The gut microbiome of exudivorous marmosets in the wild and captivity

Malukiewicz, Joanna; Cartwright, Reed A.; Dergam, Jorge Abdala; Igayara, Claudia S; Kessler, Sharon E; Moreira, Sílvia Bahadian; Nash, Leanne T.; Nicola, Patrícia Avello; Pereira, Luiz Cézar Machado; Pissinatti, Alcides; Ruiz‐Miranda, Carlos R.; Ozga, Andrew T.; Quirino, Adriana A.; Roos, Christian; Silva, Daniel L.; Stone, Anne C.; Grativol, Adriana D.

doi:10.1038/s41598-022-08797-7

Cited by 11 publications

(5 citation statements)

References 84 publications

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“…We suspected that dominant microbiota exerts some influence on the difference in microbiota function, which was in accordance with previous studies (Lian et al, 2021;Yang et al, 2019). Hybridization exerts some influences on gut bacteria, and the changes in the hybrids' gut microbiota may affect gene expression and fitness of the host (Malukiewicz et al, 2022), and lead to favourable physiological functions in some cases (Seehausen et al, 2014). However, PICRUSt, as a functional prediction tool, should be interpreted with caution when applied to fish rather than human microbial ecology due to the lack of representation of fishassociated microorganisms in genomic databases (Zhang et al, 2021).…”

Section: Discussionsupporting

confidence: 89%

Gut microbiota communities of reciprocal hybrids from koi (Cyprinus carpio) and goldfish (Carassius auratus) are more similar to koi than goldfish

Wang

Liu

Wen

et al. 2022

Journal of Applied Microbiology

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Aims To investigate the gut microbiota communities of reciprocal hybrids and inbred lines of koi (Cyprinus carpio) and goldfish (Carassius auratus), as well as the genetic effect of intestinal microbiota between hybrids and parents. Methods and Results The reciprocal hybrids and inbred lines derived from the parents, koi and goldfish, were established. Then, the bacterial 16S rRNA gene of intestinal contents was sequenced using Illumina Miseq PE300. Alpha diversity in the two types of hybrids was lower than inbred lines of koi or goldfish and was highest in goldfish, followed by koi. For beta diversity, microbial samples presented clear clusters and the two types of hybrids were more similar to koi than goldfish, indicating the gut microbiota of the reciprocal hybrids was more affected by koi. The dominant phyla were Proteobacteria, Actinobacteria and Firmicutes in koi, and Proteobacteria, Fusobacteria and Actinobacteria in goldfish, and Proteobacteria, Fusobacteria and Firmicutes in the reciprocal hybrids. In the case of Proteobacteria, the dominant classes were Alphaproteobacteria and Gammaproteobacteria in four fish. The dominant genera were norank_f_Rhizobiales_Incertae_Sedis and Plesiomonas in koi, Cetobacterium in goldfish, and Cetobacterium and ZOR0006 in the reciprocal hybrids. PICRUSt1 predictive function analysis showed that the reciprocal hybrids had lower abundance in the most functional categories than koi and goldfish. Conclusions The gut microbiota of reciprocal hybrids was more affected by koi. Two types of hybrids possessed the same dominated phyla and were different from the inbred lines of koi and goldfish. Significance and Impact of the Study It enhanced our understanding of gut microbiota of hybrid lines of goldfish and koi and provided a new perspective for the selective breeding of gut microbiota traits.

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Section: Discussionsupporting

confidence: 89%

Gut microbiota communities of reciprocal hybrids from koi (Cyprinus carpio) and goldfish (Carassius auratus) are more similar to koi than goldfish

Wang

Liu

Wen

et al. 2022

Journal of Applied Microbiology

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“…Contrary to previous studies that reported higher alpha diversity in the gut microbiota of wild primate populations, such as Japanese macaques [31], Guizhou snub-nosed monkeys [32], and spider monkeys [33], compared to those in captivity, our research revealed an unexpected pattern of low bacterial diversity in the gut microbiota of wild black capuchin monkeys. On the other hand, our results align with a study conducted on other primates from Brazil, Brazilian marmosets Callithrix spp., where rectal samples indicated lower richness in the gut microbiome of wild animals compared to translocated and captive individuals [20]. Low richness in fecal microbiomes has also been observed in other wild animals, such as rhinoceroses [34], pangolins [35], and white-lipped deer [36], compared to those in captivity.…”

Section: Discussionmentioning

confidence: 79%

“…Despite Brazil harboring one of the world's most diverse primate populations, there are still few studies investigating the gut microbiome [19,20]. The microbiota provides valuable insights into animal health and environmental conditions.…”

Section: Introductionmentioning

confidence: 99%

The Gut Bacterial Community of Wild and Captive Black Capuchin Monkeys (Sapajus Nigritus) in South Brazil Exhibit Environmental Influences

