Invasive plants do not display greater phenotypic plasticity than their native or non-invasive counterparts: a meta-analysis
about
Plasticity-mediated persistence in new and changing environmentsIncreased phenotypic plasticity to climate may have boosted the invasion success of polyploid Centaurea stoebeFoundations of invasion genetics: the Baker and Stebbins legacyEvolutionary responses to global change: lessons from invasive species.The physiology of invasive plants in low-resource environmentsTrait values, not trait plasticity, best explain invasive species' performance in a changing environment.Plasticity in gene transcription explains the differential performance of two invasive fish speciesResource competition in plant invasions: emerging patterns and research needsCommon and rare plant species respond differently to fertilisation and competition, whether they are alien or native.The relative importance for plant invasiveness of trait means, and their plasticity and integration in a multivariate framework.Two sides of the same coin? Rare and pest plants native to the United States and Canada.Norway maple displays greater seasonal growth and phenotypic plasticity to light than native sugar maple.Rapid plant invasion in distinct climates involves different sources of phenotypic variationTranscriptome divergence between introduced and native populations of Canada thistle, Cirsium arvense.Effect of intra- and interspecific competition on the performance of native and invasive species of Impatiens under varying levels of shade and moistureA comparison of the recruitment success of introduced and native species under natural conditions.Responses to nitrogen pulses and growth under low nitrogen availability in invasive and native tree species with differing successional status.The invasive wetland plant Alternanthera philoxeroides shows a higher tolerance to waterlogging than its native Congener Alternanthera sessilisA comparative study of physiological and morphological seedling traits associated with shade tolerance in introduced red oak (Quercus rubra) and native hardwood tree species in southwestern Germany.Can transgenerational plasticity contribute to the invasion success of annual plant species?Stress relief may promote the evolution of greater phenotypic plasticity in exotic invasive species: a hypothesisWhat we still don't know about invasion genetics.Evolution of phenotypic plasticity in colonizing species.Physiological and biochemical plasticity of Lepidium latifolium as 'sleeper weed' in Western Himalayas.Differences in developmental strategies between long-settled and invasion-front populations of the cane toad in Australia.Functional traits contributed to the superior performance of the exotic species Robinia pseudoacacia: a comparison with the native tree Sophora japonica.The Relative Importance of Genetic Diversity and Phenotypic Plasticity in Determining Invasion Success of a Clonal Weed in the USA and China.Invasions and extinctions through the looking glass of evolutionary ecology.Release from belowground enemies and shifts in root traits as interrelated drivers of alien plant invasion success: a hypothesis.Experimental assessment of factors mediating the naturalization of a globally invasive tree on sandy coastal plains: a case study from Brazil.Maximal stomatal conductance to water and plasticity in stomatal traits differ between native and invasive introduced lineages of Phragmites australis in North America.Five decades of invasion genetics.Invasive clonal plant species have a greater root-foraging plasticity than non-invasive ones.Molecular genetics and genomics generate new insights into invertebrate pest invasions.Alien plant species with a wider global distribution are better able to capitalize on increased resource availability.Differences in functional traits between invasive and native Amaranthus species under different forms of N deposition.Beware: alien invasion. Where to next for an understanding of weed ecology?Advancing impact prediction and hypothesis testing in invasion ecology using a comparative functional response approachResponses of common and rare aliens and natives to nutrient availability and fluctuationsExperience of inundation or drought alters the responses of plants to subsequent water conditions
P2860
Q26863269-7CCF0536-1B5D-43F7-80F7-1C50A7EC1FD3Q28710579-FCE8340A-EEF9-4E4D-8152-E250AEA895CFQ29039462-5CB80CB1-D3E4-4EB6-BE8E-7EF8FCD28216Q30773718-A167F09A-B606-450C-9EF9-DDB978249FF6Q31107584-CB0C697A-D990-4A07-AEA3-851B8934ADA2Q33354644-40517312-AE58-41FB-84CC-67563A84AAABQ33792293-85B8321B-63D8-4EF9-9DF7-764F29139FDDQ34264150-3ABFAD87-F2B3-4C04-8589-50C442BF5FC4Q34296133-C6B4A78B-81DF-4E9A-95FD-062157FA19F4Q34307974-9792C0F1-22AB-4649-8925-E4A1058FF8C3Q34386479-0611D5F0-6194-49B6-B018-B7140939FAF4Q34450074-329EC344-8179-4D84-A280-3AFF1FDC006DQ34576833-55101A87-5A9B-4F2D-A7E1-739E122283F7Q34668800-8C35DE9A-373E-4EB7-BEB8-555FACDEA5D7Q34722704-618FDF90-C076-4FF1-908C-719B91743EFBQ34951705-2B291551-26BF-40D2-B1C2-FA5F9D8D4689Q35057240-884223E4-29DF-4D07-AEA9-C472140DEE9FQ35058585-059728FC-EF6E-4605-B085-C0A9663D345BQ35095018-8D8F768B-5BF6-4A81-A2B0-394D738FC37FQ35188226-A61F06A7-4C88-4B97-90CB-E3EDE8838B7DQ35226329-37455D8A-2FF6-472E-A8A8-885E023AAADBQ35489352-3625D45A-4BFF-4370-A89F-32F7CF942B39Q35537861-32185A5D-DDC3-4702-9A9D-4021C62664D9Q35741997-BAFD7ADC-A78F-43BB-BD8E-579BF20B821FQ35835655-F15FCAAE-0077-4CBE-8935-939A11E39F75Q35865821-B213A713-8671-4F6C-BDA8-B979CFB03F72Q35945715-EFA0AFF3-7FC3-4EC1-8863-FCB4D6C435A6Q36213907-14EF6D95-5136-43D2-91E9-4408828A80CCQ36347950-E9CC946C-A1FC-4859-B7C1-5D73680E2D60Q37154808-429D0DD4-320D-4E5D-9E52-16105D7F34CCQ38964150-7E03216E-9532-4DFB-ABD2-B1CDD7C8A3A9Q46797203-07C9AAAB-F5FE-4AD9-B5BA-C8A6B0C589EFQ46957667-46850B67-FFE2-4570-920A-EC82F3A7169FQ47550127-8BEB8D38-5448-4369-A748-C2432571E432Q48030547-70A5B461-3CB5-49A4-A474-0E06135F560EQ51152146-8A5A84AC-CD42-49C9-AC09-6C5D0559E9FAQ51169596-5E26F300-02A6-4A0A-BC96-BFB593669FCFQ55328193-01885E99-57F5-432F-92D9-14C18F2D56B3Q56331377-B917DE14-8AC4-425D-BBB4-8AD9681AA8DDQ56367521-C0BB1722-6578-4DAE-9673-4F7BE2538793
P2860
Invasive plants do not display greater phenotypic plasticity than their native or non-invasive counterparts: a meta-analysis
description
article
@en
im Mai 2011 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в травні 2011
@uk
name
Invasive plants do not display ...... counterparts: a meta-analysis
@en
Invasive plants do not display ...... counterparts: a meta-analysis
@nl
type
label
Invasive plants do not display ...... counterparts: a meta-analysis
@en
Invasive plants do not display ...... counterparts: a meta-analysis
@nl
prefLabel
Invasive plants do not display ...... counterparts: a meta-analysis
@en
Invasive plants do not display ...... counterparts: a meta-analysis
@nl
P2860
P1433
P1476
Invasive plants do not display ...... counterparts: a meta-analysis
@en
P2093
Kattia Palacio-López
P2860
P304
P356
10.1111/J.1600-0706.2010.19114.X
P577
2011-05-31T00:00:00Z