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1. Specialized androgen synthesis in skeletal muscles that actuate elaborate social displays

   https://doi.org/10.1242/jeb.243730  

   Schuppe, Eric R.; Tobiansky, Daniel; Goller, Franz; Fuxjager, Matthew J. (June 2022, Journal of Experimental Biology)

   ABSTRACT Androgens mediate the expression of many reproductive behaviors, including the elaborate displays used to navigate courtship and territorial interactions. In some vertebrates, males can produce androgen-dependent sexual behavior even when levels of testosterone are low in the bloodstream. One idea is that select tissues make their own androgens from scratch to support behavioral performance. We first studied this phenomenon in the skeletal muscles that actuate elaborate sociosexual displays in downy woodpeckers and two songbirds. We show that the woodpecker display muscle maintains elevated testosterone when the testes are regressed in the non-breeding season. Both the display muscles of woodpeckers, as well as the display muscles in the avian vocal organ (syrinx) of songbirds, express all transporters and enzymes necessary to convert cholesterol into bioactive androgens locally. In a final analysis, we broadened our study by looking for these same transporters and enzymes in mammalian muscles that operate at different speeds. Using RNA-seq data, we found that the capacity for de novo synthesis is only present in ‘superfast’ extraocular muscle. Together, our results suggest that skeletal muscle specialized to generate extraordinary twitch times and/or extremely rapid contractile speeds may depend on androgenic hormones produced locally within the muscle itself. Our study therefore uncovers an important dimension of androgenic regulation of behavior. 

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2. Physiological Basis of Convergent Evolution in Animal Communication Systems

   https://doi.org/10.1093/icb/icae091  

   Anderson, Nigel_K; Preininger, Doris; Fuxjager, Matthew_J (June 2024, Integrative And Comparative Biology)

   Synopsis To humans, the diverse array of display behaviors that animals use for communication can easily seem peculiar or bizarre. While ample research delves into the evolutionary principles that shape these signals’ effectiveness, little attention is paid to evolutionary patterning of signal design across taxa, particularly when it comes to the potential convergent evolution of many elaborate behavioral displays. By taking a mechanistic perspective, we explore the physiological and neurobiological mechanisms that likely influence the evolution of communication signals, emphasizing the utilization of pre-existing structures over novel adaptations. Central to this investigation are the concepts of perceptual bias and ritualization that we propose contribute to the convergence of elaborate display designs across species. Perceptual bias explains a phenomenon where pre-existing perceptual systems of receivers, used for innate behaviors such as food and predator recognition, select for certain traits of a communication signal from a signaler. Ritualization occurs when traits with no functional role in communication are co-opted through selection and transformed into a new communicative signal. Importantly, susceptibility for ritualization can be brought about through physiological modifications that occurred early in evolutionary time. In this way, perceptual bias can be a selective force that causes the co-option of non-communicative traits into a new communication signal through ritualization involving pre-existing modifications to physiological systems. If the perceptual bias, non-communicative signal, and physiological modifications that increase susceptibility to ritualization are highly conserved, then we may see the convergent evolution of the new communication signal with unrelated taxa facing similar sensory constraints. We explore this idea here using the foot-flagging frog system as a theoretical case study. 

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3. Mixed Reality Deictic Gesture for Multi-Modal Robot Communication

   https://doi.org/10.1109/HRI.2019.8673275  

   Williams, Tom; Bussing, Matthew; Cabrol, Sebastian; Boyle, Elizabeth; Tran, Nhan (March 2019, 14th {ACM/IEEE} International Conference on Human-Robot Interaction)

   In previous work, researchers have repeatedly demonstrated that robots' use of deictic gestures enables effective and natural human-robot interaction. However, new technologies such as augmented reality head mounted displays enable environments in which mixed-reality becomes possible, and in such environments, physical gestures become but one category among many different types of mixed reality deictic gestures. In this paper, we present the first experimental exploration of the effectiveness of mixed reality deictic gestures beyond physical gestures. Specifically, we investigate human perception of videos simulating the display of allocentric gestures, in which robots circle their targets in users' fields of view. Our results suggest that this is an effective communication strategy, both in terms of objective accuracy and subjective perception, especially when paired with complex natural language references. 

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4. Male Superb Lyrebirds ( Menura novaehollandiae ) perform an ornate multimodal display immediately following copulation

   https://doi.org/10.1111/ibi.13052  

   Dalziell, Anastasia H.; Welbergen, Justin A. (March 2022, Ibis)

   Birds perform some of the most elaborate intersexual displays in the animal kingdom, but while these are typically associated with the pre‐copulation stage of sexual interactions, the males of some species also display following copulation. Here we report that immediately after dismounting from females, male Superb LyrebirdsMenura novaehollandiaeperform a striking multimodal display comprising a repetitive clicking vocalization and a stereotyped tail posture, while walking backwards away from the female. This ubiquitous postcopulatory display constitutes the fourth, structurally distinct multimodal display performed by male Superb Lyrebirds during intersexual interactions and points to a role for sexual selection after copulation in the lyrebird's lek‐like mating system. As such, this study highlights an additional and largely overlooked functional context for complex courtship choreography in birds. 

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5. Proposing a neural framework for the evolution of elaborate courtship displays

   https://doi.org/10.7554/eLife.74860  

   Schwark, Ryan W; Fuxjager, Matthew J; Schmidt, Marc F (May 2022, eLife)

   In many vertebrates, courtship occurs through the performance of elaborate behavioral displays that are as spectacular as they are complex. The question of how sexual selection acts upon these animals’ neuromuscular systems to transform a repertoire of pre-existing movements into such remarkable (if not unusual) display routines has received relatively little research attention. This is a surprising gap in knowledge, given that unraveling this extraordinary process is central to understanding the evolution of behavioral diversity and its neural control. In many vertebrates, courtship displays often push the limits of neuromuscular performance, and often in a ritualized manner. These displays can range from songs that require rapid switching between two independently controlled ‘voice boxes’ to precisely choreographed acrobatics. Here, we propose a framework for thinking about how the brain might not only control these displays, but also shape their evolution. Our framework focuses specifically on a major midbrain area, which we view as a likely important node in the orchestration of the complex neural control of behavior used in the courtship process. This area is the periaqueductal grey (PAG), as studies suggest that it is both necessary and sufficient for the production of many instinctive survival behaviors, including courtship vocalizations. Thus, we speculate about why the PAG, as well as its key inputs, might serve as targets of sexual selection for display behavior. In doing so, we attempt to combine core ideas about the neural control of behavior with principles of display evolution. Our intent is to spur research in this area and bring together neurobiologists and behavioral ecologists to more fully understand the role that the brain might play in behavioral innovation and diversification. 

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