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1. Sampling affects population genetic inference: A case study of the Allen’s ( Selasphorus sasin ) and rufous hummingbird ( Selasphorus rufus )

   https://doi.org/10.1093/jhered/esad044  

   Myers, Brian M.; Burns, Kevin J.; Clark, Christopher J.; Brelsford, Alan; Delmore, ed., Kira (July 2023, Journal of Heredity)

   Abstract Gene flow can affect evolutionary inference when species are undersampled. Here, we evaluate the effects of gene flow and geographic sampling on demographic inference of 2 hummingbirds that hybridize, Allen’s hummingbird (Selasphorus sasin) and rufous hummingbird (Selasphorus rufus). Using whole-genome data and extensive geographic sampling, we find widespread connectivity, with introgression far beyond the Allen’s × rufous hybrid zone, although the Z chromosome resists introgression beyond the hybrid zone. We test alternative hypotheses of speciation history of Allen’s, rufous, and Calliope (S. calliope) hummingbird and find that rufous hummingbird is the sister taxon to Allen’s hummingbird, and Calliope hummingbird is the outgroup. A model treating the 2 subspecies of Allen’s hummingbird as a single panmictic population fit observed genetic data better than models treating the subspecies as distinct populations, in contrast to morphological and behavioral differences and analyses of spatial population structure. With additional sampling, our study builds upon recent studies that came to conflicting conclusions regarding the evolutionary histories of these 2 species. Our results stress the importance of thorough geographic sampling when assessing demographic history in the presence of gene flow. 

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2. The population genetics of nonmigratory Allen’s Hummingbird ( Selasphorus sasin sedentarius ) following a recent mainland colonization

   https://doi.org/10.1002/ece3.7174  

   Myers, Brian M.; Burns, Kevin J.; Clark, Christopher J.; Brelsford, Alan (January 2021, Ecology and Evolution)

   Abstract Allen's Hummingbird comprises two subspecies, one migratory (Selasphorus sasin sasin) and one nonmigratory (S. s. sedentarius). The nonmigratory subspecies, previously endemic to the California Channel Islands, apparently colonized the California mainland on the Palos Verdes Peninsula some time before 1970 and now breeds throughout coastal southern California. We sequenced and compared populations of mainland nonmigratory Allen's Hummingbird to Channel Island populations from Santa Catalina, San Clemente, and Santa Cruz Island. We found no evidence of founder effects on the mainland population. Values of nucleotide diversity on the mainland were higher than on the Channel Islands. There were low levels of divergence between the Channel Islands and the mainland, and Santa Cruz Island was the most genetically distinct. Ecological niche models showed that rainfall and temperature variables on the Channel Islands are similar in the Los Angeles basin and predicted continued expansion of nonmigratory Allen's Hummingbird north along the coast and inland. We also reviewed previous genetic studies of vertebrate species found on the Channel Islands and mainland and showed that broad conclusions regarding island–mainland patterns remain elusive. Challenges include the idiosyncratic nature of colonization itself as well as the lack of a comprehensive approach that incorporates similar markers and sampling strategies across taxa, which, within the context of a comparative study of island–mainland relationships, may lead to inconsistent results. 

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3. CHANGES IN SPRING ARRIVAL DATES OF RUFOUS HUMMINGBIRDS (SELASPHORUS RUFUS) IN WESTERN NORTH AMERICA IN THE PAST CENTURY

   Courter, Jason R. (March 2017, Wilson Ornithological Society Annual Meeting)

   Warming temperatures have been linked to advancing spring migration dates of birds, although most studies have been conducted at individual sites. Problems may arise if birds arrive or depart before or after associated food resources reach critical lifecycle stages. I compared mean first arrival dates of Rufous Hummingbird (Selaphorus rufus), a prolific pollinator and long-distance migrant, between 1895-1969 and 2006-2015 at eight locations in Oregon, Washington, and British Columbia. Historical arrivals were reported through the North American Bird Phenology Program and recent arrivals were estimated from temporal occupancy patterns using eBird checklists. Results indicated that hummingbirds arrived 8 and 11 days later in the recent time period in two coastal cities in Oregon and 7-17 days earlier in northern, more inland cities in Washington and British Columbia. Spring temperatures have increased in the past century in much of this region and birds arrived earlier in years with warmer spring temperatures, suggesting that migratory advancements were climate-related. Later arrivals reported in coastal regions of Oregon in the recent time period may suggest that Rufous Hummingbirds are bypassing coastal areas to take advantage of more predictable conditions along inland migratory routes, or are shifting their breeding ranges northward, notions both supported by declining population trends observed in Breeding Bird Survey data. My results provide justification for the investigation of the ecological impacts of climate change on birds in coastal vs. inland environments and a framework for comparing information from two extensive and emerging datasets to better understand the impacts of climate change on bird migration. 

