Tag Archives: Cute

Science Encourages You to Share More Cute Pet Photos—Here’s Why!

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Charming animal images are a fast way to uplift anyone’s spirits, and sharing these moments fosters a sense of community.

When someone shares a photo of a playful kitten with their parents or a video of an otter clasping paws, they participate in a phenomenon known as “pebling.”

“Pebling refers to a behavior exhibited by Gentoo Penguins, who offer pebbles as symbols of affection to potential partners,” explained Professor Ghalia Shamayleh, who led the study as noted in BBC Science Focus. “Our findings indicate similar behaviors among humans on social media.”

A male gentleman penguin presenting stones to his mate while perched on the rocks of Mikkelsen Harbor, Trinity Island, Antarctica.

According to Shamayleh, the images, videos, and posts we share online serve as “the pebble equivalent for humans.” We send them to our loved ones as tokens of affection to reinforce our connections.

Animal-themed posts particularly enhance these “pebbles.”

The research, centered around social media accounts dedicated to pets, revealed that creators “infuse joy, love, and entertainment into their social media content.”

This often manifests through visual storytelling, such as taking pets on adventures or introducing them to family members. It also employs “Petspeak,” a blend of baby talk like “dogo,” “teefe,” and “sploot,” alongside playful language and slang.

Animals hold a universal charm. Who doesn’t enjoy seeing pictures of cute puppies or kittens?

In everyday settings, animals act as “social lubricants,” bringing people together to express “AWW” and lift their spirits. This effect becomes even more pronounced in the online world.

Initially, sharing an animal photo may suggest a level of unfamiliarity that prevents sending something more personal.

However, the research indicated that people thoughtfully consider the social media content they choose to share.

Shamayleh and her co-authors, including Professor Zeynep Arsel from Concordia University, analyzed several pet-focused media accounts to understand user interactions and conducted interviews with various content creators and fans.

They found that individuals utilize images and videos to evoke shared experiences among loved ones, reminiscing and reaffirming common histories.

For instance, one might send a friend a brief clip of two baby pandas attempting to stand, accompanied by the comment, “Just like in your first yoga class and mine.”

https://www.youtube.com/watch?v=rlqiaqc1mi8

The study found that incorporating “context clues,” such as the music in this video, influenced how people reacted and what content was shared.

By selecting posts that resonate with the recipient’s interests, senders are able to convey a deeper understanding of their loved ones, by sharing videos of their favorite animals.

“By referencing the sender’s relationship alongside animal content, individuals digitally emphasize their bond, saying, ‘This reminded me of you and our connection,'” remarked Shamayleh.

So, the next time you come across a delightful animal photo or video, don’t hesitate to share it and show your loved ones how much you care.

About the Experts

Ghalia Shamayleh is an Assistant Professor in the Marketing Department at Essec Business School, specializing in sociocultural consumer phenomena through detailed interviews and observations. She investigates the implications of digital interactions on interpersonal and interspecies relationships.

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Source: www.sciencefocus.com

This Cute Bopping Sea Lion Likely Has Better Rhythm Than You!

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Recent studies have revealed that sea lions, specifically one named Ronan, possess a timing ability that surpasses many humans when it comes to music.

Ronan gained attention over a decade ago when she astonished researchers. Now, new findings indicate her sense of rhythm has not only remained stable but has actually improved.

At her most practiced tempo, she consistently stays within 15 milliseconds of the beat. For perspective, a typical blink occurs roughly every 150 milliseconds.

“Compared to other non-human animals, Ronan shows remarkable accuracy and consistency,” stated Professor Peter Cook, the lead author of the study and comparative neuroscientist at New College, Florida, in BBC Science Focus.

“However, Ronan’s accuracy and consistency have significantly improved over time.”

https://www.youtube.com/watch?v=29arkafwjia

Cook and his team initially trained Ronan to recognize rhythms in 2012, when she was just three years old. At that point, she was already a record-holding non-human beatkeeper.

Yet, some scientists were skeptical about whether her performance was on par with adult humans. Ronan demonstrated more variability between beats and tended to drift ahead at faster tempos while lagging behind at slower ones—contrary to humans who typically hit just before the beat.

“Most rhythm studies focus on adults who have years of informal rhythmic experience—like dancing or tapping their feet,” Cook explained.

“We evaluated Ronan when she was essentially a juvenile… Now that she’s a mature adult sea lion, how does she compare to humans?”

To explore this, the team asked undergraduate students from the University of California, Santa Cruz, to mimic Ronan’s head bobbing using large, fluid arm movements. Their movements were then compared to Ronan’s performance at three different tempos.

Surprisingly, she outperformed the students in both consistency and accuracy, ranking in the 99th percentile of a model simulating 10,000 individuals performing the same task.

