Alessandra S M Lemos scite author profile

Gonçalves‐Neto

et al. 2020

Odontomachus chelifer (Latreille) (Ponerinae) is a ground-dwelling, predominantly carnivorous ant whose colonies may contain multiple egg-laying queens and are potentially susceptible to border effects in the Brazilian savanna known as Cerrado. The ecology and natural history of O. chelifer is well studied, but very little is known about the genetic diversity of O. chelifer colonies. In this study, we developed microsatellite markers for the study of genetic variation in O. chelifer. We created a microsatellite-enriched library that resulted in the development and characterization of 22 markers, of which 18 were found to be polymorphic in the population studied. The mean expected heterozygosity was 0.59, whereas the mean rarified allelic richness was determined as 4.27 alleles per locus. The polymorphism level detected was similar to genetic diversity estimates found in other poneromorph ant species. The microsatellites developed here are likely to be useful for the investigation of colony structure, functional polygyny, breeding system, and population genetics in O. chelifer. Moreover, the description of O. chelifer’s genetic diversity is crucial for its conservation and maintenance of its ecological role in the Cerrado savanna.

Microsatellites for the Neotropical ant,Camponotus leydigi(Hymenoptera: Formicidae)

Gonçalves‐Neto

et al. 2020

Entomological Science

Ants (Hymenoptera: Formicidae) are dominant social insects that play important ecological roles in terrestrial ecosystems. Camponotus leydigi (Forel) is widely distributed in the Neotropical region and is frequently found in the Brazilian cerrado savanna interacting with plants and other insects. Field observations indicate that C. leydigi has a polydomous nesting habit, but little is known about the genetic relationship among workers. In this study, we identify the first nine microsatellite loci for C. leydigi that will allow further investigation on its genetic diversity. We used a microsatellite-enriched library method. According to this method, repetitive sequences are captured with (CT) 8 and (GT) 8 biotin-linked probes, with subsequent recovery by streptavidin magnetic-coated beads. We observed that eight loci were polymorphic. The mean (± standard error) observed and expected heterozygosities were 0.55 ± 0.23 and 0.73 ± 0.28, respectively. The rarified allelic richness ranged from 1 to 5.32. The polymorphism contents were similar to diversity estimates found in markers previously developed for other Camponotus ants. These markers will be useful for future studies on population genetics and ecology of Camponotus ants in cerrado, including nesting ecology, colony structure, dispersal and conservation.

Are There Edge Effects on the Genetic Diversity of the Trap-Jaw Ant Odontomachus chelifer (Formicidae: Ponerinae) in a Neotropical Savanna Fragment? A First Assessment

Gonçalves‐Neto

et al. 2023

Habitat fragmentation is considered an important threat to biodiversity, increasing species exposure to edge effects. The Brazilian Cerrado savanna is considered a biodiversity hotspot and has been converted to small, isolated fragments due to human activities. Ant communities and colony survivorship are known to be affected by edge effects in Cerrado, but to date there is no information on the genetic diversity of ant colonies at the edge of fragmented areas. Here, we investigate if colony genetic diversity and structure of Odontomachus chelifer (Latreille) ants (Hymenoptera: Formicidae) are subject to edge effects in a Cerrado reserve in southeast Brazil. Using microsatellites, we evaluated the number of breeders (queens and males) and the genetic diversity in O. chelifer colonies located in the interior versus edge of a Cerrado fragment. All O. chelifer nests had multiple queens, which presented a low mating frequency. The number of breeders and most estimates of genetic diversity did not differ between colonies at the edge versus interior of the fragment. Genetic structure was not influenced by nest location as well. However, we detected a small and positive increase in the observed heterozygosity in colonies located at fragment edges. High heterozygosity is thought to be particularly important in fast-changing environments, such as edges, providing an advantage for genetic diversity. Further investigation is needed to assess in greater detail how habitat loss affects O. chelifer biology. Our study is a first step toward elucidating edge effects on genetic diversity of ant colonies, a topic still poorly explored in tropical environments.

Development and characterization of microsatellite molecular markers for the investigation of polydomy in a Cerrado savanna ant, Camponotus leydigi ( Formicidae: Formicinae)

Neto

Oliveira

et al. 2019

Polydomy occurs when an ant colony occupies at least two spatially separated but socially connected nests. The identification of polydomy in ant colonies is important to understand ant life history, evolutionary success, and biotic and abiotic impacts on the environment. Several methodologies are used for the correct delimitation of the borders of the colonies and, therefore, in the identification of colonies with polidomous structure, these limits can be determined according to behavioral, spatial and genetic approaches. In the present study we develop and characterize microsatellite markers in order to complement ecological results that suggest the existence of polydomy in the cerrado ant species, Camponotus leydigi.

Development and characterization of microsatellite markers for genetic studies of a Cerrado ant, Odontomachus chelifer (Formicidae: Ponerinae)

Oliveira

et al. 2019

Odontomachus chelifer are ants widely distributed in the Brazilian cerrado that belong to the group of the poneromorphs. The species is polygynous (more than one functional queen per nest) and participates in several important interactions such as seed dispersal. It is known that O. chelifer are susceptible to habitat fragmentation, which is capable of affecting the genetic diversity in their nests. In ants, the genetic variation of the colonies is directly influenced by polygyny, which can be mediated by environmental factors such as scarcity of resources. Thus, it is important to understand the potential effects of habitat fragmentation on polygyny and genetic structure of O. chelifer in order to conserve their ecological populations and roles. For this purpose, in this work we developed microsatellite markers for the species to investigate their genetic diversity and polygynous habit, as well as their possible associations with border effects in the Cerrado.