ADAPTATION VS. PHENOTYPIC PLASTICITY IN THE SUCCESS OF A CLONAL INVADER
about
Phenotypic plasticity of the introduced New Zealand mud snail, Potamopyrgus antipodarum, compared to sympatric native snailsWhat can aquatic gastropods tell us about phenotypic plasticity? A review and meta-analysis.Adaptive evolution and phenotypic plasticity during naturalization and spread of invasive species: implications for tree invasion biologyThe Invasion of Coastal Areas in South China by Ipomoea cairica May Be Accelerated by the Ecotype Being More Locally Adapted to Salt StressEvolution and behavioural responses to human-induced rapid environmental change.Phylogeny and androgenesis in the invasive Corbicula clams (Bivalvia, Corbiculidae) in Western EuropeFoundations of invasion genetics: the Baker and Stebbins legacyPersistent Copulation in Asexual Female Potamopyrgus antipodarum: Evidence for Male Control with Size-Based Preferences.QTL mapping of temperature sensitivity reveals candidate genes for thermal adaptation and growth morphology in the plant pathogenic fungus Zymoseptoria triticiEvolutionary potential of upper thermal tolerance: biogeographic patterns and expectations under climate change.Rapid plant invasion in distinct climates involves different sources of phenotypic variationProfound effects of population density on fitness-related traits in an invasive freshwater snail.A native fungal symbiont facilitates the prevalence and development of an invasive pathogen-native vector symbiosis.Stochastic developmental variation, an epigenetic source of phenotypic diversity with far-reaching biological consequences.Genetic and maternal effects on tail spine and body length in the invasive spiny water flea (Bythotrephes longimanus)Androgenesis: a review through the study of the selfish shellfish Corbicula spp.Male offspring production by asexual Potamopyrgus antipodarum, a New Zealand snailEffects of polyploidy and reproductive mode on life history trait expression.Introduced Drosophila subobscura populations perform better than native populations during an oviposition choice task due to increased fecundity but similar learning abilityAdaptive responses and invasion: the role of plasticity and evolution in snail shell morphology.Thermotolerance adaptation to human-modified habitats occurs in the native range of the invasive ant Wasmannia auropunctata before long-distance dispersalLife-history trait plasticity and its relationships with plant adaptation and insect fitness: a case study on the aphid Sitobion avenaeResponse to phosphorus limitation varies among lake populations of the freshwater snail Potamopyrgus antipodarum.Genetic variation for mitochondrial function in the New Zealand freshwater snail Potamopyrgus antipodarum.Self-fertilization, long-distance flash invasion and biogeography shape the population structure of Pseudosuccinea columella at the worldwide scale.Sensitivity to dietary phosphorus limitation in native vs. invasive lineages of a New Zealand freshwater snail.Forecasting New Zealand Mudsnail invasion range: model comparisons using native and invaded ranges.Niche differentiation and colonization of a novel environment by an asexual parasitic wasp.Facilitation of environmental adaptation and evolution by epigenetic phenotype variation: insights from clonal, invasive, polyploid, and domesticated animals.Predator-induced phenotypic plasticity of shape and behavior: parallel and unique patterns across sexes and species.Thermal adaptation in the fungal pathogen Mycosphaerella graminicola.Habitat-specific variation and performance trade-offs in shell armature of New