Rebecca J. Lewis scite author profile

Over the past decade several studies have reported that the gut microbiomes of mammals with similar dietary niches exhibit similar compositional and functional traits. However, these studies rely heavily on samples from captive individuals and often confound host phylogeny, gut morphology, and diet. To more explicitly test the influence of host dietary niche on the mammalian gut microbiome we use 16S rRNA gene amplicon sequencing and shotgun metagenomics to compare the gut microbiota of 18 species of wild non-human primates classified as either folivores or closely related non-folivores, evenly distributed throughout the primate order and representing a range of gut morphological specializations. While folivory results in some convergent microbial traits, collectively we show that the influence of host phylogeny on both gut microbial composition and function is much stronger than that of host dietary niche. This pattern does not result from differences in host geographic location or actual dietary intake at the time of sampling, but instead appears to result from of differences in host physiology. These findings indicate that mammalian gut microbiome plasticity in response to dietary shifts over both the lifespan of an individual host and the evolutionary history of a given host species is constrained by host physiological evolution. Therefore, the gut microbiome cannot be considered separately from host physiology when describing host nutritional strategies and the emergence of host dietary niches.

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Hierarchical social networks shape gut microbial composition in wild Verreaux's sifaka

Perofsky

et al. 2017

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In wild primates, social behaviour influences exposure to environmentally acquired and directly transmitted microorganisms. Prior studies indicate that gut microbiota reflect pairwise social interactions among chimpanzee and baboon hosts. Here, we demonstrate that higher-order social network structure-beyond just pairwise interactions-drives gut bacterial composition in wild lemurs, which live in smaller and more cohesive groups than previously studied anthropoid species. Using 16S rRNA gene sequencing and social network analysis of grooming contacts, we estimate the relative impacts of hierarchical (i.e. multilevel) social structure, individual demographic traits, diet, scent-marking, and habitat overlap on bacteria acquisition in a wild population of Verreaux's sifaka () consisting of seven social groups. We show that social group membership is clearly reflected in the microbiomes of individual sifaka, and that social groups with denser grooming networks have more homogeneous gut microbial compositions. Within social groups, adults, more gregarious individuals, and individuals that scent-mark frequently harbour the greatest microbial diversity. Thus, the community structure of wild lemurs governs symbiotic relationships by constraining transmission between hosts and partitioning environmental exposure to microorganisms. This social cultivation of mutualistic gut flora may be an evolutionary benefit of tight-knit group living.

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Beyond Dominance: The Importance of Leverage

Lewis

2002

The Quarterly Review of Biology

102

101

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Seasonality, body condition, and timing of reproduction inPropithecus verreauxi verreauxi in the Kirindy Forest

Lewis

Kappeler

2005

Am. J. Primatol.

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Mammals that live in seasonal environments may adjust their reproductive cycles to cope with fluctuations in food availability. Because lemurs in Madagascar experience highly seasonal variation in food availability, we examined the effects of fluctuating food availability on body condition and reproduction in one of the larger living species, Verreaux's sifaka (Propithecus verreauxi verreauxi), in the Kirindy Forest of western Madagascar. Seven years of demographic data were combined with an intensive study of 25 individuals over the course of 18 months. In contrast to other populations of Verreaux's sifaka, females were found to have greater body mass than males. Both male and female sifaka exhibited significant losses of body mass and fat during the dry season. Females were more likely to give birth and successfully wean an infant when they had higher body mass during the mating season. They mated during the periods of high and declining food availability, gave birth during the lean season, and then timed mid/late lactation with the period of increasing food availability. Thus, we conclude that sifaka follow the "classic" reproductive strategy (sensu van Schaik and van Noordwijk [Journal of Zoology (London) 206:533-549, 1985]).

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Bimorphism in Male Verreaux’s Sifaka in the Kirindy Forest of Madagascar

Lewis

Schaik

2007

Int J Primatol

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Male primates in species with pronounced secondary sexual adornments can exhibit reversible or irreversible bimorphism, i.e., striking variation in the degree to which males express the adornments. Verreaux's sifaka (Propithecus verreauxi verreauxi) use scent marking as a form of communication and exhibit sex differences in scent glands. Some males exhibit a pronounced brown staining around their sternal gland, whereas others do not. We studied morphological and behavioral characteristics of males in 6 social groups in Kirindy Forest, Madagascar, from November 2000 to March 2002 to evaluate the hypotheses that the bimorphism in male sifaka chest status represents alternative mating tactics and is a badge of status. Males are clearly divided into 2 categories: clean and stained chests, with rare, but informative, intermediate males. The chest staining probably results from the males scent marking with their sternal glands, because stained-chested males scent marked significantly more often than clean-chested males. Though sample sizes are small, chest status did not appear to depend on body size. Chest status is reversible and related to dominance rank. In each group, only 1 male, the dominant, was stained-chested, whereas all other (subordinate) males were clean-chested. These findings suggest that stained chests are visual and olfactory signals of dominance rank and that clean chests signal lack of competitive intent. Thus, 159 0164-0291/07/0200-0159/0 C 2007 Springer Science+Business Media, LLC 160 Lewis and van Schaik this bimorphism may reflect alternative mating tactics used by males to maximize their reproductive success based upon their social environment.

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Rebecca J. Lewis

Evolutionary trends in host physiology outweigh dietary niche in structuring primate gut microbiomes

Hierarchical social networks shape gut microbial composition in wild Verreaux's sifaka

Beyond Dominance: The Importance of Leverage

Seasonality, body condition, and timing of reproduction inPropithecus verreauxi verreauxi in the Kirindy Forest

Bimorphism in Male Verreaux’s Sifaka in the Kirindy Forest of Madagascar

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