Grassotti,

Lovison,

Kothee

et al. 2023

Preprint

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Black capuchin monkey (Sapajus nigritus), an endemic species of the Atlantic Forest in Brazil, faces challenges due to habitat loss and fragmentation. As a result, it is classified as near threatened. When the host is exposed to anthropogenic pressures, the gut microbial community can adapt to these stressful situations. This study aims to investigate the relationship between the habitat of black capuchin monkeys and their gut microbiome. Fecal samples were collected from the wild (n=27) and captive (n=7) monkeys, and their bacterial communities were analyzed using high-throughput sequencing of the 16S rRNA gene. The results revealed significant differences in the bacterial community structure between the two populations. Wild monkeys exhibited a higher abundance of Proteobacteria, Firmicutes, and Bacteroidota, while captive monkeys showed a higher abundance of Bacteroidota, Proteobacteria, and Firmicutes. Functional prediction analyses highlighted differences in pathways related to xenobiotic degradation between captive and wild groups. Wild monkeys in urban areas showed enrichment in dioxin biodegradation pathways, while those in farming environments exhibited pathways associated with toluene degradation. These findings underscore the gut microbiome's adaptability and unique functional capabilities under different environmental conditions. Furthermore, this study highlighted the gut microbiome and its response to ecological contexts, providing valuable insights into the understanding of black capuchin monkeys and supporting conservation efforts by establishing connections between the microbiota and primate habitat. Further research is required to explore the functional implications of these microbial differences and their potential effects on the health and well-being of black capuchin monkeys in diverse environments.

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“…Marmoset cranial shape and musculature, dentition, in addition to digestive features [48, 49, 50, 51], support Callithrix exudivory by allowing marmosets to gouge and scrape hard plant surfaces to access and digest natural exudate sources made of hard to digest oligosaccharides [48, 52, 53, 54, 51, 50, 49, 55, 56, 57, 58, 59, 60]. However, interspecific differences in marmoset cranial shape and dentition Callithrix species are linked to intersepcific differences in exudivory specializaiton [52, 61, 62, 63], with C. jacchus and C. penicillata representing the extreme of marmoset exudivory specialization and C. aurita being the least specialized [64].…”

Section: Discussionmentioning

confidence: 99%

Pelage Variation and Morphometrics of Closely RelatedCallithrixMarmoset Species and Their Hybrids

Malukiewicz

Warren

Boere

et al. 2023

Preprint

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Background: Hybrids are expected to show greater phenotypic variation than their parental species, yet how hybrid phenotype expression varies with genetic distances in closely-related parental species remains surprisingly understudied. Here we study pelage and morphometric trait variation in anthropogenic hybrids between four species of BrazilianCallithrixmarmosets, a relatively recent primate radiation. Marmoset species are distinguishable by pelage phenotype and level of morphological specialization for eating tree exudates. Here, we (1) describe qualitative phenotypic pelage differences between parental species and hybrids; (2) test whether significant quantitative differences exist between parental and hybrid morphometric phenotypes; and (3) determine which hybrid morphometic traits show heterosis, dysgenesis, trangression, or intermediacy relative to the parental trait. For morphometric traits, we investigated both cranial and post-cranial traits, particularly as most hybrid morphological studies focus on the former instead of the latter. Finally, we estimate mitogenomic distances between marmoset species from previously published data. Results: Hybrid facial and overall body pelage variation reflected coloration and patterns seen in parental species. In morphometric traits,C. jacchusandC. penicillatawere the most similar to each other, whileC. auritawas the most distinct, andC. geoffroyitrait measures fell between these other species. Most traits inC. jacchusxC. penicillatahybrids showed either heterosis or were intermediate relative to the parental trait values. We observed heterosis and dygenesis in traits ofC. penicillataxC. geoffroyihybrids. Trangressive segregation was observed in hybrids ofC. auritaand the other species. These hybrids were alsoC. aurita-like for a number of traits. Genetic distance was closest betweenC. jacchusandC. penicillataand farthest betweenC. auritaand the other species. Conclusion: We attributed significant phenotypic differences between marmoset species to differences in morphological exudivory specialization in these species. Our results suggest that intermediate hybrid traits relative to the parental trait values are more likely in crosses between species with relatively lesser genetic distance. More extreme phenotypic variation is more likely in parental species with greater genetic distance, with transgressive traits appearing in hybrids of the most genetically distant parental species. We further suggest that that less developmental disturbances can be expected in hybrids of more recently diverged parental species.

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The gut microbiome of exudivorous marmosets in the wild and captivity

Cited by 11 publications

References 84 publications

Gut microbiota communities of reciprocal hybrids from koi (Cyprinus carpio) and goldfish (Carassius auratus) are more similar to koi than goldfish

Gut microbiota communities of reciprocal hybrids from koi (Cyprinus carpio) and goldfish (Carassius auratus) are more similar to koi than goldfish

The Gut Bacterial Community of Wild and Captive Black Capuchin Monkeys (Sapajus Nigritus) in South Brazil Exhibit Environmental Influences

Pelage Variation and Morphometrics of Closely RelatedCallithrixMarmoset Species and Their Hybrids

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