Zealand mudsnails.Modelling the growth and population dynamics of the exiled Stockton coal plateau landsnail,Powelliphanta augustaImpacts of changing climate on the non-indigenous invertebrates in the northern Baltic Sea by end of the twenty-first centuryDoes water chemistry limit the distribution of New Zealand mud snails in Redwood National Park?Complex patterns of global spread in invasive insects: eco-evolutionary and management consequencesThe roles of resource availability and competition in mediating growth rates of invasive and native freshwater snailsEcology of the invasive New Zealand mud snail, Potamopyrgus antipodarum (Hydrobiidae), in a mediterranean-climate stream systemParallel variation among populations in the shell morphology between sympatric native and invasive aquatic snailsPossible influences of plasticity and genetic/maternal effects on species coexistence: nativeGammarus fasciatusfacing exotic amphipods
P2860
Q21090639-4BC2AC59-833A-4089-BC56-EF499DE723E4Q27323160-776F727C-0E88-40D7-A15D-D86EC05C0CA0Q28109473-33A0AD3A-55FC-4D88-AF2B-87F3CF05489DQ28550105-025D7890-A83F-423D-84DB-BF19B366D4F3Q28729956-3C5FEF5A-9C89-458F-945A-86AD1EF0044DQ28743097-12B46417-0729-4A23-9B34-6B1920C344EEQ29039462-B7B04D91-141E-48F1-BFE5-45E7FBC0F1F8Q30501412-604BA754-CEDE-4A41-9133-8D3E6FF2AB79Q31036462-A3E34240-AD76-431F-8D50-2A83C3B550B4Q31134968-654E808E-2050-4D4C-864B-883A3CFA4F1EQ34576833-A25B1900-7684-41E9-AE22-DA42F802EA95Q35053435-D5942C9F-7504-493E-AF26-3A239EB7EB9CQ35111653-135BD7FF-9EFA-42FD-9707-80CB338799CFQ35571789-6DADD42C-AE9E-4811-86DD-8210C76B282EQ35963672-6814B852-036B-4C98-B4B8-B87496BA76B6Q35974717-0127D1F2-B523-40BC-A56D-187DB009C42AQ36032775-BBACBC27-4C5B-49D7-864F-9B69B0719578Q36539208-687BA2E3-9858-46B3-8BF8-D761C561AD8AQ36584150-AC05B040-7F19-475E-B50F-52C02D238629Q36651817-7AB21638-2C1D-41BE-8884-8E196486BE7AQ36935125-97DC0CBF-548E-4511-958D-F9EF9FF8FDE3Q37101432-A97A6349-443E-4F18-AE5B-52837CD9289DQ37488037-54AC3AAD-C105-4527-94FE-9F53EB1B7370Q38810948-CEEF6C3F-3F17-41A5-B074-29F79B3E102CQ39190429-95EE85E8-4B73-4E51-BBE2-79E46BFEBBD6Q39275899-9DC7F293-7037-4816-BC5E-614D69D58354Q40216230-56EC6ACC-511D-44A5-BD45-AD55D0240FA0Q45414342-DA249094-0D44-4062-8332-BD5906DAFB8DQ50421468-0014663C-327A-4072-9DF2-1ADC4D14D176Q51150514-84AFEA03-0715-49D8-8821-AA55DC9E1954Q51160353-4E13779C-7047-48D7-8307-2AA6A546EA0DQ51727930-EC75B8F8-477C-4A87-9270-C0FA2CFF0825Q54576676-8B718BD3-04B1-4429-A5D4-87EE8D3E550DQ56380966-C6F617D9-7E00-4000-85DB-CDDF86B3C888Q56395586-42792BE9-AF37-48F8-92B9-A01A151D3802Q56410902-6A1F6301-FE22-43B7-B0CB-1A2EB782C0BBQ56433087-1E5AFE7D-3794-49A4-BD3F-D4D517759359Q56438518-BCDA217B-86D6-494B-8BB8-ECEDC40C5317Q56445313-713C3E32-A25E-4769-B7ED-5F616273DB11Q56479843-1FE45320-595D-415F-B41B-9F6BE3CD8931
P2860
ADAPTATION VS. PHENOTYPIC PLASTICITY IN THE SUCCESS OF A CLONAL INVADER
description
im Juni 2005 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 2005
@uk
name
ADAPTATION VS. PHENOTYPIC PLASTICITY IN THE SUCCESS OF A CLONAL INVADER
@en
ADAPTATION VS. PHENOTYPIC PLASTICITY IN THE SUCCESS OF A CLONAL INVADER
@nl
type
label
ADAPTATION VS. PHENOTYPIC PLASTICITY IN THE SUCCESS OF A CLONAL INVADER
@en
ADAPTATION VS. PHENOTYPIC PLASTICITY IN THE SUCCESS OF A CLONAL INVADER
@nl
prefLabel
ADAPTATION VS. PHENOTYPIC PLASTICITY IN THE SUCCESS OF A CLONAL INVADER
@en
ADAPTATION VS. PHENOTYPIC PLASTICITY IN THE SUCCESS OF A CLONAL INVADER
@nl
P2860
P356
P1433
P1476
ADAPTATION VS. PHENOTYPIC PLASTICITY IN THE SUCCESS OF A CLONAL INVADER
@en
P2093
Mark F. Dybdahl
Stephanie L. Kane
P2860
P304
P356
10.1890/04-0898
P407
P577
2005-06-01T00:00:00Z