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Title

The Impact of Fast Radiation on the Phylogeny of Bactrocera Fruit Flies as Revealed by Multiple Evolutionary Models and Mutation Rate-Calibrated Clock

Authors

Federica Valerio; Nicola Zadra; Omar Rota-Stabelli; Lino Ometto; Valerio; Federica; Zadra; Nicola; Rota-Stabelli; Omar; Ometto; Lino

Availability

Better title

The Impact of Fast Radiation on the Phylogeny of Bactrocera Fruit Flies as Revealed by Multiple Evolutionary Models and Mutation Rate-Calibrated Clock

Source

MDPI (mdpi.com)

URL

https://www.mdpi.com/2075-4450/13/7/603

Date

2022-06-30

Description

Abstract

Several true fruit flies (Tephritidae) cause major damage to agriculture worldwide. Among them, species of the genus Bactrocera are extensively studied to understand the traits associated with their invasiveness and ecology. Comparative approaches based on a reliable phylogenetic framework are particularly effective, but several nodes of the Bactrocera phylogeny are still controversial, especially concerning the reciprocal affinities of the two major pests B. dorsalis and B. tryoni. Here, we analyzed a newly assembled genomic-scaled dataset using different models of evolution to infer a phylogenomic backbone of ten representative Bactrocera species and two outgroups. We further provide the first genome-scaled inference of their divergence by calibrating the clock using fossil records and the spontaneous mutation rate. The results reveal a closer relationship of B. dorsalis with B. latifrons than to B. tryoni, contrary to what was previously supported by mitochondrial-based phylogenies. By employing coalescent-aware and heterogeneous evolutionary models, we show that this incongruence likely derives from a hitherto undetected systematic error, exacerbated by incomplete lineage sorting and possibly hybridization. This agrees with our clock analysis, which supports a rapid and recent radiation of the clade to which B. dorsalis, B. latifrons and B. tryoni belong. These results provide a new picture of Bactrocera phylogeny that can serve as the basis for future comparative analyses.

Keywords

categories = <i>Bactrocera</i>,phylogenomics,phylogeny,dating,incomplete lineage sorting,<i>Bactrocera dorsalis</i>,<i>Bactrocera tryoni</i>

Body

The Impact of Fast Radiation on the Phylogeny of Bactrocera Fruit Flies as Revealed by Multiple Evolutionary Models and Mutation Rate-Calibrated Clock

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Insects

2022,

13(7), 603; https://doi.org/10.3390/insects13070603

Simple Summary

Bactrocera, which are well known as important agricultural pests worldwide. Existing phylogenetic inferences are still ambiguous, especially concerning the relationship between the two major pests

B. dorsalisand

B. tryoni. In this study, we employed a genome-scaled dataset and different models of molecular evolution to reconstruct the phylogenetic relationships of ten

Bactroceraspecies and two outgroups and further date their divergence times. The resulting phylogeny fully supports

B. dorsalisas more closely related to

B. latifronsthan to

B. tryoni, opposite to what was supported by previous works. This incongruence likely derives from a fast divergence of these lineages, as revealed by our clock analysis, which can lead to conflicting results when using few genetic markers. Our results thus highlight the utility of using large datasets and of exploring different evolutionary models to study the evolutionary history of species of economic importance.

Keywords:

Bactrocera; phylogenomics; phylogeny; dating; incomplete lineage sorting;

Bactrocera dorsalis;

Bactrocera tryoni

Figure 1

MDPI and ACS Style

Valerio, F.; Zadra, N.; Rota-Stabelli, O.; Ometto, L. The Impact of Fast Radiation on the Phylogeny of Bactrocera Fruit Flies as Revealed by Multiple Evolutionary Models and Mutation Rate-Calibrated Clock. Insects 2022, 13, 603. https://doi.org/10.3390/insects13070603

AMA Style

Valerio F, Zadra N, Rota-Stabelli O, Ometto L. The Impact of Fast Radiation on the Phylogeny of Bactrocera Fruit Flies as Revealed by Multiple Evolutionary Models and Mutation Rate-Calibrated Clock. Insects. 2022; 13(7):603. https://doi.org/10.3390/insects13070603

Chicago/Turabian Style

Valerio, Federica, Nicola Zadra, Omar Rota-Stabelli, and Lino Ometto. 2022. "The Impact of Fast Radiation on the Phylogeny of Bactrocera Fruit Flies as Revealed by Multiple Evolutionary Models and Mutation Rate-Calibrated Clock" Insects 13, no. 7: 603. https://doi.org/10.3390/insects13070603

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