Evolutionary history of Nasutitermes kemneri (Termitidae, Nasutitermitinae), a termite from the South American diagonal of open formations

Kohari, Karolina S.; Palma-Onetto, Valeria; Scheffrahn, Rudolf H.; Vasconcellos, Alexandre; Cancello, Eliana Marques; Santos, Rosana Nunes dos; Carrijo, Tiago F.

doi:10.3389/fevo.2022.1081114

Front. Ecol. Evol.

2022

DOI: 10.3389/fevo.2022.1081114

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Evolutionary history of Nasutitermes kemneri (Termitidae, Nasutitermitinae), a termite from the South American diagonal of open formations

Karolina S. Kohari

Valeria Palma-Onetto

Rudolf H. Scheffrahn

et al.

Abstract: Little is known about the phylogeography of termites in the Neotropical region. Here, we explored the genetic patterns and phylogeographical processes in the evolutionary history of Nasutitermes kemneri, an endemic termite of the South American diagonal of open formations (DOF) formed by the Chaco, Cerrado, and Caatinga phytogeographic domains. We sampled 60 individuals across the three domains of the DOF, and using the mitochondrial genes 16S, COI, and COII, as well as the nuclear gene ITS, evaluated the gene… Show more

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2024

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Cited by 2 publications

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Evolutionary history of soil-feeding Neotropical termites reveals recent divergences linked to geologic-climatic influences

Gergonne,

Roy,

Poteaux

et al. 2024

Insect Systematics and Diversity

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The Neotropics harbor a diverse array of flora and fauna shaped by a complex geological and climatic history. It includes marine invasions, pulses of Andean uplift, glaciations, and the uplift of the Panama Isthmus. These events have shaped organism distribution, which can be described by methods of historical phylogeography. However, the evolutionary history of nonvertebrate organisms in the Neotropics is still largely unknown. This applies to termites, which are particularly diverse and ecologically important. The phylogeography of the soil-feeding termites Embiratermes neotenicus and Embiratermes chagresi (Termitidae: Syntermitinae) was studied across their whole distribution range, using samples of 243 colonies from eight countries. Analyses based on mitochondrial DNA fragments, microsatellite loci, and complete mitochondrial genomes revealed 4 major mitochondrial haplogroups (H1–H4). The H4 haplogroup occurs in northeastern Brazil and diverged first. The other groups appear to be associated with the Pebas System and marine invasions during the Miocene, which may have contributed to the separation of the ancestral population along a north–south axis. The H1 haplogroup was affiliated with E. chagresi. The phylogenomic analysis estimated the divergence of E. chagresi from the other groups to 5 million years ago, aligning with the northern cordillera uplift during the Miocene. Microsatellite data highlighted the isolation of E. neotenicus populations in Suriname and French Guiana, possibly linked to Pleistocene climatic fluctuations. Our study provides insights into the evolutionary history of these species, contributing to a better understanding of how geological and climatic events have influenced species evolution in the Neotropics.

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Evolutionary history of soil-feeding Neotropical termites reveals recent divergences linked to geologic-climatic influences

Gergonne,

Roy,

Poteaux

et al. 2024

Insect Systematics and Diversity

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The role of changing landscape in the dispersal of a soil‐feeding termite in Suriname and French Guiana

Gergonne,

Poteaux,

Fourcade

et al. 2024

Insect Conserv Diversity

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Neotropical forest ecosystems harbour significant biodiversity. To develop effective insect conservation practices, it is important to understand the factors that influence the diversity and population structure of the species. Dispersal, a key determinant of population structure, is well studied in termites nesting in wood, for which it can be influenced by wood transport, or in termites living in urban environments. However, understanding the dispersal of termites whose mobility remains unaffected by wood transport remains understudied. We investigated the dispersal of Embiratermes neotenicus, a soil‐feeding species with short dispersal distance, in the Neotropical region, where both intact and degraded forests exist. Using mitochondrial and nuclear data, we analysed genetic diversity, structure and factors contributing to population differentiation in Suriname and French Guiana at multiple scales for 70 colonies. The population in French Guiana is the ancestral population in the region that subsequently expanded. Significant genetic differentiation between populations was observed, with distinct patterns identified in Suriname and French Guiana. The Suriname population showed higher genetic diversity and no subpopulation differentiation, whereas the French Guiana population showed substructure into distinct genetic clusters. Analyses at the scale of all colonies suggest the influence of landscape features, such as the Maroni River, on genetic differentiation. At the local scale, genetic differentiation between colonies increases with forest alteration, even when this does not include major changes in forest cover. Our results highlight the sensitivity of soil‐feeding termite populations to habitat change. We argue that multi‐scale studies are needed for a comprehensive understanding of genetic patterns, especially for species with short dispersal distances.

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Evolutionary history of Nasutitermes kemneri (Termitidae, Nasutitermitinae), a termite from the South American diagonal of open formations

Cited by 2 publications

References 78 publications

Evolutionary history of soil-feeding Neotropical termites reveals recent divergences linked to geologic-climatic influences

Evolutionary history of soil-feeding Neotropical termites reveals recent divergences linked to geologic-climatic influences

The role of changing landscape in the dispersal of a soil‐feeding termite in Suriname and French Guiana

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