Microbial Community Profile and Water Quality in a Protected Area of the Caatinga Biome.

The Caatinga is a semi-arid biome in northeast Brazil. The Paraguaçú River is located in the Caatinga biome, and part of its course is protected by the National Park of Chapada Diamantina (PNCD). In this study we evaluated the effect of PNCD protection on the water quality and microbial community diversity of this river by analyzing water samples obtained from points located inside and outside the PNCD in both wet and dry seasons. Results of water quality analysis showed higher levels of silicate, ammonia, particulate organic carbon, and nitrite in samples from the unprotected area compared with those from protected areas. Pyrosequencing of the 16S rRNA genes revealed that Burkholderiales was abundant in samples from all three sites during both seasons and was represented primarily by the genus Polynucleobacter and members of the Comamonadaceae family (e.g., genus Limnohabitans). During the dry season, the unprotected area showed a higher abundance of Flavobacterium sp. and Arthrobacter sp., which are frequently associated with the presence and/or degradation of arsenic and pesticide compounds. In addition, genes that appear to be related to agricultural impacts on the environment, as well as those involved in arsenic and cadmium resistance, copper homeostasis, and propanediol utilization, were detected in the unprotected areas by metagenomic sequencing. Although PNCD protection improves water quality, agricultural activities around the park may affect water quality within the park and may account for the presence of bacteria capable of pesticide degradation and assimilation, evidencing possible anthropogenic impacts on the Caatinga.

The Gut Microbiota of Workers of the Litter-Feeding Termite Syntermes wheeleri (Termitidae: Syntermitinae): Archaeal, Bacterial, and Fungal Communities.

The gut microbiota of termites allows them to thrive on a variety of different materials such as wood, litter, and soil. For that reason, they play important roles in the decomposition of biomass in diverse biomes. This function is essential in the savanna, where litter-feeding termites are one of the few invertebrates active during the dry season. In this study, we describe the gut microbiota of workers (third and fourth instars) of the species Syntermes wheeleri, a litter-feeding termite from the Brazilian savanna. Results of 16S and 18S ribosomal RNA (rRNA) gene-targeted pyrosequencing using primers sets specific to each domain have revealed its bacterial, archaeal, and fungal diversities. Firmicutes accounted for more than half of the operational taxonomic units of the Bacteria domain. The most abundant fungal species were from the class Dothideomycetes of the phylum Ascomycota. The methanogenic orders Methanobacteriales, Methanosarcinales, and Methanomicrobiales of the phylum Euryarchaeota accounted for the greatest part of the Archaea detected in this termite. A comparison of the gut microbiota of the two instars revealed a difference in operational taxonomic unit (OTU) abundance but not in species richness. This description of the whole gut microbiota represents the first study to evaluate relationships among bacteria, archaea, fungi, and host in S. wheeleri.