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1. Genome-wide markers test the status of two putative species of North American bumble bees

   https://doi.org/10.1007/s10592-025-01674-6  

   Rohde, Ashley T; Strange, James P; Tobin, Kerrigan B; Mock, Karen E; Branstetter, Michael G (June 2025, Conservation Genetics)

   Abstract Accurate species delimitation is critical to identifying the conservation status of species. Molecular species delimitation methods have revealed previously unrecognized cryptic species across the taxonomic spectrum. However, studies vary in the molecular markers selected, analytical approaches used, and taxon sampling, which sometimes results in conflicting conclusions. One example of such a conflict is seen in the species delimitation analyses of the western bumble bee,Bombus occidentalis. This species was once an abundant insect pollinator in western North America but has declined severely since the mid 1990s and is predicted to continue to diminish under even optimistic future climate scenarios. Complicating this conservation crisis, the species status ofB. occidentalishas varied over time, with most recent studies recognizing one or two species. Previous studies that used molecular methods to address this question focused on a Bayesian phylogeny of the mitochondrialcytochrome oxidase I(COI) gene. Phylogenetic studies that focus on a single gene are criticized for misrepresenting the evolutionary history of species because nuclear and mitochondrial genomes, and even some genes within them, may have different evolutionary patterns. We tested a two species hypothesis of theB. occidentaliscomplex using nuclear (ultraconserved elements) and mitochondrial (COI) markers to infer maximum likelihood and Bayesian phylogenies for the taxa. We present our results and conclusions from eight species delimitation methods. Based on the genomic, morphological and geographic differences between the taxa we find support for the two species hypothesis, withB. occidentalisandB. mckayias separate species. We discuss the strengths and limitations of each genetic dataset and delimitation method, make recommendations for best practices, and highlight opportunities for equitable knowledge and technology development for phylogenomics in conservation biology. 

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2. Calliblepharis yasutakei sp. nov. and Hypnea tsudae sp. nov. (Cystocloniaceae, Rhodophyta): novel diversity from the Hawaiian Islands

   https://doi.org/10.11646/phytotaxa.572.1.5  

   PAIANO, MONICA O.; FUMO, JAMES T.; CABRERA, FERESA P.; KOSAKI, RANDALL K.; SPALDING, HEATHER L.; SHERWOOD, ALISON R. (November 2022, Phytotaxa)

   Surveys of Hawaiian macroalgae over the past 15 years have yielded numerous specimens representing species new to science. Calliblepharis yasutakei sp. nov. is here described based on a plant collected at a depth of 98 m from Kapou, Papahânaumokuâkea Marine National Monument, Hawaiʻi. Phylogenetic analyses of three molecular markers (COI, rbcL, and SSU) and analyses of morphological features were used to describe the new species in the family Cystocloniaceae. Calliblepharis yasutakei sp. nov. grouped with C. fimbriata, C. rammediorum, C. occidentalis and C. jolyi in a clade with full support for the rbcL analysis, representing a distinct lineage within the genus. Phylogenetic and vegetative morphological comparisons demonstrated that the new Hawaiian species is most closely related to C. rammediorum from Israel (rbcL similarity of 96.3%), although no female reproductive structures were found to allow a more comprehensive comparison. In order to determine whether C. yasutakei represents the first confirmed report of the genus Calliblepharis in the Hawaiian Islands, phylogenetic and morphological analysis of the Hawaiian Hypnea saidana (=Calliblepharis saidana) specimen accessioned at the Bernice P. Bishop Museum was performed. These analyses demonstrated that this specimen belongs to a new species in the genus Hypnea, which is here described as H. tsudae sp. nov. C. yasutakei, in addition to being a new species, is also reported as the first confirmed record of the genus Calliblepharis in the Hawaiian archipelago, and the description of H. tsudae brings the number of species for this genus in Hawaiʻi to eight. 

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3. Unveiling mesophotic diversity in Hawai‘i: two new species in the genera Halopeltis and Leptofauchea (Rhodymeniales, Rhodophyta)

   https://doi.org/10.4490/algae.2022.37.10.31  

   Alvarado, Erika A.; Cabrera, Feresa P.; Paiano, Monica O.; Fumo, James T.; Spalding, Heather L.; Smith, Celia M.; Leonard, Jason C.; Lopes Jr., Keolohilani H.; Kosaki, Randall K.; Sherwood, Alison R. (December 2022, Algae)

