Tag Archives: humpback

Humpback Whale Social Groups Embrace Soap Bubble Feeding Trick

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Humpback Whales Collaborate to Catch Fish Using Bubbles

Jen Dickey/North Coast Cetacean Society

Innovative foraging behaviors are rapidly spreading among humpback whales in the fjords of western Canada, showcasing how cultural knowledge contributes to the survival of marine populations.

Bubble net feeding is a coordinated hunting method where humpback whales expel bubbles to encircle fish, then all rise simultaneously to feed.

According to Ellen Garland from the University of St. Andrews, “This is a collaborative activity characterized by a high degree of coordination and division of labor.”

This remarkable behavior has been observed for decades among humpback whales (Megaptera novaengliae) in Alaskan waters, with recent observations detailing their activities in the northeastern Pacific off Canada’s coast.

However, determining whether such complex behaviors stem from social learning or independent discovery among individuals remains a challenge for researchers.

In a comprehensive study, Edyn O’Mahony and a team from the University of St. Andrews analyzed field observation data from 2004 to 2023, focusing on 526 individuals in British Columbia’s Kitimat Fjord System, part of Gitga’at First Nation Territory.

Using distinct images of each whale’s tail fin, researchers identified 254 individuals engaging in bubble net feeding, with approximately 90% of these activities occurring in a cooperative setting.

This behavior surged post-2014, aligned with a significant marine heatwave in the Northeast Pacific that diminished prey availability.

“As heatwaves decrease prey availability, the whales’ adaptability in their feeding techniques is crucial for maintaining their caloric intake,” stated O’Mahony.

Whales are more likely to adopt bubble net feeding when they interact with individuals already using this technique. While bubble net feeding likely spread to the region from migrating whales, the current prevalence indicates stable groups or influential individuals spreading this knowledge through local social networks.

“After several years post-heatwave, we observe that whales previously not participating in bubble net feeding are now present in this area,” O’Mahony added.

The ability of humpback whales to share knowledge within social groups could be vital for their survival, implying that our understanding of their culture is essential for conservation efforts.

According to Ted Cheeseman, co-founder of the citizen science platform Happywhale, who did not participate in the study, “The key question is not just about the number of whales remaining but also whether the social behaviors crucial for population cohesion are restored.”

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Source: www.newscientist.com

It suggests that humpback whales are nearsighted and often collide with objects.

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Recent studies indicate that humpback whales often collide with objects due to their surprisingly limited vision.

This gentle giant struggles to discern fine details until it is quite close, which may explain the unfortunate incidents of these animals becoming entangled in fishing nets or crashing into small vessels.

To gain insights into how humpback whales perceive their surroundings, a group of marine biologists examined the left eye of a deceased whale after it had been stranded.

In the study, the researchers found that the rear part of the whale’s eye was considerably thicker than anticipated. This suggests that the distance from the retina to the lens (the eye’s focal length) is much shorter than expected.

A shorter focal length implies that the whale’s capability to resolve finer details is significantly lower than previously believed.

This theory was further supported by the team’s count of the neurons responsible for transmitting visual information to the brain, which revealed a stark contrast.

While a typical human eye has around 40,000 retinal ganglion cells per square millimeter, humpback whales possess only about 180.

Humpback whales are known to collide with small boats as they fail to detect them – Credits: Getty Images/Marnie Griffith

This level of poor vision typically doesn’t hinder whales, but Professor Lori Schweikert from the University of North Carolina Wilmington noted in BBC Science Focus.

“Apart from prey, humans, and some bird species, many animals possess relatively low vision,” says Schweikert.

“However, their visual capabilities are often adequate for their survival needs in their natural habitats. For humpback whales, they may primarily need to recognize large shapes, such as a big school of prey or other swimming whales.”

Humpbacks can identify large objects from a distance, but finer details come into focus only when they are about 45-60 meters away, or within 3-4 lengths of their bodies.

This means whales may struggle to see thin strands of fishing nets.

“At close range, they should be able to identify such structures,” Schweikert adds.

About our experts

Professor Lori Schweicart serves as an assistant professor of biology and marine biology at the University of North Carolina Wilmington. Her research centers on the physiological mechanisms involved in light reception within marine settings.

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Source: www.sciencefocus.com

The Statistical Structure of the Humpback Whale Song Resembles Human Language

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An international team of researchers analyzed moans, moans, whistles, bark, screams, and creaks in recordings of humpback whale songs collected over eight years in New Caledonia.

Arnon et al. We have revealed the same statistical structure of humpback whales (Megaptera novaeangliae) Songs are characteristic of human language. Image credits: Christopher Michelle / CC by 2.0.

“I found something really fascinating,” said Dr. Emma Carroll, a marine biologist at Auckland University.

