Captivity reduces diversity and shifts composition of the Brown Kiwi microbiome

Juan, Priscilla A San; Castro, Isabel; Dhami, Manpreet K.

doi:10.1186/s42523-021-00109-0

Cited by 51 publications

(48 citation statements)

References 37 publications

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“…Similarly, captive birds tend to have distinct gut microbiota from their wild counterparts (San Juan et al 2021). These studies support a strong role of the environment, including diet, in shaping the avian gut microbiome.…”

Section: Introductionsupporting

confidence: 54%

Gut microbiome composition better reflects host phylogeny than diet in breeding wood-warblers

Baiz

Miller

et al. 2022

Preprint

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Understanding the factors that shape microbiomes can provide insight on the importance of host-symbiont interactions and on co-evolutionary dynamics. Unlike for mammals, previous studies have found little or no support for an influence of host evolutionary history on avian gut microbiome diversity and instead have suggested a greater influence of the environment or diet. Because effects of different factors may be conflated by captivity and sampling design, examining natural variation using large sample sizes is important. Our goal was to overcome these limitations by sampling wild birds to compare environmental, dietary, and evolutionary influences on gut microbiome structure. We performed fecal metabarcoding to characterize both the gut microbiome and diet of fifteen wood-warbler species across a four-year period and from two geographic localities. We find host taxonomy generally explained ~10% of the variation between individuals, which is ~6-fold more variation of any other factor considered, including diet diversity. Further, gut microbiome similarity was more congruent with the host phylogeny than with host diet similarity, and diet diversity was not associated with microbiome diversity. Together, our results suggest evolutionary history is the strongest predictor of gut microbiome differentiation among wood-warblers. Although the phylogenetic signal of the warbler gut microbiome is not very strong, our data suggest a stronger influence of diet (as measured by diet diversity) does not account for this pattern. The mechanism underlying this phylogenetic signal is not clear, but we argue host traits may filter colonization by microbes despite small host body size (and fast gut turnover) which is characteristic of wood-warblers.

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Section: Introductionsupporting

confidence: 54%

Gut microbiome composition better reflects host phylogeny than diet in breeding wood-warblers

Baiz

Miller

et al. 2022

Preprint

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“…Host environment had nearly an overall significant effect on the Callithrix gut microbiome diversity. Significant differences were found between all host environmental classes for marmoset gut microbiome beta diversity, which is a result observed in various other animals (e.g., kiwis 15 , Tasmanian devil 17 , mice 16 , primates 5 , raptors 69 , rhinos 18 , woodrats 70 ). A unique aspect of our study was the inclusion of hosts translocated from the wild into captivity, which were also significantly different from wild and captive hosts in terms of gut microbiome alpha diversity.…”

Section: /19mentioning

confidence: 53%

“…More closely related hosts seem to share more similar microbiome communities than more distantly related hosts (i.e., phylosymbiosis) 6,7 , and gut microbiome communities are usually enriched for bacteria associated with the main macronutrients of a host's feeding strategy [8][9][10][11][12] . Yet, environmental factors significantly alter individual host microbiomes 10,12 , as evidenced by differences in microbiome composition between wild and captive conspecifics across a variety of animal taxa [13][14][15][16][17][18][19] . Gut microbiome studies of captive and wild mammals show that non-human primates (NHPs) experience relatively large losses of native gut microbiome diversity in captivity compared to the wild 5,13 .…”

Section: Introductionmentioning

confidence: 99%

The Gut Microbiome of Exudivorous Marmosets in the Wild and Captivity

Malukiewicz

Cartwright

Dergam³

et al. 2019

Preprint

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“…While many wild animals are reared in captivity for reasons spanning scientific research, to education, leisure and conservation, there is growing evidence that conditions in captivity alter the microbial community associated with animals. Some studies reported that the microbial diversity dropped in captivity 5 – 10 , probably due to the simplification of the environment in which hosts live. However, evidence supporting the opposite pattern has also been reported in some other species 8 , 11 , although it has been suggested these observations might be spurious 12 .…”

Section: Introductionmentioning

confidence: 99%

Diversity and compositional changes in the gut microbiota of wild and captive vertebrates: a meta-analysis

Alberdi

Bideguren

Aizpurua

2021

Sci Rep

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The gut microbiota is recognised as an essential asset for the normal functioning of animal biology. When wild animals are moved into captivity, the modified environmental pressures are expected to rewire the gut microbiota, yet whether this transition follows similar patterns across vertebrates is still unresolved due to the absence of systematic multi-species analyses. We performed a meta-analysis of gut microbiota profiles of 322 captive and 322 wild specimens from 24 vertebrate species. Our analyses yielded no overall pattern of diversity and compositional variation between wild and captive vertebrates, but a heterogeneous landscape of responses, which differed depending on the components of diversity considered. Captive populations showed enrichment patterns of human-associated microorganisms, and the minimal host phylogenetic signal suggests that changes between wild and captive populations are mainly driven by case-specific captivity conditions. Finally, we show that microbiota differences between wild and captive populations can impact evolutionary and ecological inferences that rely on hierarchical clustering-based comparative analyses of gut microbial communities across species.

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Captivity reduces diversity and shifts composition of the Brown Kiwi microbiome

Cited by 51 publications

References 37 publications

Gut microbiome composition better reflects host phylogeny than diet in breeding wood-warblers

Gut microbiome composition better reflects host phylogeny than diet in breeding wood-warblers

The Gut Microbiome of Exudivorous Marmosets in the Wild and Captivity

Diversity and compositional changes in the gut microbiota of wild and captive vertebrates: a meta-analysis

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