One problem, many solutions: simple statistical approaches help unravel the complexity of the immune system in an ecological context.
about
Maternal body size influences offspring immune configuration in an oviparous snakeVisualising associations between paired 'omics' data setsImmune function in a free-living bird varies over the annual cycle, but seasonal patterns differ between years.Leucocyte profiles of Arctic marine birds: correlates of migration and breeding phenology.Ecological immunology in a fluctuating environment: an integrative analysis of tree swallow nestling immune defense.The effect of hydration state and energy balance on innate immunity of a desert reptile.Cellular and humoral immunity in a wild mammal: Variation with age & sex and association with overwinter survival.Cheetahs have a stronger constitutive innate immunity than leopardsHost immune responses to experimental infection of Plasmodium relictum (lineage SGS1) in domestic canaries (Serinus canaria).Genes of the major histocompatibility complex highlight interactions of the innate and adaptive immune systemIndependence among physiological traits suggests flexibility in the face of ecological demands on phenotypes.The history of ecoimmunology and its integration with disease ecology.Testing the equivalence of modern human cranial covariance structure: Implications for bioarchaeological applications.Understanding immune function as a pace of life trait requires environmental context.Livestock abundance predicts vampire bat demography, immune profiles and bacterial infection risk.Do immunological, endocrine and metabolic traits fall on a single Pace-of-Life axis? Covariation and constraints among physiological systems.Applying the tools of ecological immunology to conservation: a test case in the Galapagos sea lion
P2860
Q28601192-4D0B0D55-5795-4F48-8FCD-F2D665E078F9Q30577327-2186D4F1-4499-43F4-9673-9C2BBD647425Q36315722-BBA46E56-E742-4130-BC10-82245102661FQ36652342-AAA7D2D9-DC7D-4B36-8575-295B1A64D03BQ36781165-4A80BCEC-0664-45AA-A4AE-B4ECD856E85FQ36863332-F0C7F859-4755-4EF3-B454-DB3CB8EB6156Q37539903-FA03040F-4F5D-4DFC-99B2-2030C487188BQ37717623-F5A879FB-4282-4A43-B112-0A435E2ED67AQ41122135-9EDDF6AE-7D80-4EB0-9ACF-8670296ECE91Q41595540-2D80A435-B9CA-4B17-A845-6F895085706AQ43500117-0360D7EB-ECA6-480B-8655-51FD97F09029Q46864326-0BD99F58-4F4F-435D-9D49-FFE545640DD2Q47296469-DCC6A363-A7F1-4D3A-9DAB-432B6A16CC37Q51145912-55D0CB8E-BF92-4018-9CF4-AB5261CADB51Q51148015-91EE1DAA-087F-4D27-AF24-E64CCD0A56BEQ51188981-D7D1E0A8-29A7-4065-8836-72CE011330ECQ56329737-0E4EF259-AB04-4B59-9D71-B83B8895FD83
P2860
One problem, many solutions: simple statistical approaches help unravel the complexity of the immune system in an ecological context.
description
2011 nî lūn-bûn
@nan
2011 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
One problem, many solutions: s ...... stem in an ecological context.
@ast
One problem, many solutions: s ...... stem in an ecological context.
@en
type
label
One problem, many solutions: s ...... stem in an ecological context.
@ast
One problem, many solutions: s ...... stem in an ecological context.
@en
prefLabel
One problem, many solutions: s ...... stem in an ecological context.
@ast
One problem, many solutions: s ...... stem in an ecological context.
@en
P2093
P2860
P1433
P1476
One problem, many solutions: s ...... stem in an ecological context.
@en
P2093
B Irene Tieleman
Deborah M Buehler
Kevin D Matson
Maaike A Versteegh
P2860
P304
P356
10.1371/JOURNAL.PONE.0018592
P407
P577
2011-04-19T00:00:00Z