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1. Mate choice in the brain: species differ in how male traits ‘turn on’ gene expression in female brains

   https://doi.org/10.1098/rspb.2024.0121  

   Keagy, Jason; Hofmann, Hans A; Boughman, Janette W (July 2024, Proceedings of the Royal Society B: Biological Sciences)

   Mate choice plays a fundamental role in speciation, yet we know little about the molecular mechanisms that underpin this crucial decision-making process. Stickleback fish differentially adapted to limnetic and benthic habitats are reproductively isolated and females of each species use different male traits to evaluate prospective partners and reject heterospecific males. Here, we integrate behavioural data from a mate choice experiment with gene expression profiles from the brains of females actively deciding whether to mate. We find substantial gene expression variation between limnetic and benthic females, regardless of behavioural context, suggesting general divergence in constitutive gene expression patterns, corresponding to their genetic differentiation. Intriguingly, female gene co-expression modules covary with male display traits but in opposing directions for sympatric populations of the two species, suggesting male displays elicit a dynamic neurogenomic response that reflects known differences in female preferences. Furthermore, we confirm the role of numerous candidate genes previously implicated in female mate choice in other species, suggesting evolutionary tinkering with these conserved molecular processes to generate divergent mate preferences. Taken together, our study adds important new insights to our understanding of the molecular processes underlying female decision-making critical for generating sexual isolation and speciation. 

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2. Chemical cues in the mating behavior of a highly polygynous bird

   https://doi.org/10.1007/s00265-024-03477-0  

   Rivers, Pearl R; DuVal, Emily H (June 2024, Behavioral Ecology and Sociobiology)

   Visual and auditory signals are well-established components of avian courtship, but the role of chemical signaling remains poorly understood, particularly in mating systems with elaborate courtship displays. To test how chemical cues influence mating behavior we conducted two experiments in the lance-tailed manakin (Chiroxiphia lanceolata). First, in a field experiment, we tested the response of free-living males and females to manipulation of chemical cues at male display perches by cleaning the perches with ethanol or a dry cloth (control) and quantified a potential chemical signaling behavior (bill-wiping) in response to experimental manipulation. During bouts of dance perch maintenance and displays with a female present (i.e., activity relevant to female mate choice) males increased bill-wiping behavior during initial ethanol treatment periods. We also detected carryover effects of the ethanol treatment; in later treatment periods males bill-wiped more when the prior treatment was ethanol. The likelihood of a female either revisiting a display area or copulating with a male was unrelated to experimental treatment. Next, in captive trials, we assessed female preference for olfactory cues from males that differed in their genetic diversity, a trait previously identified as relevant to female mate choice. In contrast to similar trials in other bird species, females showed no clear preference. Together, these results provide some evidence for chemical signaling by males at display perches, but it remains unclear what information chemical cues convey. 

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3. Female chorus frogs delay mate choice under suboptimal environmental conditions

   https://doi.org/10.1016/j.anbehav.2023.11.012  

   Dye, Mysia; Lemmon, Alan R.; Lemmon, Emily Moriarty (March 2024, Animal Behaviour)

   Many traits important for reproductive isolation are environmentally responsive. However, most studies examining reproductive isolation do not explicitly take into consideration environmental variation. Temperature can have a particularly large effect on reproductive behaviours, especially in ectotherms. Here, we tested whether temperature affects the degree of reproductive isolation between the upland chorus frog, Pseudacris feriarum, and its congener Pseudacris nigrita. These two species engage in costly hybridization in nature, leading to reinforcement of male signals and female preferences in sympatry. However, male advertisement calls vary with temperature such that the difference between the advertisement calls of the two species is narrower at cold temperatures than at warm temperatures. To examine the effect of temperature on reproductive isolation in this system, we performed six binary choice preference trials using sympatric female P. feriarum. In these experiments, we acclimated females to either warm (20 °C) or cool (10 °C) temperatures and gave them a choice between heterospecific and conspecific advertisement calls appropriate for the temperature. We also conducted experiments where we gave females a choice between more similar stimuli at warm temperatures to test whether females have narrower preferences at cold temperatures. We found that females always had a significant preference for the conspecific advertisement call, regardless of temperature or signal similarity. However, females took twice as long to make a choice in suboptimal conditions. This time delay may lead to increased risk of hybridization, despite females’ ability to discriminate between calls. Our results highlight the importance of considering environmental context when examining traits involved in reproductive isolation. 

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4. An experimental test of the evolutionary consequences of sympatry in Drosophila subquinaria

   https://doi.org/10.1093/evolut/qpad236  

   Jarvis, Will_M_C; Arthur, Nicholas_J; Rundle, Howard_D; Dyer, Kelly_A; Huang, ed., Jen-Pan; Connallon, ed., Tim (December 2023, Evolution)

   Abstract Prezygotic isolation is often stronger between sympatric as opposed to allopatric taxa, but the underlying cause can be difficult to infer from comparative studies alone. Experimental evolution, where evolutionary responses to treatments manipulating the presence/absence of heterospecific individuals are tracked, can provide a powerful complementary approach. We used experimental evolution to investigate a naturally occurring pattern of reproductive character displacement in the mushroom-feeding fly, Drosophila subquinaria. In nature, female D. subquinaria from populations sympatric with the closely related Drosophila recens discriminate more strongly against heterospecific males than do females from allopatric populations. Starting with 16 replicate allopatric populations of D. subquinaria, we manipulated the presence/absence of D. recens during mating (experimental sympatry vs. control) and, when present, we allowed hybrids to live or kill them each generation. Across 12 generations, heterospecific offspring production from no-choice mating trials between D. subquinaria females and D. recens males declined in both experimental sympatry treatments relative to the control, suggesting increased sexual isolation. Male cuticular hydrocarbon profiles also evolved, but only in the hybrids killed treatment. Our results strongly imply that the existing reproductive character displacement in wild D. subquinaria populations was an evolutionary response to selection arising from secondary contact with D. recens. 

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5. Absence of female preference and the origin of a unisexual species, the Amazon molly ( Poecilia formosa )

   https://doi.org/10.1111/eth.13469  

   Smith, Caden; Berbel‐Filho, Waldir_Miron; Spikes, Montrai; Fyon, Frederic; Úbeda, Francisco; Schlupp, Ingo (May 2024, Ethology)

   Abstract The role of hybridization as a formative process in evolution has received much attention in the past few decades. A particularly fascinating outcome of hybrid speciation is the formation of asexual hybrid species. The Amazon molly (Poecilia formosa) is such a hybrid and originated from aP. mexicanamother and aP. latipinnafather. Consequently, a heterospecific mating must have occurred leading to the Amazon molly, indicating a breakdown of any potential prezygotic isolation between parental species. Here we studied the female mate preferences of extantP. mexicanaandP. latipinnafrom several populations using standard binary choice tests with males of both sexual species that were matched for size.Poecilia mexicanaandP. latipinnacan be crossed in the lab, however, the offspring are not asexual, but sexual F₁s. In our study, we generated F₁s and tested their mating preferences with sexual males of bothP. mexicanaandP. latipinnaagainst F₁males. Overall, our results show that in extantP. mexicanaandP. latipinnano female preference for conspecific males was detectable. Consequently, heterospecific matings are possible and not hindered by any apparent behavioral prezygotic isolation. If female preferences in these species were comparable around the time the Amazon molly originated as a hybrid species ca. 100,000 years ago, matings leading to hybrids would be very likely. F₁females also have no discernable mating preferences for either sexual males or F₁males. Such lack of prezygotic behavioral isolation could potentially lead to F₂individuals, backcrosses, and introgression. 

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