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1. Diversity of Nearctic Dragonflies and Damselflies (Odonata)

   https://doi.org/10.3390/d14070575  

   Abbott, John C.; Bota-Sierra, Cornelio A.; Guralnick, Robert; Kalkman, Vincent; González-Soriano, Enrique; Novelo-Gutiérrez, Rodolfo; Bybee, Seth; Ware, Jessica; Belitz, Michael W. (July 2022, Diversity)

   Rarely have studies assessed Odonata diversity for the entire Nearctic realm by including Canada, the United States, and Mexico. For the first time, we explored Odonata diversity in this region according to a definition of natural community assemblages and generated species distribution models (SDMs). Species occurrence data were assembled by reviewing databases of specimens held by significant Odonata repositories and through an extensive search of literature references. Species were categorized as forest-dependent or non-forest-dependent, as lentic or lotic-dependent, and according to conservation status. Predicted distributions were stacked for all species across their entire ranges, including areas outside of the Nearctic. Species richness and corrected weighted endemism (CWE) were then calculated for each grid cell. We found a pattern of greater species richness in the eastern portion of the Nearctic, which can be explained by the higher aquatic habitat diversity at micro and macroscales east of the Rocky Mountains, promoting niche partitioning and specialization. In the Nearctic region, the southeastern US has the highest number of endemic species of dragonflies and damselflies; this degree of endemism is likely due to glacial refuges providing a foundation for the evolution of a rich and unique biota. 

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2. Diversity of Palaearctic Dragonflies and Damselflies (Odonata)

   https://doi.org/10.3390/d14110966  

   Kalkman, Vincent J.; Boudot, Jean-Pierre; Futahashi, Ryo; Abbott, John C.; Bota-Sierra, Cornelio A.; Guralnick, Robert; Bybee, Seth M.; Ware, Jessica; Belitz, Michael W. (November 2022, Diversity)

   More than 1.2 million distribution records were used to create species distribution models for 402 Palaearctic species of dragonflies and damselflies. On the basis of these diversity maps of total, lentic and lotic diversity for the whole of the Palaearctic (excluding China and the Himalayan region) are presented. These maps show a clear pattern of decreasing diversity longitudinally, with species numbers dropping in the eastern half of Europe and remaining low throughout a large part of Russia, then increasing again towards Russia’s Far East and Korea. There are clear differences in diversity patterns of lentic and lotic species, with lentic species being dominant in colder and more arid areas. Areas with a high diversity of species assessed as threatened on the IUCN red list are largely restricted to the Mediterranean, Southwest Asia, and Japan, with clear hotspots found in the Levant and the southern half of Japan. The diversity at species, generic, and family level is higher in the south of Japan than in areas at a similar latitude in the western Mediterranean. This is likely to be the result of the more humid climate of Japan resulting in a higher diversity of freshwater habitats and the stronger impact of the glacial periods in the Western Palaearctic in combination with the Sahara, preventing tropical African lineages dispersing northwards. 

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3. Reference genome for the American rubyspot damselfly, Hetaerina americana

   https://doi.org/10.1093/jhered/esad031  

   Grether, Gregory F; Beninde, Joscha; Beraut, Eric; Chumchim, Noravit; Escalona, Merly; MacDonald, Zachary G; Miller, Courtney; Sahasrabudhe, Ruta; Shedlock, Andrew M; Toffelmier, Erin; et al (May 2023, Journal of Heredity)

   Sethuraman, Arun (Ed.)

   Abstract Damselflies and dragonflies (Order: Odonata) play important roles in both aquatic and terrestrial food webs and can serve as sentinels of ecosystem health and predictors of population trends in other taxa. The habitat requirements and limited dispersal of lotic damselflies make them especially sensitive to habitat loss and fragmentation. As such, landscape genomic studies of these taxa can help focus conservation efforts on watersheds with high levels of genetic diversity, local adaptation, and even cryptic endemism. Here, as part of the California Conservation Genomics Project (CCGP), we report the first reference genome for the American rubyspot damselfly, Hetaerina americana, a species associated with springs, streams and rivers throughout California. Following the CCGP assembly pipeline, we produced two de novo genome assemblies. The primary assembly includes 1,630,044,487 base pairs, with a contig N50 of 5.4 Mb, a scaffold N50 of 86.2 Mb, and a BUSCO completeness score of 97.6%. This is the seventh Odonata genome to be made publicly available and the first for the subfamily Hetaerininae. This reference genome fills an important phylogenetic gap in our understanding of Odonata genome evolution, and provides a genomic resource for a host of interesting ecological, evolutionary, and conservation questions for which the rubyspot damselfly genus Hetaerina is an important model system. 

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4. Phylogeny and classification of Nesobasis Selys, 1891 and Vanuatubasis Ober & Staniczek, 2009 (Odonata: Coenagrionidae)

   https://doi.org/10.1163/1876312X-bja10049  

   Ferguson, Daniel G.; Marinov, Milen; Saxton, Natalie A.; Rashni, Bindiya; Bybee, Seth M. (April 2023, Insect Systematics & Evolution)

   Abstract Island archipelagos in the South Pacific have relatively high species endemism within the insect order Odonata, specifically damselflies. Nesobasis Selys, 1891, an endemic damselfly genus from Fiji, includes over 20 species, but a clear understanding of its evolutionary relationship to other damselflies in the region is lacking. Scientists have questioned the monophyly of Nesobasis due to variations within the genus leading to the establishment of three divisions provisionally named as: comosa-, erythrops- and longistyla- groups. However, Nesobasis has shown to be monophyletic in previous phylogenetic analyses. Using additional species in this study, we investigate the phylogenetic relationships between Nesobasis and other damselflies from the region, specifically the endemic Vanuatubasis Ober & Staniczek, 2009 from the neighboring island archipelagos of Vanuatu. The relationship between these taxa has not yet been examined with molecular data. Five genes were used in a maximum likelihood phylogenetic reconstruction and examined morphological data to determine the relationship between these genera. Our results recover three distinct clades overall with Vanuatubasis nested within Nesobasis (i.e., non-monophyletic). Vanuatubasis is sister to the longistyla and erythrops groups. The third group, comosa, was found sister to the clade of Vanuatubasis ( longistyla + erythrops ). As a result of these findings, we propose the new genus, Nikoulabasis gen. nov. 

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5. Zygoptera systematics: past, present, and future

   https://doi.org/10.1093/isd/ixaf013  

   Sutherland, Laura_N; Carter, Payton_R; Abbott, John; Beatty, Christopher; Bota-Sierra, Cornelio_A; Büsse, Sebastian; Cano-Cobos, Yiselle; Combey, Rofela; Cordero-Rivera, Adolfo; Uche_Dike, Rhema; et al (July 2025, Insect Systematics and Diversity)

   Abstract Odonata is a midsized insect order (~6420 species) containing 3 suborders: Anisoptera (dragonflies, 3,120 species), Zygoptera (damselflies, ~3,297 species), and the intermediate Anisozygoptera (~3 species). In this review of the suborder Zygoptera, we provide a brief overview of their biology, ecology, and natural history. We also review the current state of their systematics and phylogenetics, highlighting remaining higher-level classification (eg family, superfamily) issues to address. Lastly, we will emphasize areas that are still in need of exploration which would greatly improve our understanding of the group. 

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