about
A neutral terminology to define ‘invasive’ speciesPhenological shifts of native and invasive species under climate change: insights from the Boechera-Lythrum model.Understanding and monitoring the consequences of human impacts on intraspecific variation.Population divergence along lines of genetic variance and covariance in the invasive plant Lythrum salicaria in eastern North America.Rapid adaptation to climate facilitates range expansion of an invasive plant.Invasions and extinctions through the looking glass of evolutionary ecology.Genetic trade-offs and conditional neutrality contribute to local adaptation.Origin, fate, and architecture of ecologically relevant genetic variation.Contemporary evolution during invasion: evidence for differentiation, natural selection, and local adaptation.Common garden comparisons of native and introduced plant populations: latitudinal clines can obscure evolutionary inferences.The Global Garlic Mustard Field Survey (GGMFS): challenges and opportunities of a unique, large-scale collaboration for invasion biologyEvolutionary constraints on adaptive evolution during range expansion in an invasive plant.Plant reproductive systems and evolution during biological invasion.Ballast-mediated animal introductions in the Laurentian Great Lakes: retrospective and prospective analysesQ55870450Encyclopedia of Biological Invasions. Encyclopedias of the Natural World, Number 3. Edited by Daniel Simberloff and Marcel Rejmánek. Berkeley (California): University of California Press. $95.00. xxiv + 765 p.; ill.; index. ISBN: 978‐0‐520‐264Natural Selection and Genetic Constraints on Flowering Phenology in an Invasive PlantVariation of Self‐Incompatibility within Invasive Populations of Purple Loosestrife (Lythrum salicaria L.) from Eastern North AmericaSubjectivity and flexibility in invasion terminology: too much of a good thing?Propagule pressure: a null model for biological invasionsPropagule Pressure: A Null Model for Biological InvasionsCharacterised and Projected Costs of Nonindigenous Species in CanadaRealized vs apparent reduction in enemies of the European starlingInvasion genetics of the Eurasian spiny waterflea: evidence for bottlenecks and gene flow using microsatellitesAre characteristics of introduced salmonid fishes biased by propagule pressure?Is invasion success explained by the enemy release hypothesis?CONTEMPORARY EVOLUTION DURING INVASIONPhenotypic plasticity and adaptive evolution contribute to advancing flowering phenology in response to climate changeIn search of an operational lexicon for biological invasionsBridging Troubled Waters: Biological Invasions, Transoceanic Shipping, and the Laurentian Great LakesThe ecology of biological invasions: past, present and futureOpen minded and open access: introducing NeoBiota, a new peer-reviewed journal of biological invasionsIntegrating morphological characters, molecular markers, and distribution patterns to assess the identity of Blepharis species from Jordan
P50
Q28315673-9A05BCD0-0DB1-43B3-8DB8-99A85CC5D9EEQ31147071-2663AD6F-5D4E-4364-9658-01018C1A1867Q31157236-472508A6-34CC-4B7B-8C55-3BC9376DBD6FQ34007724-DB11DEAC-758D-4E21-A84C-E1A01A59D26CQ35020189-D07B21AE-48E4-4AC8-A87C-7BC8AE8F1BE1Q36213907-89F6A6E4-7926-4397-A9FD-1AD952D83022Q36381473-94A50706-D34C-4FF3-A747-2BF4DBBF892BQ37985125-9DFCC024-21F4-4202-9D43-4278D1FBF0A1Q38428375-114ACF70-0286-4D4B-BFAD-244E3E3146F7Q41611116-6573A4F0-784E-4170-97EF-1269DD6666E4Q51146304-68F58FCD-C18C-47B1-9969-5A19E6436ECFQ51180042-03C78A36-ACD5-4BD7-8365-253B8FD70B8BQ51185007-47780B7C-E8FD-4F60-93B8-B8F5F5BB9419Q55870409-59ABC786-1780-4947-9C80-188BC6A19655Q55870450-1D71CA61-7812-46C8-9716-1A963439827EQ56642252-B0DB2305-F2E4-4F53-B9AD-FC3F58CD17E2Q56766033-491A0936-0EDA-4105-824C-94798280E206Q56768777-0BE6E90A-51BD-461C-99EC-0A7C0087E117Q56771239-21A0F96E-0204-4262-935B-17E583B3E4CEQ56776925-6A5DAB17-94CA-4142-AAE3-A483FC979714Q56780535-4225DA1A-C6F3-4312-905E-E20C9E3D5A71Q56781839-B41A0066-B9C3-4E03-83E1-37F8F783E308Q56783106-ADFDDC55-57E7-4718-A7D3-FD1F7F0CFEB5Q56783378-DBF3B810-C81E-4314-AB88-02247940034AQ56783622-162DBEBA-8AE9-4E40-BA35-584618353734Q56785355-CB6C9D3F-8692-48D4-8E27-5842F8793666Q57013618-A15C8878-8131-4E03-9E8B-E6ED13C87604Q57013628-35765235-6A81-4BD9-B8C0-594742B0D7BBQ57013642-4E937748-F15A-41A0-96E6-4B40F313D86CQ57013648-93447D65-A619-4A76-95C9-5E7552E14622Q57013656-EBF8C31E-45EE-4C50-A17A-890EF78AF69FQ63613208-389A35BC-F598-4D3B-B05B-96D57657DE78Q90481812-8355F869-CEBF-4D86-8397-0CD4E4EB6222
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Robert I Colautti
@ast
Robert I Colautti
@en
Robert I Colautti
@es
Robert I Colautti
@nl
Robert I Colautti
@sl
type
label
Robert I Colautti
@ast
Robert I Colautti
@en
Robert I Colautti
@es
Robert I Colautti
@nl
Robert I Colautti
@sl
prefLabel
Robert I Colautti
@ast
Robert I Colautti
@en
Robert I Colautti
@es
Robert I Colautti
@nl
Robert I Colautti
@sl
P106
P21
P31
P496
0000-0003-4213-0711