The captivating sounds of the natural world have long fascinated human beings, evoking emotions and aesthetic pleasure that transcend mere functionality. From the dazzling visual display of butterfly wings to the alluring fragrance of blooming flowers, nature communicates through a variety of sensory signals designed to propagate species. Among these signals, animal vocalizations—especially mating calls—stand as a particularly compelling form of communication. A groundbreaking study published on March 19, 2026, in the prestigious journal Science has revealed that humans and other animals share strikingly similar acoustic preferences when it comes to these mating calls, challenging existing assumptions about the uniqueness of human auditory taste.
This extensive collaborative research effort, involving the Smithsonian Tropical Research Institute (STRI) alongside teams from the United States, Canada, and New Zealand, utilized an innovative approach to explore how human auditory perception aligns with that of various animal species. Through an experimental online game engaging over 4,000 worldwide participants, researchers presented pairs of animal sounds from 16 different species spanning a broad spectrum of the animal kingdom. Participants were asked to select which sound they preferred, enabling a large-scale comparison of subjective preferences between humans and animals previously studied for their own acoustic inclinations.
The study’s genesis traces back to seminal work from the early 1980s by A. Stanley Rand and Michael J. Ryan, when they first documented the vocal preferences of female túngara frogs in Central American rainforests. Their pioneering research demonstrated that female frogs exhibited a marked preference for males emitting more complex calls, highlighting the role of acoustic intricacy in mate selection. Building on this foundation, Ryan and colleagues sought to determine whether humans would exhibit similar preferences to those demonstrated by animal females, especially for complex and ornamented sounds used in mating calls.
Logan James, the lead author and STRI research associate, expressed a deep fascination with uncovering the origins of these cross-species auditory preferences. He pointed to earlier findings that not only the intended female receivers but also unintended listeners or “eavesdroppers,” such as parasitic flies and predatory bats, showed preferences for complex calls. This revelation spurred interest in whether such acoustic tastes are widespread across taxa and whether humans might share in these sensory biases.
Human participants engaged via a gamified citizen science platform designed not just for data collection but for participant enjoyment and broad accessibility. This method allowed researchers to gather a vast, diverse dataset examining human choices across an array of animal vocalizations. By focusing on sounds for which animal preferences had already been experimentally established, the team was able to assess the extent of alignment between human and animal auditory preferences systematically.
The results were compelling. Researchers observed a considerable overlap in acoustic preferences, with humans more often favoring the same calls that animals themselves preferred. Interestingly, the degree of concordance between human and animal choices correlated with the strength of the animals’ preferences: the more pronounced the animal’s choice for a particular sound, the more likely humans were to select that sound as well. Furthermore, reaction times indicated that humans made quicker choices when selecting the sounds deemed more attractive by animals, suggesting an innate or intuitive recognition of acoustic appeal.
Among the acoustic features most consistently preferred were lower-frequency sounds, which correspond to lower pitch ranges, and complex acoustic embellishments such as trills, clicks, and “chucks” — ornamental modulations that likely serve to enhance signal attractiveness or convey fitness. These auditory characteristics are believed to tap into shared sensory processing strategies that have evolved among diverse vertebrates, including humans, to detect and respond to biologically relevant sounds.
Michael J. Ryan underscored the significance of these findings through the lens of evolutionary biology, referencing Charles Darwin’s early insights. Darwin had noted animals’ tendency to display a “taste for the beautiful,” an aesthetic sense that sometimes parallels human preferences. The study’s evidence that human and non-human animal preferences converge on common acoustic themes lends empirical weight to Darwin’s observation, implying shared neural and sensory mechanisms underpinning auditory appreciation across species.
This shared auditory preference also suggests a deeper evolutionary basis for signal design in animal communication. It indicates that certain features of animal calls may have been shaped not only by selection pressures within species but also by broader sensory biases extant in receivers, including humans. Such biases might drive the evolution of calls that exploit universal perceptual proclivities, contributing to the emergence of complex communication systems and influencing mate choice dynamics.
Moreover, the study expands the methodological toolkit for cross-species analyses of sensory preferences by demonstrating the efficacy of online, gamified citizen science. This approach facilitates large-scale data gathering from a heterogeneous human population, enhancing the ecological validity and generalizability of findings. It opens pathways for future inquiries into the comparative cognition of sensory perception, bridging human psychology with animal behavioral ecology.
At the same time, this research underscores that human sensory systems do not exist in isolation but share evolutionary continuity with other animals. The interplay between biological function and aesthetic appreciation in acoustic signaling highlights the universality of certain perceptual mechanisms that transcend species boundaries, enriching our understanding of the natural world and the evolutionary origins of auditory beauty.
In summary, these findings affirm that humans and animals are attuned to similar acoustic signals, especially those featuring low-frequency components and elaborate ornamental elements. They reveal that the human sense of sound beauty is deeply rooted in evolutionary history and shared sensory neurobiology. The implications extend beyond the scientific community, inviting broader reflections on the interconnectedness of life, the nature of sensory experience, and the evolutionary conservation of beauty in communication.
Subject of Research: People
Article Title: Humans share acoustic preferences with other animals
News Publication Date: 19-Mar-2026
Web References:
DOI link
The Music Lab online game
Image Credits: Credit: Raina Fan
Keywords: Evolutionary psychology, Psychological science, Behavioral ecology, Animal communication, Ethology, Cognitive psychology
Tags: acoustic signals in species propagationanimal vocalizations in mating behaviorcomparative acoustic perception in humans and animalscross-species auditory preference studyevolutionary basis of mating callsglobal online auditory preference gamehuman and animal mating call preferenceshuman auditory perception of animal soundsinterdisciplinary animal behavior researchlarge-scale auditory preference experimentsensory communication in animals and humansSmithsonian Tropical Research Institute research
