Scientists at the University of British Columbia and the Smithsonian Institution have discovered a sensory¹ organ in rorqual（须鲸科） whales that coordinates³ its signature lunge-feeding behaviour -- and may help explain their enormous size. Rorquals are a subgroup of baleen⁴ whales -- including blue, fin⁵, minke and humpback whales. They are characterized by a special, accordion-like blubber layer that goes from the snout to the navel. The blubber expands up to several times its resting length to allow the whales to engulf⁶ large quantities of prey⁷-laden water, which is then expelled through the baleen（鲸须） to filter krill and fish.

The study, to be featured on the cover of the journal Nature, details the discovery of an organ at the tip of the whale's chin, lodged⁸ in the ligamentous（韧带的） tissue that connects their two jaws⁹.

Samples were collected from recently deceased fin and minke whale carcasses captured as part of Icelandic commercial whaling operations. Commercial whaling in Iceland resumed in 2006 and quotas¹⁰ are determined¹¹ annually¹² by its government.

Scanning of the whale's chin revealed a grape fruit-sized sensory organ, located between the tips of the jaws, and supplied by neurovascular（神经与血管的） tissue.

The research team was assisted by technicians at FPInnovations, the owner of Canada's only X-ray computed¹³ tomography (XRCT) machine large enough to accommodate the massive specimens¹⁴. Used to scan giant logs, the XRCT machine provides a three dimensional map of the internal structure of whale tissues.

"We think this sensory organ sends information to the brain in order to coordinate² the complex mechanism¹⁵ of lunge-feeding, which involves rotating the jaws, inverting¹⁶ the tongue and expanding the throat pleats and blubber layer," says lead author Nick Pyenson, a paleobiologist at the Smithsonian Institution, who conducted the study while a postdoctoral fellow at UBC. "It probably helps rorquals feel prey density¹⁷ when initiating¹⁸ a lunge."

A fin whale, the second longest whale on the planet, can engulf as much as 80 cubic metres of water and prey -- equal or greater than the size of the whale itself -- in each gulp¹⁹ in less than six seconds. A previous study by co-author Jeremy Goldbogen showed that a fin whale captures 10 kilograms of krill in each gulp in order to sustain its average 50-ton body mass. Goldbogen, who conducted both studies while a PhD student at UBC, is now a scientist with the Cascadia Research Collective in Olympia, Washington.