Evolution of Increased Competitive Ability in Invasive Nonindigenous Plants: A Hypothesis
about
The evolution of invasiveness in garden antsRealized niche shift associated with the Eurasian charophyte Nitellopsis obtusa becoming invasive in North AmericaBiological control of invasive plant species: a reassessment for the AnthropoceneReady or Not, Garlic Mustard Is Moving In: Alliaria petiolata as a Member of Eastern North American ForestsImpact of non-indigenous species on natives enhanced by anthropogenic alteration of selection regimesGenetic structure, nestmate recognition and behaviour of two cryptic species of the invasive big-headed ant Pheidole megacephalaIncreased inter-colony fusion rates are associated with reduced COI haplotype diversity in an invasive colonial ascidian Didemnum vexillumThe more the better? The role of polyploidy in facilitating plant invasionsNon-native populations of an invasive tree outperform their native conspecificsGenetic structure reveals a history of multiple independent origins followed by admixture in the allopolyploid weed Salsola ryaniiRapid increase in growth and productivity can aid invasions by a non-native treeGenetic admixture and heterosis may enhance the invasiveness of common ragweedThe Genetic Paradox of Invasions revisited: the potential role of inbreeding × environment interactions in invasion success.Human-aided admixture may fuel ecosystem transformation during biological invasions: theoretical and experimental evidenceAdaptive divergence at the margin of an invaded range.Heritability and evolutionary potential in thermal tolerance traits in the invasive Mediterranean cryptic species of Bemisia tabaci (Hemiptera: Aleyrodidae).Biological invasions, climate change and genomics.Indirect evolutionary rescue: prey adapts, predator avoids extinctionImpact of drought on plant populations of native and invasive origins.Germination and seedling frost tolerance differ between the native and invasive range in common ragweed.Recognition that causal processes change during plant invasion helps explain conflicts in evidence.Invasiveness in plant communities with feedbacks.Fast economic development accelerates biological invasions in China.Cross-attraction between an exotic and a native pine bark beetle: a novel invasion mechanism?Cage matching: head to head competition experiments of an invasive plant species from different regions as a means to test for differentiation.Climate change and invasion by intracontinental range-expanding exotic plants: the role of biotic interactions.Life-history evolution in range-shifting populations.Invasive mechanism and control strategy of Ageratina adenophora (Sprengel).Abundance of introduced species at home predicts abundance away in herbaceous communities.Behavioural and physiological responses to prey-related cues reflect higher competitiveness of invasive vs. native ladybirdsIntroduced Brassica nigra populations exhibit greater growth and herbivore resistance but less tolerance than native populations in the native range.Emergent insights from the synthesis of conceptual frameworks for biological invasions.Reduced inflammation in expanding populations of a neotropical bird species.American trees shift their niches when invading Western Europe: evaluating invasion risks in a changing climate.Lower resistance and higher tolerance of invasive host plants: biocontrol agents reach high densities but exert weak control.Plant invasions, generalist herbivores, and novel defense weapons.An evolutionary modelling approach to understanding the factors behind plant invasiveness and community susceptibility to invasion.Drought tolerance and plasticity in the invasive knapweed Centaurea stoebe s.l. (Asteraceae): effect of populations stronger than those of cytotype and rangeDifferentiation of reproductive and competitive ability in the invaded range of Senecio inaequidens: the role of genetic Allee effects, adaptive and nonadaptive evolution.Novel chemistry of invasive plants: exotic species have more unique metabolomic profiles than native congeners.