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4. On the function of a female-like signal type in the vibrational repertoire of Enchenopa male treehoppers (Hemiptera: Membracidae)

   https://doi.org/10.1093/jeb/voad010  

   Escalante, Ignacio; Kellner, Jerald_R; Desjonquères, Camille; Noffsinger, Gianna_M; Cirino, Lauren_A; Rodríguez, Ariel_N; DeLong, Sage_A; Rodríguez, Rafael_L (December 2023, Journal of Evolutionary Biology)

   Abstract Animals often mimic the behaviours or signals of conspecifics of the opposite sex while courting. We explored the potential functions of a novel female-like signal type in the courtship displays of male Enchenopa treehoppers. In these plant-feeding insects, males produce plant-borne vibrational advertisement signals, to which females respond with their own duetting signals. Males also produce a signal type that resembles the female duetting responses. We experimentally tested whether this signal modifies the behaviour of receivers. First, we tested whether the female-like signal would increase the likelihood of a female response. However, females were as likely to respond to playbacks with or without them. Second, we tested whether the female-like signal would inhibit competing males, but males were as likely to produce displays after playbacks with or without them. Hence, we found no evidence that this signal has an adaptive function, despite its presence in the courtship display, where sexual selection affects signal features. Given these findings, we also explored whether the behavioural and morphological factors of the males were associated with the production of the female-like signal. Males that produced this signal had higher signalling effort (longer and more frequent signals) than males that did not produce it, despite being in worse body condition. Lastly, most males were consistent over time in producing the female-like signal or not. These findings suggest that condition-dependent or motivational factors explain the presence of the female-like signal. Alternatively, this signal might not bear an adaptive function, and it could be a way for males to warm up or practice signalling, or even be a by-product of how signals are transmitted through the plant. We suggest further work that might explain our puzzling finding that a signal in the reproductive context might not have an adaptive function. 

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5. Acoustic and postural displays in a miniature and transparent teleost fish, Danionella dracula

   https://doi.org/10.1242/jeb.244585  

   Tatarsky, Rose L.; Guo, Zilin; Campbell, Sarah C.; Kim, Helena; Fang, Wenxuan; Perelmuter, Jonathan T.; Schuppe, Eric R.; Conway, Kevin W.; Reeve, Hudson K.; Bass, Andrew H. (August 2022, Journal of Experimental Biology)

   ABSTRACT Acoustic behavior is widespread across vertebrates, including fishes. We report robust acoustic displays during aggressive interactions for a laboratory colony of Danionella dracula, a miniature and transparent species of teleost fish closely related to zebrafish (Danio rerio), which are hypothesized to be sonic based on the presence of a hypertrophied muscle associated with the male swim bladder. Males produce bursts of pulsatile sounds and a distinct postural display – extension of a hypertrophied lower jaw, a morphological trait not present in other Danionella species – during aggressive but not courtship interactions. Females show no evidence of sound production or jaw extension in such contexts. Novel pairs of size-matched or -mismatched males were combined in resident–intruder assays where sound production and jaw extension could be linked to individuals. In both dyad contexts, resident males produced significantly more sound pulses than intruders. During heightened sonic activity, the majority of the highest sound producers also showed increased jaw extension. Residents extended their jaw more than intruders in size-matched but not -mismatched contexts. Larger males in size-mismatched dyads produced more sounds and jaw extensions compared with their smaller counterparts, and sounds and jaw extensions increased with increasing absolute body size. These studies establish D. dracula as a sonic species that modulates putatively acoustic and postural displays during aggressive interactions based on residency and body size, providing a foundation for further investigating the role of multimodal displays in a new model clade for neurogenomic and neuroimaging studies of aggression, courtship and other social interactions. 

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