Parasites and pathogens lag behind their host during periods of host range advance.
about
It is lonely at the front: contrasting evolutionary trajectories in male and female invadersAn invasive fish and the time-lagged spread of its parasite across the Hawaiian archipelagoHost density drives the postglacial migration of the tree parasite, Epifagus virginianaRapid shifts in dispersal behavior on an expanding range edge.Inter-annual variability influences the eco-evolutionary dynamics of range-shiftingParasites and genetic diversity in an invasive bumblebee.Ectomycorrhizal fungal richness declines towards the host species' range edge.Climate change and the ash dieback crisis.Foliar damage beyond species distributions is partly explained by distance dependent interactions with natural enemies.Adaptive evolution during an ongoing range expansion: the invasive bank vole (Myodes glareolus) in Ireland.Life-history evolution in range-shifting populations.Influence of lung parasites on the growth rates of free-ranging and captive adult cane toads.Immune response varies with rate of dispersal in invasive cane toads (Rhinella marina).Reduced inflammation in expanding populations of a neotropical bird species.Invasion and persistence of infectious agents in fragmented host populationsThe early toad gets the worm: cane toads at an invasion front benefit from higher prey availability.An evolutionary process that assembles phenotypes through space rather than through time.Does enemy loss cause release? A biogeographical comparison of parasitoid effects on an introduced insect.Characterisation of major histocompatibility complex class I in the Australian cane toad, Rhinella marinaInvader immunology: invasion history alters immune system function in cane toads (Rhinella marina) in tropical Australia.A genetic perspective on rapid evolution in cane toads (Rhinella marina).Invasive species as drivers of evolutionary change: cane toads in tropical Australia.Parasite vulnerability to climate change: an evidence-based functional trait approach.Do invasive cane toads affect the parasite burdens of native Australian frogs?Rapid genetic and ecological differentiation during the northern range expansion of the venomous yellow sac spider Cheiracanthium punctorium in Europe.Soil pathogen communities associated with native and non-native Phragmites australis populations in freshwater wetlands.Assessing the influence of geographic distance in parasite communities of an exotic lizard.Parasite biodiversity faces extinction and redistribution in a changing climate.Using experimental de-worming to measure the immunological and pathological impacts of lungworm infection in cane toads.Patterns in avian malaria at founder and source populations of an endemic New Zealand passerine.Emergence and accumulation of novel pathogens suppress an invasive species.The things they carried: The pathogenic effects of old and new parasites following the intercontinental invasion of the Australian cane toad (Rhinella marina).Parasite community dynamics in an invasive vole – From focal introduction to wave front.The loneliness of the long-distance toad: invasion history and social attraction in cane toads (Rhinella marina).Rapid evolution of parasite life history traits on an expanding range-edge.Ontogenetic immune challenges shape adult personality in mallard ducks.The thermal dependency of locomotor performance evolves rapidly within an invasive species.Survival of the feces: Does a nematode lungworm adaptively manipulate the behavior of its cane toad host?Distribution of enteropathogenic Yersinia spp. and Salmonella spp. in the Swedish wild boar population, and assessment of risk factors that may affect their prevalence.The accelerating invasion: dispersal rates of cane toads at an invasion front compared to an already-colonized location
P2860
Q28584404-845C37CC-1C50-4375-9E45-3D2EC9F2481BQ28706265-455120D5-0E0D-45F2-8D9E-F2A89E17AF7AQ28749084-761E986F-1F5A-4D8B-B30A-70D6BF9A5F4DQ30658097-38324D66-B47F-47B2-B6EC-444FC90605D9Q30749227-C64B860E-F88C-4C9B-83A4-F22B9BDEC824Q30805034-25EEFFA7-02EE-46C6-B71E-81719410586CQ31065433-AF1F1771-F7D5-4563-BEA1-96361879C529Q31136578-034F61CE-4EE3-4A4E-80D6-00BFC1541596Q31142949-28099F5A-F09F-4896-A53D-34FB0A9286A7Q33455678-5D991867-0C50-4140-9A45-095E466FBE8AQ33618187-2A59262C-3495-4C63-AEFE-1BBFD56CB578Q33746518-275B80B8-61FD-4D4A-B484-8BD234422D1EQ33768871-58393DA2-B422-4DEF-8C62-9094A3A75FA3Q33910254-8F091162-996A-4B91-8570-2234242601AAQ34042777-47D87D4D-DD5C-48CD-AA26-5D751B9801FAQ34566939-566B0216-7354-47BC-B8C1-3AC6B7E783A7Q34804873-B00F4031-6E52-441B-968D-E88B2AB16FBAQ34822814-26927265-9C14-45F1-B4E9-AB01DEECB32FQ35219432-4B49BEC1-A9A9-4782-8131-867EE0D09FA0Q35423283-C4E36C1A-2B02-4F7A-A042-8128F4493162Q35609922-EC4DDC33-8A3F-4471-BFE7-D79C6D3847F4Q35963636-78CDDE25-61A0-4C1A-9E23-ED8F9236CFF3Q36303613-158833AB-E92E-4774-9D4E-B41C67846DBCQ37390711-48D2EC2D-A4BC-4904-932F-81E1267C082AQ37412257-E1363C24-6095-4DE5-9986-A08D7709F6E2Q37480940-F4100DB1-19F0-4936-B4F8-9380CE6F0986Q40987207-AFFD4A44-B279-4064-8208-B30AEB558C0FQ41633545-1BBE8B01-7C8A-4679-BE77-DF476E92FCAFQ42364338-2EEE35E7-FA96-46E8-BCAC-1FA73E3F29E2Q43527436-11B5E59F-49D0-42AC-AC61-1C70C2123D0DQ46587118-3F8290DB-F7AC-4A38-9A23-EF2D26DCDC81Q47096136-FDA251F1-BCB6-414A-83C2-CCE05EFEF879Q47121062-8A9C6A76-9A0B-4D6C-B514-777CFF12CD41Q47565585-56DC9B2D-3BEE-4346-92BA-D65934CB96DEQ51173206-E6E405E2-005C-44E2-B34D-2EA4AC681E00Q51864787-8B498433-AD11-4639-B402-5E8A8CA16F9FQ55287348-1B93D7FB-3A92-49C6-8A5D-3CB059E852BFQ55393626-490E9949-2C6F-4363-92C1-E664DAC7530EQ55518003-5020FECF-B57B-4FBE-8873-4622188F09A1Q56330132-817265CE-BA4C-47AE-877B-90BAF7BF9F18
P2860
Parasites and pathogens lag behind their host during periods of host range advance.
description
2010 nî lūn-bûn
@nan
2010 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի մարտին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Parasites and pathogens lag behind their host during periods of host range advance.
@ast
Parasites and pathogens lag behind their host during periods of host range advance.
@en
Parasites and pathogens lag behind their host during periods of host range advance.
@nl
type
label
Parasites and pathogens lag behind their host during periods of host range advance.
@ast
Parasites and pathogens lag behind their host during periods of host range advance.
@en
Parasites and pathogens lag behind their host during periods of host range advance.
@nl
prefLabel
Parasites and pathogens lag behind their host during periods of host range advance.
@ast
Parasites and pathogens lag behind their host during periods of host range advance.
@en
Parasites and pathogens lag behind their host during periods of host range advance.
@nl
P2860
P50
P356
P1433
P1476
Parasites and pathogens lag behind their host during periods of host range advance.
@en
P2093
Ligia Pizzatto
P2860
P304
P356
10.1890/09-0530.1
P407
P577
2010-03-01T00:00:00Z