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UH research: Humpback whales craft complex bubble nets to capture more prey

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Dr. Will Gough skillfully deploys a suction-cup tag on a foraging humpback whale in Southeast Alaska. (Photo Credit: MMRP/AWF. Collected under permit.)

Discovering a behavior key to humpback whales’ survival and offering a case to include humpbacks among the rare animals that make and wield their own tools is the focus of new research out of the University of Hawaiʻi at Mānoa. Hawaiʻi Institute of Marine Biology researchers have known that humpback whales create “bubble nets” to hunt, but they discovered that they manipulate the bubble net to maximize their food intake in Alaskan feeding grounds. 

The research, done in partnership with Alaska Whale Foundation, was published in Royal Society Open Science.

“Many animals use tools to help them find food, but very few actually create or modify these tools themselves,” said Lars Bejder, co-lead author of the study and Marine Mammal Research Program director. “We discovered that solitary humpback whales in southeast Alaska craft complex bubble nets to catch krill, which are tiny shrimp-like creatures. These whales skillfully blow bubbles in patterns that form nets with internal rings, actively controlling details like the number of rings, the size and depth of the net, and the spacing between bubbles. This method lets them capture up to seven times more prey in a single feeding dive without using extra energy.”

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Success in hunting is key for the whales’ survival. Humpback whales’ energy budget for the entire year depends on their ability to capture enough food during summer and fall in Alaska. Unraveling the nuances of their carefully honed hunting technique sheds light on how migratory humpback whales consume enough calories to traverse the Pacific Ocean.

MMRP/AWF researchers await optimal conditions to deploy a suction-cup tag on humpback whales in Southeast Alaska. (Photo Credit: MMRP/AWF. Collected under permit.)

Demystifying whale behavior

Marine mammals known as cetaceans include whales, dolphins and porpoises are difficult to study. For this study researchers employed specialty tags and drones to study the whales’ movements from above and below the water. 

“We deployed non-invasive suction-cup tags on whales and flew drones over solitary bubble-netting humpback whales in Alaska, collecting data on their underwater movements,” said William Gough, co-author and MMRP researcher. “The tools have incredible capability, but honing them takes practice. Whales are a difficult group to study, requiring skill and precision to successfully tag and/or drone them.” 

Professor Lars Bejder with the suction-cup tag heʻs just retrieved from a deployment on a foraging humpback whale in Southeast Alaska. (Photo Credit: MMRP/AWF)

Improved management to come

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Cetaceans throughout the globe face a slough of threats that range from habitat degradation, climate change, fisheries, to chemical and noise pollution. One quarter of the 92 known cetacean species are at risk of extinction, and there is a clear and urgent need to implement effective conservation strategies on their behalf. Understanding this essential behavior makes resource managers better poised to adeptly monitor and conserve the feeding grounds that are critical to their survival. 

“This is a rich dataset that will allow us to learn even more about the physics and energetics of solitary bubble-netting,” said Bejder. “There is also data coming in from humpback whales performing other feeding behaviors, such as cooperative bubble-netting, surface feeding, and deep lunge feeding, allowing for further exploration of this population’s energetic landscape and fitness.”

“What I find exciting is that humpbacks have come up with complex tools allowing them to exploit prey aggregations that otherwise would be unavailable to them,” said Andy Szabo, AWF executive director and study co-lead. “It is this behavioral flexibility and ingenuity that I hope will serve these whales well as our oceans continue to change.” 

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This work was supported by Lindblad Expeditions – National Geographic Fund, UH Mānoa and a Department of Defense Defense University Research Instrumentation Program grant.

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