In this study, Dr. Carol and colleagues apply quantitative methods that are usually used to evaluate infantile utterances, and that this applies to culturally evolved learning songs in human languages. I found it. Humpback whale (Megaptera novaeangliae).

In human language, structurally consistent units exhibit frequency distribution that follows the law of power. Zipfian distribution – Attributes that are likely to promote learning and enhance accurate conservation of language across generations.

The Humpback Whale Song is one of the most complex vocal displays in the Animal Kingdom and is passed down through cultural transmission, providing something compelling in parallel with human language.

These songs are highly structured, consisting of nested hierarchical components. The theme is combined with the sound elements that form the phrase, the phrases that are repeated in the theme, and the song.

If statistical properties of human language arise from cultural transmission, similar patterns should be possible to detect in whale songs.

The study authors analyzed recorded humpback whale song data over eight years using infant-inspired speech segmentation techniques.

They discovered a hidden structure in the whale song.

Specifically, these songs contain statistically coherent subsequences that fit the Zipfian distribution.

Furthermore, the length of these subsequences follows ZIPF's Law of Suspicion, an efficiency-driven principle found in many species, including humans.

This striking similarity between the two evolutionarily distant species emphasizes the deep role of learning and cultural communication in shaping communication across species, with such structural properties being exclusive to human language. It challenges the concept of being.

“The Whale Songs” at Griffith University, Dr. Jenny Allen, a leading expert on whale songs, said:

“This is why it offers such an exciting comparison.”

“These results provide unique insight into the importance of cultural communication in interspecies learning processes, particularly for learning complex communication systems.”

“A more interesting question is, rather than trying to adapt animal communication to holes in the form of “human language”? I think so. ”

“Using insights and methods from how babies learn languages ​​allowed us to discover structures that were previously undetected in whale songs,” says Professor Inval Arnon of Hebrew University. Ta.

“This work illustrates how learning and cultural communication can form the structure of communication systems. Find similar statistical structures when complex continuous behaviors are culturally transmitted. You can do it.”

“It raises the interesting possibility that humpback whales can track the transition odds between sound elements, like human babies, and learn songs by using dips to segment those odds. Masu.”

study It was published in the journal today Science.

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Invalanon et al. 2025. The whale song shows a language-like statistical structure. Science 387 (6734): 649-653; doi: 10.1126/science.adq7055

Source: www.sci.news

Humpback Whale Songs Show Similarities to Human Language Patterns

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Humpback whales in the South Pacific

Tony Woo/Nature Picture Library/Aramie

Humpback whale songs have statistical patterns in their structure, but they are very similar to those found in human language. This does not mean that songs convey complex meanings like our sentences, but that whales may learn songs in a similar way to how human infants begin to understand language. It suggests.

Only male humpback whales (Megaptera novaeangliae) When you sing, actions are considered important to attract peers. The songs are constantly evolving, and new elements appear and spread in the population until old songs are replaced with completely new ones.

“I think it's like a standardized test. Everyone has to do the same task, but changing or decorating to show that they're better at tasks than others can be done. You can do it.” Jenny Allen At Griffith University, in the Gold Coast, Australia.

Instead of trying to find meaning in songs, Allen and her colleagues were looking for innate structural patterns similar to those found in human language. They analyzed eight years of whale songs recorded around New Caledonia in the Pacific Ocean.

The researchers began by creating alphanumeric codes to represent all the songs on every recording, including a total of around 150 unique sounds. “Essentially it's a different sounding group, so maybe a year will make a groaning cry. So we may have an AAB.

Once all the songs were encoded, a team of linguists had to understand how best to analyze so much of the data. The breakthrough occurred when researchers decided to use an analytical technique that applies to methods of discovering words called transition probability.

“The speech is continuous and there is no pause between words, so infants must discover the boundaries of the word.” Invalanon At Hebrew University in Jerusalem. “To do this, use low-level statistics. Specifically, if they are part of the same word, the sounds are more likely to occur together. Infants Use these dips in the possibility of discovering the boundaries of words following another sound.”

For example, the phrase “cute flower” intuitively recognizes that the syllable “pre” and “tty” are more likely to go together than “tty” or “flow.” “If there is a similar statistical structure in a whale song, these cues should also help segment it,” Arnon says.

Using the alphanumeric version of Whale Song, the team calculated the probability of transition between successive sound elements and cut it when the previous sound elements were amazing.

“These cuts divide the song into segmented subsequences,” Arnon says. “We then looked at their distribution and, surprisingly, discovered that they follow the same distribution as seen in all human languages.”

In this pattern called Zipfian distribution, the prevalence of less common words drops in a predictable way. Another impressive finding is that the most common whale sounds tend to be shorter, as is the case with the most common human language.

