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1. Pterobdella occidentalis n. sp. (Hirudinida: Piscicolidae) for P. abditovesiculata (Moore, 1952) from the Longjaw Mudsucker, Gillichthys mirabilis, and Staghorn Sculpin, Leptocottus armatus, and Other Fishes in the Eastern Pacific

   https://doi.org/10.1645/22-76  

   Goffredi, Shana K.; Appy, Ralph G.; Burreson, Eugene M.; Sakihara, Troy S. (April 2023, Journal of Parasitology)

   Pterobdella occidentalis n. sp. (Hirudinida: Piscicolidae) is described from the longjaw mudsucker, Gillichthys mirabilis Cooper, 1864, and the staghorn sculpin, Leptocottus armatus Girard, 1854, in the eastern Pacific, and the diagnosis of Pterobdella abditovesiculata (Moore, 1952) from the ‘o‘opu ‘akupa, Eleotris sandwicensis Vaillant and Sauvage, 1875, from Hawaii is amended. The morphology of both species conforms with the genus Pterobdella in possessing a spacious coelom, well-developed nephridial system, and 2 pairs of mycetomes. Originally described as Aestabdella abditovesiculata, P. occidentalis (present along the U.S. Pacific Coast), can be distinguished from most congeners by its metameric pigmentation pattern and diffuse pigmentation on the caudal sucker. Based on mitochondrial gene sequences, including cytochrome c oxidase subunit I (COI) and NADH dehydrogenase subunit I (ND1), P. occidentalis forms a distinct polyphyletic clade with Pterobdella leiostomi from the western Atlantic. Based on COI, ND1, and the 18S rRNA genes, other leech species most closely related to P. occidentalis include Pterobdella arugamensis from Iran, Malaysia, and possibly Borneo, which likely represent distinct species, and Pterobdella abditovesiculata from Hawaii, one of only a few endemic fish parasites in Hawaii. Like P. abditovesiculata, P. arugamensis, and Petrobdella amara, P. occidentalis is often found in estuarine environments, frequently infecting hosts adapted to a wide range of salinity, temperature, and oxygen. The physiological plasticity of P. occidentalis and the longjaw mudsucker host, and the ease of raising P. occidentalis in the lab, make it an excellent candidate for the study of leech physiology, behavior, and possible bacterial symbionts. 

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2. 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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3. A new species of African legless skink, genus Acontias Cuvier, 1816 “1817” (Squamata: Scincidae) from Serra da Neve inselberg, south-western Angola

   https://doi.org/10.1080/21564574.2023.2246487  

   Marques, Mariana P; Parrinha, Diogo; Tiutenko, Arthur; Lopes-Lima, Manuel; Bauer, Aaron M; Ceríaco, Luis_M P (November 2023, African Journal of Herpetology)

   During a recent survey of the Serra da Neve inselberg in southwestern Angola, a population of lance-skinks of the genus Acontias was found. Only three species of this genus have been recorded for the country so far — A. occidentalis, A. kgalagadi and A. jappi. Using an integrative approach and combining molecular and morphological data we found that the Serra da Neve population represents a new species, closely related to rupicolous species such as A. percivali and members of the A. occidentalis species complex. In this paper we describe this population as a new species, Acontias mukwando sp. nov. and provide brief comments on its conservation and biogeography. 

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4. Molecular and niche modeling approaches to identify potential amplifying hosts for an emerging tick-borne pathogen, Rickettsia rickettsii subsp. californica , the causative agent of Pacific Coast tick fever

   https://doi.org/10.1093/jme/tjae147  

   Mai, Vincent; Boria, Robert_A; Padgett, Kerry; Koo, Michelle_S; Saunders, Megan_E_M; Billeter, Sarah; Asin, Javier; Shooter, Savannah; Zambrano, Maria; Karpathy, Sandor; et al (December 2024, Journal of Medical Entomology)

   Abstract Pacific Coast tick fever is a recently described zoonotic disease in California caused by a spotted fever group rickettsia, Rickettsia rickettsii subsp. californica (formerly Rickettsia 364D) and transmitted by the Pacific Coast tick, Dermacentor occidentalis. Like many emerging vector-borne diseases, knowledge regarding the transmission cycle, contribution from potential amplifying hosts, and geographic distribution of R. rickettsii californica is limited. We paired molecular analysis with comparative spatial niche modeling to identify vertebrate hosts potentially involved in the transmission cycle of this pathogen. We identified R. rickettsii californica DNA in three mammal species (Otospermophilus beecheyi, Lepus californicus, and Sylvilagus audubonii). This is the first record of R. rickettsii californica detected in mammals and may indicate potential amplifying hosts for this human pathogen. Species niche modeling of uninfected and infected D. occidentalis identified areas of high suitability along the coast and Sierra Nevada foothills of California. These findings support the hypothesis that amplifying host(s) may support higher infection prevalence in the infected tick regions compared to other parts of the tick’s range. Potential host species distribution models (SDMs) were constructed from museum records and niche overlap statistics were used to compare habitat suitability with R. rickettsii californica-infected tick SDMs. We found higher than null overlap of infected ticks with California ground squirrels (O. beecheyii) and trending, but nonsignificant, overlap with two lagomorph species. Pairing molecular and niche modeling may be a useful approach to identify species that are involved in the maintenance of emerging tick-borne zoonoses. 

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5. Assembly of the largest squamate reference genome to date: The western fence lizard, Sceloporus occidentalis

   https://doi.org/10.1093/jhered/esad037  

   Bishop, Anusha P.; Westeen, Erin P.; Yuan, Michael L.; Escalona, Merly; Beraut, Eric; Fairbairn, Colin; Marimuthu, Mohan P. A.; Nguyen, Oanh; Chumchim, Noravit; Toffelmier, Erin; et al (June 2023, Journal of Heredity)

   Abstract Spiny lizards (genus Sceloporus) have long served as important systems for studies of behavior, thermal physiology, dietary ecology, vector biology, speciation, and biogeography. The western fence lizard, Sceloporus occidentalis, is found across most of the major biogeographical regions in the western United States and northern Baja California, Mexico, inhabiting a wide range of habitats, from grassland to chaparral to open woodlands. As small ectotherms, Sceloporus lizards are particularly vulnerable to climate change, and S. occidentalis has also become an important system for studying the impacts of land use change and urbanization on small vertebrates. Here, we report a new reference genome assembly for S. occidentalis, as part of the California Conservation Genomics Project (CCGP). Consistent with the reference genomics strategy of the CCGP, we used Pacific Biosciences HiFi long reads and Hi-C chromatin-proximity sequencing technology to produce a de novo assembled genome. The assembly comprises a total of 608 scaffolds spanning 2,856 Mb, has a contig N50 of 18.9 Mb, a scaffold N50 of 98.4 Mb, and BUSCO completeness score of 98.1% based on the tetrapod gene set. This reference genome will be valuable for understanding ecological and evolutionary dynamics in S. occidentalis, the species status of the California endemic island fence lizard (S. becki), and the spectacular radiation of Sceloporus lizards. 

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