P2860
Q21144199-C284393A-51FC-4D06-B907-FFA4EF551405Q26315289-D800391F-424E-4C99-918E-859CDDD31948Q27026960-4A47B22E-6DCF-4DDC-A6E7-0A64F8085ECAQ28109691-70EC9108-FBF7-4BB2-A018-2151A6E6A222Q28314736-25ACBF79-E35A-4312-8D31-A24DA0CC89A0Q28481094-B73AD187-057C-42EC-95C0-B0244CA38B72Q28732330-9803D37D-A31B-421E-810D-111345802680Q28741287-9480E055-4F63-4D40-A0CF-C98879B56900Q28818245-36A07727-9761-4595-8FFB-CD1A59F0EA47Q28830049-005BE841-97C4-49F3-909F-E3F8A5F4F2E8Q28831426-12113CB3-96AC-41FC-BA65-C6CBF6202476Q28959162-A9E2E0E7-CB34-4200-8066-4D93D9516854Q30315413-DFC39060-58A9-447E-8694-744735BF325DQ30391796-A9BF2A86-9379-49E5-AEDE-BFBC24154D4EQ30456509-9AA72676-D169-4A0F-AA32-A6DDBF0B9D6BQ30838124-8FC3CD4D-511E-48FA-938B-ED4D5A40429DQ30890746-FECF7DC3-8F13-498B-BE4A-B1EBCE4AFC7EQ30993354-D6BB20F8-9FDF-4799-A0D2-9C8D9A1988B8Q31124508-7C64D74A-750F-4AFC-95CA-C6AE44CA5CC0Q31142732-6193819B-D7F2-4E50-B548-D6FFE5119D86Q33251800-C2176C2F-BBE7-4D32-A43F-66797E272576Q33278133-19989F5F-CDDD-4A17-B8C4-A191A11A6B2AQ33306694-0414B638-E88C-443D-8CA3-041427EC9B5AQ33309948-078043C8-DEAF-4956-ABCC-F4332D443A21Q33417674-A02BD0C0-F3B8-4E4A-87B8-2D82ECD4F688Q33547764-B07FC42D-8712-4DC2-B313-C35C862E24F3Q33618187-48BC6A03-6813-4CEC-991A-19D9915FD0D2Q33736798-6091252D-E2F7-4A9B-9C06-8745ACA426DEQ33807715-AC7ACDB5-0B5A-4ED6-B261-BE02451127D0Q33807978-E5ADFAB3-A502-4A25-B727-356029607F85Q33848346-9A455B58-9716-4776-9F27-EF8C1351EAC6Q33879643-F41327AD-6D2D-4529-B655-64A3C116E2F8Q33910254-D8DB475D-F788-4DD5-86F6-D1AA61972509Q33910311-AC835DFB-408F-42D9-BA1B-D9B0C0DBAA26Q33921725-1AD5270A-BCFE-4026-A966-C0C407CF3D79Q33929026-F6C5EA78-DD4A-49BE-8309-027E289FB91CQ33943675-BE4E6494-5FFE-4E0C-AA99-ECF8B4BD0913Q33951897-FB31D372-C3B6-4F79-8143-992D9253A23DQ33953829-E6F30C21-83DB-4E49-9608-2472048C40BAQ33960942-71330B9E-9320-4F99-8353-1C2D9E53FB9A
P2860
Evolution of Increased Competitive Ability in Invasive Nonindigenous Plants: A Hypothesis
description
article
@en
im Oktober 1995 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в жовтні 1995
@uk
ലേഖനം
@ml
name
Evolution of Increased Competitive Ability in Invasive Nonindigenous Plants: A Hypothesis
@en
Evolution of Increased Competitive Ability in Invasive Nonindigenous Plants: A Hypothesis
@nl
type
label
Evolution of Increased Competitive Ability in Invasive Nonindigenous Plants: A Hypothesis
@en
Evolution of Increased Competitive Ability in Invasive Nonindigenous Plants: A Hypothesis
@nl
prefLabel
Evolution of Increased Competitive Ability in Invasive Nonindigenous Plants: A Hypothesis
@en
Evolution of Increased Competitive Ability in Invasive Nonindigenous Plants: A Hypothesis
@nl
P356
P1433
P1476
Evolution of Increased Competitive Ability in Invasive Nonindigenous Plants: A Hypothesis
@en
P2093
Bernd Blossey
Rolf Notzold
P356
10.2307/2261425
P407
P577
1995-10-01T00:00:00Z