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Birds have long fascinated scientists and nature lovers alike with the rich variety of sounds they produce. From melodic songs to sharp alarm calls, bird vocalisations serve a variety of purposes, including attracting mates, defending territory, and communicating with others. However, the underlying factors that drive the incredible diversity of bird sounds have remained poorly understood — until now.
A new study conducted by researchers at the University of Wisconsin-Madison has provided new insights into why birds make certain sounds and at what frequency. Published in Proceedings of the Royal Society B, the research analyses the environmental and biological factors influencing bird vocalisations. The study, led by H.S. Sathya Chandra Sagar, a doctoral student, analysed over 100,000 bird sound recordings from around the world. The recordings represented 77% of all known bird species, offering a comprehensive understanding of global patterns in bird communication.
The research highlighted several important factors influencing bird vocalisations, including habitat, latitude, body size, and beak shape. These factors not only shape how birds communicate but also reflect broader evolutionary and ecological patterns.
One of the most surprising discoveries was the relationship between a bird’s habitat and the frequency of its sounds. In ecosystems with a lot of background noise — such as those with rushing water or dense vegetation — birds tend to produce higher-frequency sounds. This adaptation likely helps them avoid being drowned out by low-frequency environmental noise, allowing their calls to remain distinct.
The study also uncovered a geographic pattern in bird vocalisations. Bird species living at similar latitudes tend to produce similar types of sounds across the globe, suggesting that environmental conditions linked to latitude — such as climate — play a significant role in shaping bird communication.
The size and shape of a bird’s body and beak also affect the sounds it produces. Smaller birds will generate higher-frequency sounds, while larger birds produce lower-frequency calls. This is consistent with physical principles — smaller vocal cords and shorter beaks are better suited for creating high-pitched sounds, while larger body mass and longer beaks favour deeper tones.
The analysis further found that smaller birds have a wider range of sound frequencies. This flexibility could be an evolutionary adaptation to improve survival. Higher-pitched calls may help them communicate within their species, while lower-frequency sounds could serve as a form of camouflage. By mimicking the deeper tones of larger birds, smaller species may confuse predators and reduce their chances of being targeted.
Beyond improving the understanding of bird communication, the study also has significant implications for conservation. Bird vocalisations are a key component of “soundscapes” — the total collection of sounds in a particular environment. According to Sagar, understanding the structure of soundscapes can help scientists monitor the health of ecosystems.
For example, the decline of larger birds due to hunting could be reflected in the absence of low-frequency calls in a given habitat. If soundscapes in tropical forests or other biodiverse areas show a reduction in low-frequency sounds, it could signal overhunting or environmental degradation.
This study from the University of Wisconsin-Madison sheds new light on the complex factors that shape bird sounds. By revealing how habitat, geography, and physical traits influence bird vocalisations, the research provides a deeper understanding of avian communication and opens new doors for conservation and ecological monitoring.
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Published – March 12, 2025 05:34 pm IST
