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1. Untangling the ant claws: the army ant Labidus mars is a Neivamyrmex (Formicidae: Dorylinae)

   https://doi.org/10.1093/isd/ixaf016  

   DuVal, Megan_E L; Probst, Rodolfo S; Branstetter, Michael G; Longino, John T (May 2025, Insect Systematics and Diversity)

   Beza-Beza, Cristian (Ed.)

   Abstract The New World army ants (Hymenoptera: Formicidae) comprise the 5 genera of the Eciton species group, and together they are important keystone predators in tropical and subtropical environments. Generic boundaries in the group have been considered solid and stable for nearly 100 years. Workers of the widespread and diverse genus Neivamyrmex are readily separable from the other 4 genera by lacking a subapical tooth on the tarsal claw, while males can be separated with genitalic characters. The genus Labidus is also widespread and is often abundant, with several species that are conspicuous surface foragers. The least known species of Labidus is L. mars, the workers of which have the tarsal tooth but otherwise share many traits with some Neivamyrmex, being completely eyeless and subterranean. This led us to question its generic placement. Here, we used ultraconserved element (UCE) phylogenomics to show that Labidus mars belongs to the genus Neivamyrmex. All phylogenies, inferred using multiple partitioning schemes and a species tree analysis, recovered the same topology, placing Labidus mars workers within Neivamyrmex. Sequenced males of L. mars were found to be within Labidus and thus incorrectly associated with L. mars. Based on these results and review of key specimens, including types, the following taxonomic changes are made: Neivamyrmex mars (Forel 1912) is a new combination; Labidus nero (Santschi 1930) (rev. stat.) is a male-based taxon revived from synonymy under L. mars; and L. denticulatus (Borgmeier 1955) (new stat.), a male-based taxon and former subspecies of L. mars, is raised to species. 

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2. Selection on a single locus drives plumage differentiation in the Rufous-collared Sparrow ( Zonotrichia capensis )

   https://doi.org/10.1093/evolut/qpaf077  

   Lavinia, Pablo D; Campagna, Leonardo; Carboni, Martín; Barreira, Ana S; Lougheed, Stephen C; Tubaro, Pablo L; Lijtmaer, Darío A (April 2025, Evolution)

   Mérot, Claire; Morlon, Hélène (Ed.)

   Abstract The Rufous-collared Sparrow (Zonotrichia capensis) shows phenotypic variation throughout its distribution. In particular, the Patagonian subspecies Z. c. australis is strikingly distinct from all other subspecies, lacking the black crown stripes that characterize the species, with a uniformly grey head and overall paler plumage. We sequenced whole genomes of 18 individuals (9 Z. c. australis and 9 from other subspecies from northern Argentina) to explore the genomic basis of these color differences and to investigate how they may have evolved. We detected a single ~465-kb divergence peak on chromosome 5 that contrasted with a background of low genomic differentiation and contains the suppression of tumorigenicity 5 (ST5) gene. ST5 regulates RAB9A, which is required for melanosome biogenesis and melanocyte pigmentation in mammals, making it a strong candidate gene for the melanic plumage polymorphism within Z. capensis. This genomic island of differentiation may have emerged because of selection acting on allopatric populations or against gene flow on populations in physical and genetic contact. Mitochondrial DNA indicated that Z. c. australis diverged from other subspecies ~400,000 years ago, suggesting a putative role of Pleistocene glaciations. Phenotypic differences are consistent with Gloger’s rule, which predicts lighter-colored individuals in colder and drier climates like that of Patagonia. 

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3. Variation in Plumage Coloration of Rosy‐Faced Lovebirds ( Agapornis roseicollis ): Links to Sex, Age, Nutritional Condition, Viral Infection, and Habitat Urbanization

   https://doi.org/10.1002/jez.2867  

   McGraw, Kevin J; Hammond, Reilly; Kraberger, Simona; Varsani, Arvind (January 2025, Journal of Experimental Zoology Part A: Ecological and Integrative Physiology)

