New paper!

Rodrigues H.D.D. Canejo, R.P.R. & Sites R.W.: "TRevision of Limnocoris Stål (Heteroptera: Naucoridae) of eastern South America".

The genus Limnocoris is the only genus in the New World subfamily Limnocorinae (Naucoridae) and is predominantly neotropical in distribution. Presented here is the fourth and final contribution in a series to revise the genus; the species of eastern South America are revised, including the descriptions of three new species from Brazil: L. diamantinensis sp. nov., L. hirsutus sp. nov., and L. valimi sp. nov. Also, Limnocoris montandoni La Rivers stat. restit. is resurrected from synonymy with L. abbreviatus La Rivers and its species status restored. Further, supplemental descriptions are provided for the previously described species: L. abbreviatus, L. aculabrum La Rivers, L. acutalis La Rivers, L. asper Nieser & Lopez-Ruf, L. brasiliensis De Carlo, L. decarloi Nieser & Lopez-Ruf, L. espinolai Nieser & Lopez-Ruf, L. insignis Stål, L. machrisi Nieser & Lopez-Ruf, L. melloleitaoi De Carlo, L. minutus De Carlo, L. montandoni, L. pauper Montandon, L. rotundatus De Carlo, L. saphis Nieser & Lopez-Ruf, L. sattleri De Carlo, L. siolii (De Carlo), L. submontandoni La Rivers, and L. volxemi (Lethierry). The following synonymies are proposed, with junior synonyms in brackets: L. espinolai [L. porphyros Nieser & Lopez-Ruf n. syn.], L. insignis [L. caraceae Nieser & Lopez-Ruf n. syn.], and L. pauper [L. subpauper Nieser & Lopez-Ruf n. syn.]. An illustrated taxonomic key, distribution maps, and a checklist for all species in the genus also are presented.

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New paper!

Ye L. et al.: "Complete Mitochondrial Genome of Acanthosoma murreeanum (Hemiptera: Acanthosomatidae): Comparative Analysis and Phylogenetic Implications".

Background: Acanthosomatidae (Hemiptera: Pentatomoidea), commonly known as parent bugs, is a comparatively small pentatomoid family whose biological distinctiveness is exemplified by the repeated evolution of maternal egg–nymph guarding in several lineages; however, mitogenomic data for this group remain limited. Acanthosoma murreeanum is an important representative of Acanthosoma, yet its complete mitochondrial genome and comparative mitogenomic characteristics have not been comprehensively studied. Methods: Here, we obtained the complete mitochondrial genome of A. murreeanum through sequencing, assembly, and annotation. We then characterized its mitogenomic structure, nucleotide composition, codon usage, RNA structural features, control-region organization, nucleotide diversity, evolutionary rates, and phylogenetic position. In addition, control-region characteristics were compared among available acanthosomatid mitogenomes to evaluate structural variation in the AT-rich region. Results: The sequenced mitochondrial genome of A. murreeanum is a circular molecule of 15,718 bp, comprising the standard set of 37 mitochondrial genes and a control region of 1104 bp. The genome exhibits a strong A + T bias (74.04%) and retains the typical mitochondrial gene order without gene rearrangement. Most protein-coding genes start with standard ATN codons, except COX1, which begins with TTG, whereas COX2 and ND5 terminate with incomplete stop codons. Most predicted tRNA genes displayed the conventional cloverleaf configuration, whereas trnS1 lacked a complete DHU arm and instead formed a simple loop. The control region was characterized by a 60 bp tandem-repeat unit and several conserved sequence motifs. Comparative analysis showed that control-region length, AT content, repeat-unit size, and motif composition varied among sampled Acanthosomatidae, while A. murreeanum and A. haemorrhoidale shared similar 60 bp tandem-repeat organization. Among the mitochondrial PCGs, ATP8 exhibited the highest level of variation, whereas COX1 was the most conserved. The Ka/Ks values of all genes were lower than 1, suggesting that these genes have evolved under purifying selection. Phylogenetic analyses based on maximum-likelihood and Bayesian-inference methods consistently supported a sister relationship between A. murreeanum and A. haemorrhoidale. Conclusions: This study provides a new mitogenomic resource for Acanthosomatidae and represents the first detailed comparative mitogenomic analysis within Acanthosoma. The results suggest that A. murreeanum retains a conserved mitochondrial genomic architecture, whereas variation in the AT-rich control region provides additional evidence for lineage-specific mitogenomic differentiation. These results provide useful insights into mitogenome evolution and phylogenetic relationships within Acanthosoma and closely related acanthosomatid groups.

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New paper!

Taszakowski et al.: "Tanzanocapsus magnus gen. and sp. nov., a new genus and a new species from Tanzania (Hemiptera: Heteroptera: Miridae: Mirinae: Mirini)".

A new genus and a new species, Tanzanocapsus magnus gen. et sp. nov. (Heteroptera: Miridae: Mirinae: Mirini), are described from Tanzania. Detailed descriptions and diagnoses of the genus and species, based on external and genitalic morphology, are provided and illustrated with stereomicroscope and SEM images.

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