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Diversity structure of the microbial communities in the guts of four neotropical termite species

Surendra Vikram, Joel D. Arneodo, Javier Á. Calcagno, Maximiliano Ortiz, María Laura Mon, Clara Etcheverry, Don A. Cowan, Paola Talia

2021PeerJ30 citationsDOIOpen Access PDF

Abstract

The termite gut microbiome is dominated by lignocellulose degrading microorganisms. This study describes the intestinal microbiota of four Argentinian higher termite species with different feeding habits: Microcerotermes strunckii (hardwood), Nasutitermes corniger (softwood), Termes riograndensis (soil organic matter/grass) and Cornitermes cumulans (grass) by deep sequencing of amplified 16S rRNA and ITS genes. In addition, we have performed a taxonomic and gut community structure comparison incorporating into the analysis the previously reported microbiomes of additional termite species with varied diets. The bacterial phylum Spirochaetes was dominant in the guts of M. strunckii , N. corniger and C. cumulans , whereas Firmicutes predominated in the T. riograndensis gut microbiome. A single bacterial genus, Treponema (Spirochaetes), was dominant in all termite species, except for T. riograndensis . Both in our own sequenced samples and in the broader comparison, prokaryotic α-diversity was higher in the soil/grass feeders than in the wood feeders. Meanwhile, the β-diversity of prokaryotes and fungi was highly dissimilar among strict wood-feeders, whereas that of soil- and grass-feeders grouped more closely. Ascomycota and Basidiomycota were the only fungal phyla that could be identified in all gut samples, because of the lack of reference sequences in public databases. In summary, higher microbial diversity was recorded in termites with more versatile feeding sources, providing further evidence that diet, along with other factors (e.g., host taxonomy), influences the microbial community assembly in the termite gut.

Topics & Concepts

BiologyMicrobiomeFirmicutesPhylumAscomycotaMicrobial population biologyBotanyMetagenomicsMicrobial ecologyEcologyProteobacteriaGut floraBacteroidetesZoology16S ribosomal RNABacteriaImmunologyBiochemistryGeneticsBioinformaticsGeneInsect and Arachnid Ecology and BehaviorPlant and animal studiesInsect Utilization and Effects
Diversity structure of the microbial communities in the guts of four neotropical termite species | Litcius