What Humpback Whales Are Communicating Through Their Songs and Who Is Listening in the Ocean
Aishwarya Kapoor | Times Life Bureau | Jul 05, 2026, 07:50 IST
What Humpback Whales Are Communicating Through Their Songs and Who Is Listening in the Ocean
Image credit : Times Life Bureau
Humpback whales produce the longest, most complex songs of any animal on Earth, and scientists are only beginning to decode what those acoustic signals actually mean. The ocean carries these sounds thousands of kilometres. Other whales hear them. So do naval sonar arrays. And now, AI systems trained on marine recordings are starting to parse the patterns that human ears have missed for decades.
The song is not random noise
The biological mechanism behind the sound is unusual. Humpbacks have no vocal cords. They push air through a specialised laryngeal structure and a system of inflatable sacs, recycling the same air without exhaling. A whale can sing continuously for hours without surfacing. The frequencies range from about 20 Hz, below what most humans can hear without equipment, up to 24,000 Hz, spanning a range that crosses the hearing thresholds of fish, dolphins, and other baleen whales entirely.
Who is actually listening
Beyond other humpbacks, the ocean is full of listeners that scientists did not initially consider. Sperm whales, orcas, and fin whales all share acoustic frequency ranges that overlap with humpback song. Whether they parse meaning from it or simply register it as environmental noise is unknown. What is known is that the sound travels. In the deep sound channel, a layer of ocean where temperature and pressure combine to trap and propagate low-frequency sound, humpback songs can travel up to 10,000 kilometres without significant loss. A whale singing off the Andaman Islands could, in principle, be heard by another whale near Madagascar.
What the songs appear to mean
The new listeners: machines and researchers
The military dimension is less discussed but real. Naval sonar systems, particularly low-frequency active sonar used by the US Navy, operate in frequency ranges that directly overlap with humpback communication bands. The overlap is not incidental. Several strandings of cetaceans near naval exercises have been linked to acoustic disruption, and a 2003 report by the International Whaling Commission flagged mid-frequency sonar as a contributing factor in documented mass strandings. The ocean's acoustic environment, in which humpback song evolved over millions of years, now carries industrial shipping noise, seismic survey pulses, and military sonar, all of which the whales cannot filter out.
What the singing tells us about animal minds
The song, the silence around it, and the new noise cutting through both are the same story told from three directions: a species that evolved one of the most complex communication systems on the planet, a set of technologies finally sensitive enough to begin reading it, and a set of other technologies loud enough to drown it out before the reading is done.