   Two genera of the Rhodymeniales, Halopeltis and Leptofauchea, are here reported for the first time from the Hawaiian Islands and represent the deepest records for both genera. Molecular phylogenetic analyses of cytochrome oxidase subunit I (COI), rbcL, and large subunit ribosomal DNA (LSU) sequences for Hawaiian specimens of Leptofauchea revealed one well-supported clade of Hawaiian specimens and three additional lineages. One of these clades is described here as Leptofauchea huawelau sp. nov., and is thus far known only from mesophotic depths at Penguin Bank in the Main Hawaiian Islands. L. huawelau sp. nov. is up to 21 cm, and is the largest known species. An additional lineage identified in the LSU and rbcL analyses corresponds to the recently described L. lucida from Western Australia, and is a new record for Hawai‘i. Hawaiian Halopeltis formed a well-supported clade along with H. adnata from Korea, the recently described H. tanakae from mesophotic depths in Japan, and H. willisii from North Carolina, and is here described as Halopeltis nuahilihilia sp. nov. H. nuahilihilia sp. nov. has a distinctive morphology of narrow vegetative axes that harbor constrictions along their length. The current distribution of H. nuahilihilia includes mesophotic depths around W. Maui, W. Moloka‘i, and the island of Hawai‘i in the Main Hawaiian Islands. Few reproductive characters were observed because of the small number of specimens available; however, both species are distinct based on phylogeny and morphology. These descriptions further emphasize the Hawaiian mesophotic zone as a location harboring many undescribed species of marine macroalgae. 

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4. Systematics, distribution patterns and historical biogeography of the Central America wandering spider genus Kiekie Polotow & Brescovit, 2018 (Araneae: Ctenidae)

   https://doi.org/10.7717/peerj.17242  

   Hazzi, Nicolas; Hormiga, Gustavo (January 2024, PeerJ)

   KiekiePolotow & Brescovit, 2018 is a Neotropical genus of Ctenidae, with most of its species occuring in Central America. In this study, we review the systematics ofKiekieand describe five new species and the unknown females ofK. barrocoloradoPolotow & Brescovit, 2018 andK. garifunaPolotow & Brescovit, 2018, and the unknown male ofK. verbenaPolotow & Brescovit, 2018. In addition, we described the female ofK. montanensewhich was wrongly assigned asK. griswoldiPolotow & Brescovit, 2018 (both species are sympatric). We provided a modified diagnosis for previously described species based on the morphology of the newly discovered species andin situphotographs of living specimens. We inferred a molecular phylogeny using four nuclear (histone H3, 28S rRNA, 18S rRNA and ITS-2) and three mitochondrial genes (cytochrome c oxidase subunit I or COI, 12S rRNA and 16S rRNA) to test the monophyly of the genus and the evolutionary relationships of its species. Lastly, we reconstruct the historical biogeography and map diversity and endemism distributional patterns of the different species. This study increased the number of known species ofKiekiefrom 13 to 18, and we describe a new genus,Eldivowhich is sister lineage ofKiekie. Most of the diversity and endemism of the genusKiekieis located in the montane ecosystems of Costa Rica followed by the lowland rainforest of the Pacific side (Limon Basin).Kiekieoriginated in the North America Tropical region, this genus started diversifying in the Late Miocene and spread to Lower Central America and South America. In that region,Kiekiecolonized independently several times the montane ecosystems corresponding to periods of uplifting of Talamanca and Central Cordilleras. 

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5. Cryptic diversity patterns of subterranean estuaries

   https://doi.org/10.1098/rspb.2024.1483  

   Calderón-Gutiérrez, Fernando; Labonté, Jessica M; Gonzalez, Brett C; Iliffe, Thomas M; Mejía-Ortíz, Luis M; Borda, Elizabeth (November 2024, Proceedings of the Royal Society B: Biological Sciences)

   Subterranean estuaries are coastal ecosystems characterized by vertically stratified groundwater. The biota within these ecosystems is relatively understudied due to the inherent difficulty of accessing such extreme environments. The fauna inhabiting these ecosystems is considered vulnerable to extinction, and the presence of cryptic species has major implications for research and conservation efforts. Most species lack molecular data; however, the evaluation of genetic data for some taxa has revealed that undocumented species are common. This study employs molecular species delimitation methods and DNA barcoding through the analysis of publicly and newly generated sequences, including individuals from type localities and non-crustacean phyla; the latter are typically overlooked in biodiversity assessments of subterranean estuaries. We analysed 376 cytochrome c oxidase subunit I (COI) gene sequences and 154 16S rRNA gene sequences. The COI sequences represented 32% of previously described species and 50% of stygobiont species from the Yucatan Peninsula and Cozumel Island, while sequences of the 16S rRNA represented 14% of described species and 22% of stygobionts. Our results revealed cryptic genetic lineages and taxonomic misidentification of species. As several species from these ecosystems are recognized as endangered, the use of molecular approaches will improve biodiversity estimates and highlight overlooked cryptic lineages in need of evaluation of conservation status. 

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