Your search keyword '"Cipola, Nikolas Gioia"' showing total 3 results

1. Phylogenomics and systematics of Entomobryoidea (Collembola): marker design, phylogeny and classification.

Author

Godeiro, Nerivania Nunes, Ding, Yinhuan, Cipola, Nikolas Gioia, Jantarit, Sopark, Bellini, Bruno Cavalcante, and Zhang, Feng

Subjects

COLLEMBOLA, NUCLEOTIDE sequencing, ADAPTIVE radiation, BIG data, GENOMES, SOIL invertebrates

Abstract

Entomobryoidea has been the focus of phylogenetic studies in recent years owing to a divergence between morphological and genetic data. Recent phylogenies have converged on the sister relationship of Orchesellidae with the remaining Entomobryoidea, and on the non‐monophyly of the traditional Paronellidae and Entomobryidae, but still lack resolution. Known molecular phylogenies of the superfamily differ greatly between mitogenomic and multilocus markers. For this reason, we designed universal single‐copy orthologue (USCO) and ultraconserved element (UCE) marker sets specific for Entomobryoidea, based on 11 genome assemblies. Upon the newly designed 3406 USCOs and 4030 UCEs, we analysed 34 species covering all Entomobryoidea families and major subfamilies. New data for 26 species were mined from whole‐genome sequencing. Phylogenetic inference confirmed the Orchesellidae as an independent family and the Entomobryinae remained the most puzzling taxon gathering scaled and unscaled lineages of both traditional Entomobryidae and Paronellidae. To accommodate Paronellides, Zhuqinia and related genera, Paronellidinae subfam. nov. is proposed within Entomobryidae. The sampled representatives of Paronellinae were recovered as the sister group of (Seirinae+Lepidocyrtinae), suggesting that reduction on the dorsal macrochaetotaxy and trunk sensillar pattern may have occurred independently within the Lepidocyrtinae and Paronellinae or represent their symplesiomorphy posteriorly modified in the Seirinae. The current systematics of the superfamily are revised here, with Entomobryidae now comprising six subfamilies, including all taxa with smooth dens. Our data also point out that all the main events of cladogenesis of the families and subfamilies of Entomobryoidea occurred during the Jurassic. Our genome‐scale phylogenomics provides a complete, reliable example for systematics of Entomobryoidea, as well as other invertebrates in the big data era. [ABSTRACT FROM AUTHOR]

Published

2023

2. Systematics of Lepidocyrtinus boneti Denis, 1948 (Collembola, Seirinae) reveals a new position for the species within Seirinae.

Author

Godeiro, Nerivania Nunes, Yun Bu, Nilsai, Areeruk, Deharveng, Louis, and Cipola, Nikolas Gioia

Subjects

COLLEMBOLA, CHINESE people, SPECIES, BAYESIAN field theory, SOIL invertebrates

Abstract

Seira boneti Denis, 1948, comb. nov. is examined and redescribed based on syntypes and by a newly discovered Chinese population. Lectotype and paralectotypes were designated, and the type locality of the species has been fixed to Câuda, near Nhatrang, Vietnam. The species was first described in the genus Lepidocyrtinus, but based on morphological and molecular evidence it is here transferred to Seira. For the phylogenetic placement of Seira boneti comb. nov., its mitogenome was included in a dataset comprising 19 species of Seirinae. Maximum Likelihood and Bayesian inferences clustered the species next to Seira sanloemensis Godeiro & Cipola, 2020 from Cambodia, forming a distinct Seira clade from the Old World, confirming the hypothesis of the existence of a different basal lineage of Seirinae in Southern Asia. [ABSTRACT FROM AUTHOR]

Published

2023

3. Record of bees and wasps (Insecta: Hymenoptera) during the dry season in a floodplain in the South Pantanal, Mato Grosso do Sul, Brazil.

Author

Cipola, Nikolas Gioia, de Pádua, Diego Galvão, Schoeninger, Karine, Garcia de Oliveira, Bruno, de Souza Gadelha, Sian, and Cyrino Zequi, João Antonio

Published

2022