Nick Enfield At the University of Sydney, who was not involved in the research, it says it is a novel way to analyze whale songs. “What that means is when you analyze it War and peacethe most frequent words are the next twice as often, and researchers have identified similar patterns in whale songs,” he says.

Team Members Simon Carby The University of Edinburgh in the UK says he didn't think this would work. “I will never forget the moment the graph appears. It appears to be familiar from human language,” he says. “This has made me realize that it uncovered a deep commonality between these two species, separated by tens of millions of years of evolution.”

However, researchers emphasize that this statistical pattern does not lead to the conclusion that whale songs are languages ​​that convey meaning as we understand them. They suggest that the possible reason for commonality is that both whale songs and human languages ​​are culturally learned.

“The physical distribution of words and sounds in languages ​​is a truly fascinating feature, but there are millions of other things about languages ​​that are completely different from whale songs,” Enfield says.

In another study It was released this week, Mason Young Blood At Stony Brook University in New York, we found that other marine mammals may also have structural similarities to human language in communication.

Menzeras' law predicting that sentences with more words should consist of shorter words were present in 11 of the 16 species of disease studied. The ZIPF abbreviation law was discovered in two of the five types in which the available data can now be detected.

“To sum up, our research suggests that humpback whale songs have evolved to be more efficient and easier to learn, and that these features can be found in the level of notes within the phrase, phrases within the song. I'm doing it,” Youngblood says.

“Importantly, the evolution of these songs is also biological and cultural. Although some features, such as Menzerath's Law, can emerge through the biological evolution of voice devices, Other features such as the rank frequency method of ZIPF are [the Zipfian distribution]there may be times when cultural communication of songs between individuals is necessary,” he says.

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  • Whale and dolphin

Source: www.newscientist.com

Humpback whales set new record for longest migration in search of breeding grounds

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Whales’ Romantic Adventures

Humpback whales have left scientists astonished with their epic journey spanning three oceans and over 8,000 miles, establishing a new record for the longest migration between breeding grounds.

A recent study published in a journal Royal Society Open Science on Wednesday suggests that this remarkable migration may be influenced by climate change, impacting ocean conditions and food availability, or changes in mating behavior.

Professor Darren Croft, an expert in behavioral ecology at the University of Exeter, UK, remarked, “Changes in climate and ocean conditions may drive these migrations to new breeding grounds, and increased competition for mates and food may prompt individuals to seek new opportunities.”

This new study reveals the immense distances traveled by humpback whales and highlights their remarkable migratory behavior.

While some whale species cover over 5,000 miles between feeding and breeding areas, humpback whales hold the title for the longest migratory distance among mammals.

One particular whale captured scientists’ attention after embarking on a journey that extended beyond the usual migratory routes.

Originally spotted in 2013 off the coast of Colombia, South America, the whale was later sighted in similar waters in 2017 and in 2022 near Zanzibar, an island in the Indian Ocean.

Researcher Ryan Reisinger expressed his excitement over the findings, underscoring the importance of documenting humpback whales’ shifting breeding grounds.

Despite this intriguing discovery, the exact reason for this unusually long migration remains unknown.

Humpback whales are renowned for their annual migration from rich feeding grounds in the summer to warmer breeding areas in winter, where food is scarce.

The study employed photos from happywhale.com, a platform where individuals contribute to tracking whale movements globally, utilizing artificial intelligence to identify and study individual whales based on their unique features.

With a match rate of 97% to 99%, the algorithm on Happy Whale’s website utilizes whale tail characteristics to differentiate and monitor humpback whale populations around the world.

Source: www.nbcnews.com

Humpback whales employ unique tools for their tasks

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Humpback whale (Megaptera novaegangliae) Whales build so-called “bubble nets” as tools to hunt, but researchers from the University of Hawaii and the Alaska Whale Foundation have found that these marine animals not only build bubble nets, but also manipulate these unique tools in a variety of ways to maximize food intake in their Alaskan feeding grounds. This novel study sheds light on a behavior critical to whale survival and makes a compelling case for including humpback whales among the rare animals that manufacture and use unique tools.

Although some animal species use tools to forage, only a few manufacture or modify tools. Humpback whales are one of these rare species, as they manufacture bubble net tools while foraging. Using animal tags and unmanned aerial system technology, Sabo others. Investigating the bubble nets made by solitary humpback whales (Megaptera novaegangliae) while feeding on krill in the Pacific Ocean, whale nets in southeast Alaska. They demonstrate that the nets are composed of internal tangential loops, suggesting that the whales actively control the number of loops, the size and depth of the net, and the horizontal spacing of adjacent bubbles. They argue that the whales adjust structural elements of the net to increase the amount of prey they catch in a single lunge by an average of seven-fold. Image credit: Szabo others., doi: 10.1098/rsos.240328.

“Many animals use tools to find food, but few actually make or modify their own tools,” says Lars Bader, a professor at the University of Hawaii.

