Roosting ecology and variation in adaptive and innate immune system function in the Brazilian free-tailed bat (Tadarida brasiliensis)

Allen, Louise C.; Turmelle, Amy S.; Mendonça, Mary T.; Navara, Kristen J.; Kunz, Thomas; McCracken, Gary F.

doi:10.1007/s00360-008-0315-3

Cited by 76 publications

(74 citation statements)

References 48 publications

(54 reference statements)

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“…Second, to investigate variation in survival on a fine scale, we estimated the survival probability of each colony separately and compared estimates between pairs of colonies. Differences in survival among colonies may be related to a variety of colony-specific factors, such as quality of foraging and roosting habitat, density-dependent processes, human disturbance, road kills (Russell et al 2009), age structure and senescence effects (Festa-Bianchet et al 2003) and immunological response to disease (Allen et al 2009). To estimate survival probabilities at each different habitat type or colony we treated temporal variation as a random effect e t following a normal distribution with mean 0 and variance r 2 .…”

Section: Data Collectionmentioning

confidence: 99%

Assessing survival in a multi-population system: a case study on bat populations

et al. 2010

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In long-lived animals, adult survival is among the most important determinants of population dynamics. Although it may show considerable variation both in time and among populations and sites, a single survival estimate per species is often used in comparative evolutionary studies or in conservation management to identify threatened populations. We estimated adult survival of the isabelline serotine bat Eptesicus isabellinus using capture-recapture data collected on six maternity colonies scattered over a large area (distance 8-103 km) during periods varying from 8 to 26 years. We modelled temporal and inter-colony variations as random effects in a Bayesian framework and estimated mean annual adult survival of females on two scales and a single survival value across all colonies. On a coarse scale, we grouped colonies according to two different habitat types and investigated the effect on survival. A difference in adult survival was detected between the two habitat types [posterior mean of annual survival probability 0.71; 95% credible interval (CI) 0.51-0.86 vs. 0.60; 0.28-0.89], but it was not statistically supported. On a fine scale, survival of the six colonies ranged between 0.58 (95% CI 0.23-0.92) and 0.81 (0.73-0.88), with variation between only two colonies being statistically supported. Overall survival was 0.72 (95% CI 0.57-0.93) with important inter-colony variability (on a logit scale 0.98; 95% CI 0.00-8.16). Survival varied temporally in a random fashion across colonies. Our results show that inference based solely on single colonies should be treated with caution and that a representative unbiased estimate of survival for any species should ideally be based on multiple populations.

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Section: Data Collectionmentioning

confidence: 99%

Assessing survival in a multi-population system: a case study on bat populations

et al. 2010

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“…Although it is crucial to understand how the immune system of bats works and how they defend themselves against these pathogens, surprisingly little is known about bat immunity and the factors influencing it (Dobson, 2005). Recent studies have shown a correlation between immune parameters and ecological factors such as dietary niche and roost use in bats (Allen et al, 2009;Schneeberger et al, 2013). Also, experiments on Mexican free-tailed bats (Tadarida brasiliensis) demonstrated that they can mount a considerable cellular immune response after injection of mitogens such as phytohaemagglutinin (Allen et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

“…Recent studies have shown a correlation between immune parameters and ecological factors such as dietary niche and roost use in bats (Allen et al, 2009;Schneeberger et al, 2013). Also, experiments on Mexican free-tailed bats (Tadarida brasiliensis) demonstrated that they can mount a considerable cellular immune response after injection of mitogens such as phytohaemagglutinin (Allen et al, 2009). As in most other animals, variations in immune responses can be linked to disease susceptibility, such as the white-nose syndrome in temperate-zone bats that eradicated millions of bats in North America during the last decade (Lorch et al, 2011;Moore, 2011).…”

Section: Introductionmentioning

confidence: 99%

Inflammatory challenge increases measures of oxidative stress in a free-ranging, long-lived mammal

Schneeberger

Czirják

Voigt

2013

Journal of Experimental Biology

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SUMMARYOxidative stress -the imbalance between reactive oxygen species (ROS) and neutralising antioxidants -has been under debate as the main cause of ageing in aerobial organisms. The level of ROS should increase during infection as part of the activation of an immune response, leading to oxidative damage to proteins, lipids and DNA. Yet, it is unknown how long-lived organisms, especially mammals, cope with oxidative stress. Bats are known to carry a variety of zoonotic pathogens and at the same time are, despite their high mass-specific basal metabolic rate, unusually long lived, which may be partly the result of low oxidative damage of organs. Here, we asked whether an immune challenge causes oxidative stress in free-ranging bats, measuring two oxidative stress markers. We injected 20 short-tailed fruit bats (Carollia perspicillata) with bacterially derived lipopolysaccharide (LPS) and 20 individuals with phosphate-buffered saline solution (PBS) as a control. Individuals injected with LPS showed an immune reaction by increased white blood cell count after 24 h, whereas there was no significant change in leukocyte count in control animals. The biological antioxidant potential (BAP) remained the same in both groups, but reactive oxygen metabolites (ROMs) increased after treatment with LPS, indicating a significant increase in oxidative stress in animals when mounting an immune reaction toward the inflammatory challenge. Control individuals did not show a change in oxidative stress markers. We conclude that in a long-lived mammal, even high concentrations of antioxidants do not immediately neutralise free radicals produced during a cellular immune response. Thus, fighting an infection may lead to oxidative stress in bats.

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“…Empirical studies in ecoimmunology have focused largely on birds (e.g., see AlonsoAlvarez and Tella 2001;Grasman 2002;Friedl and Edler 2005;Lee et al 2008;Wilcoxen et al 2010) and invertebrates (e.g., Moret and Schmid-Hempel 2001;Moret and Siva-Jothy 2003;Cremer and Sixt 2009), extending strong foundations in lifehistory theory in these taxa. Transferring these approaches to free-living mammal species has only recently begun (see, e.g., Allen et al 2009;Ezenwa et al 2011b;Graham et al 2011;Jackson et al 2011).…”

Section: Introductionmentioning

confidence: 99%

Innate Immunity in Free-Ranging African Buffalo (Syncerus caffer): Associations with Parasite Infection and White Blood Cell Counts

Beechler

Broughton²,

BELL³

et al. 2012

Physiological and Biochemical Zoology

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Roosting ecology and variation in adaptive and innate immune system function in the Brazilian free-tailed bat (Tadarida brasiliensis)

Cited by 76 publications

References 48 publications

Assessing survival in a multi-population system: a case study on bat populations

Assessing survival in a multi-population system: a case study on bat populations

Inflammatory challenge increases measures of oxidative stress in a free-ranging, long-lived mammal

Innate Immunity in Free-Ranging African Buffalo (Syncerus caffer): Associations with Parasite Infection and White Blood Cell Counts

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