   ABSTRACT Expression of vibrant plumage color plays important communication roles in many avian clades, ranging from penguins to passerines, but comparatively less is known about color signals in parrots (order Psittaciformes). We measured variation in coloration from three plumage patches (red face, blue rump, red tail) in an introduced population of rosy‐faced lovebirds (Agapornis roseicollis) in Phoenix, Arizona, USA and examined color differences between the sexes and ages as well as relationships with several indices of quality, including disease presence/absence (infection with beak and feather disease,Circovirus parrot, and a polyomavirus,Gammapolyomavirus avis), nutritional state (e.g., blood glucose and ketone levels), and habitat type from which birds were captured. We found that different plumage colors were linked to different quality indices: (a) adults had redder faces than juveniles, and birds with brighter faces had lower glucose levels and were less likely to have polyomavirus; (b) males had bluer rumps than females; and (c) birds caught farther from the city had redder and darker tail feathers than those caught closer to the urban center. Our findings reveal diverse information underlying variation in the expression of these disparate, ornate feather traits in an introduced parrot species, and suggest that these condition‐dependent and/or sexually dichromatic features may serve important intraspecific signaling roles (i.e., mediating rival competitions or mate choices). 

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4. Diversification and divergence in Myioborus warblers: insights into evolutionary relationships and plumage genetics

   https://doi.org/10.1101/2025.08.12.669906  

   Arias, Laura Cespedes; Bennett, Kevin_F P; Campagna, Leonardo; Wood, Andrew W; Bonaccorso, Elisa; Cuervo, Andres M; Cadena, Carlos Daniel; Lovette, Irby J; Toews, David_P L (August 2025, bioRxiv)

   Genomic data can provide valuable insights into the evolutionary history of rapidly diversifying groups and the genetic basis of phenotypic differences among lineages. We used whole-genome sequencing of the warbler genus Myioborus to investigate dynamics of its recent diversification in Neotropical mountains. We found that mitochondrial and UCE phylogenies are mostly, but not fully, concordant, and we found phylogenetic support for a pattern of north-to-south and low-to-high elevation colonization in the genus. Within the ornatus-melanocephalus complex, which showed topological incongruence between our phylogenies, we found that genetic structure generally coincides with geographic variation in plumage, although three subspecies with striking plumage differences exhibit low mitochondrial divergence. The hybridizing taxa M. o. chrysops and M. m. bairdi show very shallow genomic differentiation, with marked peaks of divergence. Most of these are shared with other parulid warbler pairs, pointing to broad genomic features, like recombination rate, as the processes shaping these regions. However, other highly differentiated regions were unique to Myioborus, including one containing the gene CCDC91, which is associated with melanin-based plumage differences in several other birds. Lastly, we found higher levels of differentiation on the Z chromosome relative to autosomes, including two putative chromosomal inversions. Together, these results highlight the interplay of deep ancestral divergence, recent hybridization, and shared genomic architecture in shaping the evolution of phenotypic and genomic diversity within Myioborus. 

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5. A multiscale physicochemical characterization of melanin-based feather coloration in the rapid Capuchino Seedeater radiation

   https://doi.org/10.1101/2025.10.29.685391  

   Sutter, Stephan M; Rogers, Olivia G; Bilezikian, Daniel L; Dillman, Casey B; Porri, Teresa J; Silveira, Luís Fábio; Turbek, Sheela P; Estroff, Lara A; Campagna, Leonardo (October 2025, bioRxiv)

   Abstract Melanin-based plumage coloration in birds is shaped by pigment composition as well as melanosome morphology and distribution, however, the ways in which these factors together modulate observable color remain poorly understood. We investigate this relationship in the Capuchino Seedeaters (genusSporophila), whose recent, rapid radiation driven by sexual selection resulted in 12 species with diverse coloration patterns. Using scanning electron microscopy (SEM) and micro-computed tomography (µCT), combined with a novel application of Fontana-Masson stain to image melanosomes at high resolution, we characterize melanosome distribution and morphology in several variably colored plumage patches across Capuchino species. Melanosome morphologies followed patch-specific patterns that did not directly correlate with coloration: crown feather melanosomes were larger, more elongated, and had greater percent eumelanin content than those in belly, throat, or dorsum/rump patches. We also observed that dorsal patches had more total melanin than ventral ones, with pigment and coloration patterns suggesting possible signaling and photoprotective roles. More generally, we show how the patch-specific coloration of male Capuchinos is accompanied by differences in melanosome morphology and melanin composition and abundance. Our work highlights the challenges that remain in understanding how the nanoscale mechanisms of melanin-based pigmentation translate into macroscale plumage coloration. 

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