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1. Exploring abyssal solenogastres (Mollusca, Aplacophora) diversity with the study of a collection from the Brazil Basin and the description of three new species

   https://doi.org/10.1007/s12526-025-01569-2  

   Cobo, M Carmen; Yap-Chiongco, Meghan K (December 2025, Marine Biodiversity)

   Solenogastres (Mollusca, Aplacophora) are widespread across all oceans and depths, yet remain among the least understood molluscs. Despite frequent collection in deep-sea surveys, only 10% of species have been described from depths below 3500 m, largely due to the labor-intensive nature of their identifications. This study examines specimens from the DIVA 3 expedition (Me 79/1, 2009) in the Brazil Basin and describes three new abyssal species of Wirenia Odhner, 1921 (W. bertae sp. nov., W. meteori sp. nov., and W. opistodenticulata sp. nov.), the first formally described Gymnomeniidae from the abyss and the southern hemisphere. Using an integrative morphological approach (SEM, light microscopy, histology), we highlight the value of external sclerite characters for species delimitation. We also present a synthesis of known abyssal solenogaster diversity focused on the formally described taxa and outlining recent progress and future research priorities. Our findings emphasize the importance of deep-sea exploration and taxonomy in closing major knowledge gaps in marine biodiversity. 

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2. On the diversity of abyssal Dondersiidae (Mollusca: Aplacophora) with the description of a new genus, six new species, and a review of the family

   https://doi.org/10.11646/zootaxa.4933.1.3  

   COBO, M. CARMEN; KOCOT, KEVIN M. (February 2021, Zootaxa)

   null (Ed.)

   So far, of the 292 known species of solenogasters (Mollusca, Aplacophora), 62 belong to the clade Pholidoskepia Salvini-Plawen, 1978. Of these, only two have an abyssal distribution (3500–6000 m depth). Among Pholidoskepia, Dondersiidae Simroth, 1893 is the most diverse family. This study contributes to the knowledge of this family with the description of one new genus and six new species from the abyssal South Atlantic Ocean: Dondersia ? foraminosa sp. n., Nematomenia divae sp. n., Nematomenia brasiliensis sp. n., Nematomenia ? guineana sp. n., Helluoherpia vieiralaneroi sp. n. and Inopinatamenia (gen. n.) calamitosa sp. n. Specimens were collected during DIVA (Latitudinal Gradients of Deep-Sea BioDIVersity in the Atlantic Ocean) expeditions in the Guinea (DIVA 2 Me 63/2, 2005) and Brazil (DIVA 3 Me 79/1, 2008) Basins. Specimens were characterized based primarily on the sclerites and internal anatomy, which was studied using histology. The importance of the radula and mantle sclerites for taxonomy is emphasized. Amended diagnoses for the family and some genera within this family are provided. This contribution increases the described diversity of Dondersiidae to ten genera and 38 species and highlights the need for more study of solenogasters in the deep sea. 

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3. Macellomenia profundorum n. sp. (Mollusca, Solenogastres, Pholidoskepia) a new abyssal species from the South Atlantic Ocean (Angola Basin)

   Cobo, Maria del (January 2021, Iberus)

   null (Ed.)

   A new species of solenogaster (Mollusca, Aplacophora) from the Angola Basin is described: Macellomenia profundorum n. sp. The studied specimen was collected during the DIVA 1 expedition (Latitudinal Gradients of Deep-Sea BioDIVersity in the Atlantic Ocean). The description is based primarily on the sclerites and the internal anatomy (histological study). Macellomenia profundorum n. sp. is the first species of the family to be described from the southern hemisphere and constitutes its deepest record (5400 m deep). Even though only anterior anatomical characters are known, these and especially the radula and mantle sclerites are enough to justify that it is a new species. Amended diagnoses are also provided for the family and genus. 

