plasticity of individuals, and the evolution of locally adapted populations in the new range. We investigated these individual and population-level factors in <em>Polygonum cespitosum</em>, an Asian annual that has recently become invasive in northeastern North America. We characterized individual fitness, life-history, and functional plasticity in response to two contrasting glasshouse habitat treatments (full sun/dry soil and understory shade/moist soil) in 165 genotypes sampled from nine geographically...
<div><p>Phenotypic plasticity has long been suspected to allow invasive species to expand their geog...
Invasion biologists often suggest that phenotypic plasticity plays an important role in successful p...
For organisms to adapt to future environments, they must both evolve appropriate functional response...
The ability to succeed in diverse conditions is a key factor allowing introduced species to successf...
The ability to succeed in diverse conditions is a key factor allowing introduced species to successf...
Invasion biologists often suggest that phenotypic plasticity plays an important role in successful p...
Phenotypic differentiation in size and fecundity between native and invasive populations of a specie...
Phenotypic plasticity can promote plant invasions and enhance impacts on native species but little i...
Global change drivers create new environmental scenarios and selective pressures, affecting plant sp...
Phenotypic differentiation in size and fecundity between native and invasive populations of a specie...
Global climate change may increase biological invasions in part because invasive species may have gr...
Phenotypic plasticity has long been suspected to allow invasive species to expand their geographic r...
Background and Aims: Phenotypic plasticity and genetic differentiation both play important roles in ...
Invasion biologists often suggest that phenotypic plasticity plays an important role in successful p...
Rapid local adaptation frequently occurs during the spread of invading species. It remains unclear, ...
<div><p>Phenotypic plasticity has long been suspected to allow invasive species to expand their geog...
Invasion biologists often suggest that phenotypic plasticity plays an important role in successful p...
For organisms to adapt to future environments, they must both evolve appropriate functional response...
The ability to succeed in diverse conditions is a key factor allowing introduced species to successf...
The ability to succeed in diverse conditions is a key factor allowing introduced species to successf...
Invasion biologists often suggest that phenotypic plasticity plays an important role in successful p...
Phenotypic differentiation in size and fecundity between native and invasive populations of a specie...
Phenotypic plasticity can promote plant invasions and enhance impacts on native species but little i...
Global change drivers create new environmental scenarios and selective pressures, affecting plant sp...
Phenotypic differentiation in size and fecundity between native and invasive populations of a specie...
Global climate change may increase biological invasions in part because invasive species may have gr...
Phenotypic plasticity has long been suspected to allow invasive species to expand their geographic r...
Background and Aims: Phenotypic plasticity and genetic differentiation both play important roles in ...
Invasion biologists often suggest that phenotypic plasticity plays an important role in successful p...
Rapid local adaptation frequently occurs during the spread of invading species. It remains unclear, ...
<div><p>Phenotypic plasticity has long been suspected to allow invasive species to expand their geog...
Invasion biologists often suggest that phenotypic plasticity plays an important role in successful p...
For organisms to adapt to future environments, they must both evolve appropriate functional response...