2020
DOI: 10.1111/1365-2656.13166
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Macroimmunology: The drivers and consequences of spatial patterns in wildlife immune defence

Abstract: The prevalence and intensity of parasites in wild hosts varies across space and is a key determinant of infection risk in humans, domestic animals and threatened wildlife. Because the immune system serves as the primary barrier to infection, replication and transmission following exposure, we here consider the environmental drivers of immunity. Spatial variation in parasite pressure, abiotic and biotic conditions, and anthropogenic factors can all shape immunity across spatial scales. Identifying the most impo… Show more

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Cited by 101 publications
(127 citation statements)
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References 324 publications
(200 reference statements)
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“…(Leu et al 2020). Finally, immunity is often quantified alongside parasite burden and prevalence, and it would be interesting to see whether spatial variation in immunity manifests on the same scale, and whether it predicts disease risk (Becker et al 2020).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…(Leu et al 2020). Finally, immunity is often quantified alongside parasite burden and prevalence, and it would be interesting to see whether spatial variation in immunity manifests on the same scale, and whether it predicts disease risk (Becker et al 2020).…”
Section: Discussionmentioning
confidence: 99%
“…Furthermore, host immunity and susceptibility can be affected by environmentally varying factors, with knock-on impacts on pathogen burden and transmission (Becker et al 2018(Becker et al , 2020. All these and other processes will create spatial patterns of infection, which hold important ramifications for epidemiological dynamics and disease control efforts (Cross et al 2005;Plowright et al 2019;Becker et al 2020). Yet, many epidemiological studies examine coarse spatial scales or assume that spatial patterns will be negligible compared to other hypothesized drivers.…”
Section: Introductionmentioning
confidence: 99%
“…Against this backdrop of advances and challenges, Becker et al (2020) have proposed a framework to address ecoimmunology at spatial scales. Termed macroimmunology—akin to macroecology—they ask whether variation in immune phenotype occurs in predictable spatial contexts, such as along species invasion fronts, latitudinal gradients and urban–rural divides, and if these in turn, could be used to predict the risk and implications of infections.…”
Section: Figurementioning
confidence: 99%
“…The regularity of finding context dependent results presents an important problem when 82 understanding the dynamics of host-parasite interactions in the wild: specifically, what is the 83 consistency and repeatability of the observed trends across different replicates of the same system, 84 and how can researchers be sure that their replication is sufficient? Ecology is undergoing a 85 reproducibility crisis, and spatiotemporal variation is a likely culprit impacting variation in results 86 (Becker et al 2020). By quantifying how the drivers of parasitism vary over space and time for the 87 same host-parasite system, we can address three fundamental questions: (i) what are the key 88 (reproducible) factors that drive parasite infection intensity; (ii) how much of the variation in effect 89 sizes is biologically meaningful, rather than representing sampling biases; and (iii) how can we 90 optimise sampling regimes to improve our ability to detect important biological variation in drivers 91 within a system?…”
Section: Introductionmentioning
confidence: 99%