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4. Phylogenomic Delimitation of Morphologically Cryptic Species in Globetrotting Nylanderia (Hymenoptera: Formicidae) Species Complexes

   https://doi.org/10.1093/isd/ixab027  

   Williams, Jason L; Zhang, Y Miles; LaPolla, John S; Schultz, Ted R; Lucky, Andrea (January 2022, Insect Systematics and Diversity)

   Camacho, Gabriela P (Ed.)

   Abstract The ant genus Nylanderia Emery has a cosmopolitan distribution and includes 150 extant described species and subspecies, with potentially hundreds more undescribed. Global taxonomic revision has long been stalled by strong intra- and interspecific morphological variation, limited numbers of diagnostic characters, and dependence on infrequently collected male specimens for species description and identification. Taxonomy is further complicated by Nylanderia being one of the most frequently intercepted ant genera at ports of entry worldwide, and at least 15 globetrotting species have widespread and expanding ranges, making species-level diagnoses difficult. Three species complexes (‘bourbonica complex’, ‘fulva complex’, and ‘guatemalensis complex’) include globetrotting species. To elucidate the phylogenetic positions of these three complexes and delimit species boundaries within each, we used target enrichment of ultraconserved elements (UCEs) from 165 specimens representing 98 Nylanderia morphospecies worldwide. We also phased the UCEs, effectively doubling sample size and increasing population-level sampling. After recovering strong support for the monophyly of each complex, we extracted COI barcodes and SNPs from the UCE data and tested within-complex morphospecies hypotheses using three molecular delimitation methods (SODA, bPTP, and STACEY). This comparison revealed that most methods tended to over-split taxa, but results from STACEY were most consistent with our morphospecies hypotheses. Using these results, we recommend species boundaries that are conservative and most congruent across all methods. This work emphasizes the importance of integrative taxonomy for invasive species management, as globetrotting occurs independently across at least nine different lineages across Nylanderia. 

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5. Autonomous Reef Monitoring Structures (ARMS) as a tool to uncover neglected marine biodiversity: two new Solenogastres (Mollusca, Aplacophora) from the Gulf of Mexico

   https://doi.org/10.3897/zookeys.1221.136385  

   Cobo, M Carmen; Farris, William J; Olson, Chandler J; McLaughlin, Emily L; Kocot, Kevin M (December 2024, ZooKeys)

   Solenogastres is a group of mollusks with evolutionary and ecological importance. Nevertheless, their diversity is underestimated and knowledge about the distribution of the approximately 300 formally described species is limited. Factors that contribute to this include their small size and frequent misidentification by non-specialists. Recent deep-sea explorations have resulted in the collection of numerous specimens through effective methods such as epibenthic sledges. However, this is a costly, labor-intensive, and destructive methodology. In contrast, Autonomous Reef Monitoring Structures (ARMS) offer a novel, non-destructive approach, by providing a substrate for benthic organism colonization. This study is the first to describe Solenogastres collected using ARMS, demonstrating that they are an effective tool for biodiversity assessment and characterizing rare marine invertebrates. Following an integrative taxonomic approach, two new solenogaster species are described:Dondersia tweedtaeFarris, Olson & Kocot,sp. nov.(Dondersiidae) andEleutheromenia bullescensCobo,sp. nov.(Pruvotinidae). The diagnosis of the family Dondersiidae is amended and the necessity of reassessing the validity of the current diagnostic characters for Pruvotinidae, and its classification is emphasized. The two newly described species exhibit distinct external characteristics;D. tweedtaesp. nov.has a striking pink color with a bright yellow dorsal keel andE. bullescenssp. nov.has a unique, discontinuous dorsal keel with nearly spherical protrusions. The presence of cnidocytes in the digestive systems of both species indicate that they feed on cnidarians. It is hypothesized that, like in some nudibranchs, their coloration and body features reflect defensive adaptations related to their diet. This study shows that while habitus alone is typically insufficient for accurate identification in solenogasters, it can sometimes simplify the process. For this, live observations and photographs are essential. 

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