“We discovered that solitary humpback whales in southeast Alaska build complex bubble webs to capture krill.”

“These whales expertly blow bubbles in patterns that form nets with internal loops, actively controlling details such as the number of loops, the size and depth of the net, and the spacing of the bubbles.”

“This method allows them to catch up to seven times as many prey in one feeding dive without expending any extra energy.”

“This impressive behaviour puts humpback whales in a rare group of animals that make and use their own tools to hunt.”

The marine mammals known as cetaceans include whales, dolphins and porpoises and are notoriously difficult to study.

Advances in research tools are making it easier to track and understand whale behaviour, and in this case, Professor Bader and his colleagues used specialised tags and drones to study the whale's movements from above and below the water.

“We attached non-invasive suction cup tags to whales in southeast Alaska and flew drones over humpback whales as they hunted alone in bubble nets to collect data on their underwater movements,” said Dr William Goff, also from the University of Hawaii.

“The tools are great, but it takes practice to hone them.”

“Whales are a difficult group to study and successful tracking with tags and drones requires skill and precision.”

“This little-studied foraging behavior is unique to humpback whales.”

“It's really amazing to see these animals in their natural habitat, doing things that only a handful of people get to see.”

“And then it's rewarding to be able to go back to the lab and look at the data and find out what they're doing underwater after they're out of sight.”

a paper The study was published in the journal Royal Society Open Science.

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A. Sabo others2024. Solitary humpback whales manufacture bubble nets as a tool to enhance prey intake. R. Soc. Open Science 11(8):240328;doi: 10.1098/rsos.240328

This article is based on a press release provided by the University of Hawaii.

Source: www.sci.news

First-time mating humpback whale engages in homosexual behavior

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Experts have revealed that this is the first time a humpback whale of this species has been documented engaging in any form of sexual activity.

The social behavior of humpback whales has been extensively observed and documented for many years. However, in a recent study published in Marine Mammal Science, researchers shared the first photographs of this species engaging in sexual intercourse.

The report was authored by marine biologist Stephanie Stack and two photographers, Lyle Kranichfeld and Brandi Romano, who captured the interaction in January 2022 in the waters off the coast of Maui, Hawaii.

Kranichfeld, 44, remarked, “We recognized the scientific importance of this event. Even if our findings were not published or did not lead to any significant outcomes, we understood that this unique behavior was significant for the scientific community and those studying whales.”

The encounter involved a male whale that seemed to be unhealthy or injured and a healthy male whale. The report mentioned that the ailing whale appeared weakened and infested with lice, which are known to thrive on debilitated humpback whales.

The researchers suggested that the weakened whale may have sought refuge near the photographer’s boat to protect itself from other whales. Kranichfeld emphasized that they never approached the whales in the water or attempted to swim with them, as both actions are illegal.

Tragically, the emaciated whale eventually succumbed after circling the boat and trying to swim away from the healthier whale. The healthy whale then used its pectoral fins to hold the other whale in place and engaged in sexual activity.

Source: www.nbcnews.com

The specialized larynx of humpback whales allows them to sing underwater

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Humpback whales use songs to communicate with each other across oceans

Karim Ilya

Biologists have discovered how baleen whales produce their unique songs. It involves the uniquely shaped larynx.

Baleen whales, including humpback whales, communicate through complex songs that can be heard over great distances. “People recorded the first whale sounds in his 1970s, but only recently have we started to recognize the different sounds these animals actually make,” he says. Cohen Elemans At the University of Southern Denmark. “Now the question is, how do they do this?”

To learn more, Elemans and his team extracted the larynxes of three recently deceased baleen whales.Balaenoptera borealis), humpback whale (Megaptera novaeangliae) and the northern minke whale (Balaenoptera acutorostrata).

The larynx, commonly known as the voice box, is an organ located in the upper neck of mammals. As air flows through the organ, the tissue folds vibrate, creating sound.

But that's not the case with baleen whales, Ellemans says. When the researchers examined the whale's larynx, they discovered that the organ had an unexpected shape, with a cushion of fat on one side.

When these whales breathe, air is forced against the fatty material, which vibrates and makes sound. “I've never seen this in any other animal,” Ellemans says. “This is unique to baleen whales.”

Whales can also recycle air from their lungs, which is useful when they are underwater for long periods of time. When you exhale through the trachea and larynx, air enters a sac with walls that contract, returning air to the lungs.

Using a computer model of its larynx, the researchers found that baleen whales can generate frequencies of up to 300 hertz at depths up to 100 meters below the ocean's surface. This is within the frequency range of noise emitted by ships, raising concerns that ship noise could drown out their songs.

“These whales can't escape this situation,” Elemans said. “Therefore, we need to take steps to reduce noise.”

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Source: www.newscientist.com