about
Flying ticks: anciently evolved associations that constitute a risk of infectious disease spreadUsing observation-level random effects to model overdispersion in count data in ecology and evolution.An experimental test of the effects of behavioral and immunological defenses against vectors: do they interact to protect birds from blood parasites?Immunological sex differences in socially promiscuous African ground squirrels.The PHA test as an indicator of phagocytic activity in a passerine birdEndoparasite infection has both short- and long-term negative effects on reproductive success of female house sparrows, as revealed by faecal parasitic egg counts.Factors affecting larval tick feeding success: host, density and timeEvidence for interspecific interactions in the ectoparasite infracommunity of a wild mammal.Does allopreening control avian ectoparasites?Does sunlight enhance the effectiveness of avian preening for ectoparasite control?Experimental demonstration of a parasite-induced immune response in wild birds: Darwin's finches and introduced nest flies.Immune responses of wild birds to emerging infectious diseases.Parasites suppress immune-enhancing effect of methionine in nestling great tits.Does antibody binding to diverse antigens predict future infection?Wild mice provide insights into natural killer cell maturation and memory.Ecology of the interaction between Ixodes loricatus (Acari: Ixodidae) and Akodon azarae (Rodentia: Criceridae).Genes of the major histocompatibility complex highlight interactions of the innate and adaptive immune systemFemale blue tits with brighter yellow chests transfer more carotenoids to their eggs after an immune challenge.Erratum to: the acaricidal efficacy of peracetic acid and deltamethrin against the fowl tick, Argas persicus, infesting laying hens.Experimental evidence for distinct costs of pathogenesis and immunity against a natural pathogen in a wild bird.The acaricidal efficacy of peracetic acid and deltamethrin against the fowl tick, Argas persicus, infesting laying hens.Nest-dwelling ectoparasites reduce antioxidant defences in females and nestlings of a passerine: a field experiment.Nest ectoparasites increase physiological stress in breeding birds: an experiment.Genome-wide association and genome partitioning reveal novel genomic regions underlying variation in gastrointestinal nematode burden in a wild bird.Blood-feeding ectoparasites as developmental stressors: Does corticosterone mediate effects of mite infestation on nestling growth, immunity and energy availability?Determinants and short-term physiological consequences of PHA immune response in lesser kestrel nestlings.High costs of infection: Alphavirus infection reduces digestive function and bone and feather growth in nestling house sparrows (Passer domesticus).Tri-trophic ecology of native parasitic nest flies of birds in TobagoInterpreting immunological indices: The importance of taking parasite community into account. An example in blackbirdsTurdus merulaOpposed elevational variation in prevalence and intensity of endoparasites and their vectors in a lizardMicroclimate and host body condition influence mite population growth in a wild bird-ectoparasite system
P2860
Q26783075-04F577A9-AC06-44DF-9E5F-598AC398A2EAQ30860815-179F056D-8B05-42BA-86C4-EEAD085C8F34Q33828533-43FBD12F-E76D-4D4E-85F8-5D149E675FB7Q34310296-D0035DE0-2488-4069-88C8-AB9FD943E324Q35082827-5EFE55E7-C4FC-4D9A-BCEF-BCA6C3FD9E96Q35561241-65FED5EB-E993-4510-B6D2-7BCC8183CF91Q35806946-9F7A7E15-9229-42C2-8486-CC5FA3AD4D58Q35910204-76D21479-AA61-4A7B-989C-CF7F5758D146Q37147194-AD553771-E483-4F5B-BBEB-8E0658BAC441Q37167134-85770FFF-A3E8-4FFC-A314-5B021FCA5D42Q37594691-3BE341C8-A8F0-4F67-A8DE-288F97BB40CFQ38408340-21C37EB5-7E50-42F6-8A39-E88FA91427CAQ38415604-D887BB84-3127-467C-B063-8DD53B301FFCQ39113553-5FB1FA4A-1A9C-493D-9EE4-8CA7ADEA7C12Q39399147-02182546-9938-45C7-96E5-1273786109AFQ40784874-A3C8CA66-88B9-4669-BD71-515CC6429081Q41595540-F6AC023C-2271-4E53-9434-1BE359DC89D1Q42435949-ED7944BA-981F-4607-982B-B52E83779845Q43863093-DA96679A-C40F-4657-B66C-7A583D4E8CD3Q44445061-C19F18A5-C9F6-4962-9E38-33D419A7AE5AQ44719106-2AB42D21-57C0-4160-9A86-E0B900497446Q46736301-800E1E25-0384-49C3-AA8F-F9CA75F9253DQ50440109-B3CD69C1-DE59-4809-A84D-5AE2A70E2453Q50440346-D3629519-81F5-4D84-8464-106AE8ECA372Q50583310-17EA1277-B490-4E25-9F4A-64AE16D8C926Q51446754-38DA12D1-CF3A-423E-862B-7D2B529149C8Q52602659-7F35BFD3-6459-44E3-BB9C-8A2BADD0A61AQ56362420-293AD3C2-ECA0-4497-A9DE-AE7C866D0AC2Q56952956-C860C2E5-1C3D-43E4-84A7-AA6FEF0A11DAQ58575238-2A8D0626-AEC7-412C-9D35-02197BBB2663Q58803031-2196398A-245E-430E-94FD-F6882382FFBA
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 03 July 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Ecological immunology of bird-ectoparasite systems.
@en
Ecological immunology of bird-ectoparasite systems.
@nl
type
label
Ecological immunology of bird-ectoparasite systems.
@en
Ecological immunology of bird-ectoparasite systems.
@nl
prefLabel
Ecological immunology of bird-ectoparasite systems.
@en
Ecological immunology of bird-ectoparasite systems.
@nl
P2093
P356
P1476
Ecological immunology of bird-ectoparasite systems.
@en
P2093
Adam C Nelson
Dale H Clayton
Jeb P Owen
P304
P356
10.1016/J.PT.2010.06.005
P577
2010-07-03T00:00:00Z