AI Article Synopsis
- * The specific gut bacteria in these beetles are linked to their diet and evolutionary history, indicating a coevolution between the beetles and their microbial communities influenced by local conditions.
- * Different species of cave beetles host various bacteria that aid in decomposing organic materials, highlighting their adaptation strategies for survival in caves through fermentation and reduced metabolic activity.
Article Abstract
Beetles are ubiquitous cave invertebrates worldwide that adapted to scarce subterranean resources when they colonized caves. Here, we investigated the potential role of gut microbiota in the adaptation of beetles to caves from different climatic regions of the Carpathians. The beetles' microbiota was host-specific, reflecting phylogenetic and nutritional adaptation. The microbial community structure further resolved conspecific beetles by caves suggesting microbiota-host coevolution and influences by local environmental factors. The detritivore species hosted a variety of bacteria known to decompose and ferment organic matter, suggesting turnover and host cooperative digestion of the sedimentary microbiota and allochthonous-derived nutrients. The cave Carabidae, with strong mandibulae adapted to predation and scavenging of animal and plant remains, had distinct microbiota dominated by symbiotic lineages or . All beetles had relatively high levels of fermentative and involved in lipid accumulation and a reduction of metabolic activity, and both features characterize adaptation to caves.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10197664 | PMC |
| http://dx.doi.org/10.1101/2023.05.12.540564 | DOI Listing |
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Article Synopsis
- Subterranean habitats, characterized by darkness and high humidity, have led to significant sensory adaptations in cave-dwelling animals, particularly in their ability to detect chemical cues.
- This study focuses on the evolution of chemoreception in three beetle tribes that transitioned underground multiple times, revealing substantial differences in their chemosensory gene repertoires.
- Key findings include lineage-specific changes and shared genetic alterations, such as the loss of sugar receptors and duplications of certain receptors involved in temperature and humidity sensing, highlighting parallel evolution among different species transitioning to an underground lifestyle.
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