The findings challenge the long-held belief that precise rhythmic synchronization relies on vocal learning, a trait shared by humans and certain birds, but not sea lions.

Additionally, the research implies that rhythmic perception may be deeply embedded in fundamental brain timing mechanisms.

“Rhythms create patterns in time, and the natural world is filled with such patterns,” Cook stated.

“Recognizing these patterns is advantageous for animals as it allows them to anticipate what follows and adjust their actions accordingly.”

“For instance, they can modify their swimming strokes to sync with wave patterns, reach for moving branches while trees shake, or arrange their vocal outputs to align or overlap with those of other animals.”

(L-R) co-authors Andrew Rouse, Peter Cook, Carson Hood, and California Sea Lion – Colleen Reichmut. NMFS 23554

Ronan’s rhythmic skills may open doors for further research. The team is currently examining whether she can track more complex and irregular patterns.

They are also employing game-based training to assess whether Ronan is a unique case or the beginning of something more widespread.

Ultimately, the question remains: will we see a sea lion performing live alongside a musician on stage?

“I believe we can teach a sea lion to maintain a basic 4/4 beat,” Cook remarked. “When we tested her with live music, Ronan adapted her rhythm dynamically like a band, even with tempo shifts.”

However, before anyone rushes to sign a record deal with Ronan, there’s a minor hurdle: “The sea lion only has one ‘hand’,” Cook noted. “And their flipper control isn’t quite suited for the precise movements required for playing hi-hats or bass drums.”

That said, Cook expressed enthusiasm about the possibility, adding, “It’s definitely something we want to explore, though I suspect the fish might need regular breaks.”

About Our Experts

Peter Cook is an associate professor of marine mammal science at New College, Florida. His research focuses on animal cognition and comparative neuroscience across various species. Cook is particularly interested in discovering new and ecologically effective methods for studying brain and behavior beyond traditional laboratory settings.

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Source: www.sciencefocus.com

The (Cute) Reasons Why Your Dog Loves to Make You Laugh

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Charles Darwin observed that dogs exhibit a sense of humor in between their other activities like studying bird beaks or riding giant turtles.

In his work, The Origin of Man, Darwin recounted a dog playing a prank by dropping a stick near its owner, then running off with it when the owner tried to pick it up. Darwin suggested that the dog found this prank amusing.

This scenario is familiar to many dog owners, prompting the question of whether dogs are truly aspiring comedians or if there’s something else going on.

Dogs are descendants of wolves, which are highly social animals that live in packs, leading to dogs also being social creatures by nature.

It is instinctual for dogs to interact with humans and other animals in their group, attempting to elicit a response, whether through a playful bow, a wagging tail, or even attempting to open the fridge for a snack.

Human ancestors began domesticating dogs over 30,000 years ago, and selective breeding has further shaped their behavior, making them more playful and less timid compared to their wolf ancestors.

Dogs essentially remain forever young mentally, displaying a mischievous nature that stems from their lack of mental maturation.

Some dog breeds are more playful than others, with Irish setters and English springer spaniels considered more clumsy while Samoyeds and Chihuahuas are seen as more serious.

During play, dogs may exhibit “play panting” vocalizations and wag their tails, which can help alleviate stress.

This behavior has been described as a “dog laugh,” reflecting the pleasurable experiences that elicit laughter among humans. However, it does not necessarily mean that dogs possess a sense of humor or are intentionally trying to make people laugh.

If dogs engage in playful antics like stealing sticks, it’s likely for fun rather than intentional comedy. Dogs are adept at reading human emotions and social cues, understanding that laughter is positive. Consequently, if stealing a stick leads to laughter, the dog is more likely to repeat the behavior.

While it may seem like dogs are intentionally trying to be funny, they might simply be responding to the joy and reduced stress their actions bring to humans.

In the end, only the dog truly knows if it’s intentionally trying to make us laugh. Until we can communicate with dogs more effectively, the joke may remain on us.

This article is in response to a query from Joseph Bennett of Manchester: Is my dog intentionally trying to make me laugh?

If you have any inquiries, please contact the email address below. For more information, reach out to: Facebook, Twitter, or Instagram (include your name and location).

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Source: www.sciencefocus.com

A cute frog that may revolutionize our understanding of animal empathy

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In her laboratory, Jessica Nowicki can often be found pinching and plucking the legs of tiny female poison dart frogs, then returning the frog to its terrarium home with its male partner, waiting for signs that the male is sharing his pain — a grimace, a flinch, or a small leap toward his injured partner.

Nowicki, a neurobehavioral scientist at Stanford University, has yet to see such overt signs of anxiety, but she has found a similar phenomenon: When male frogs are reunited with a stressed mate, their stress hormones rise slightly, internally synchronizing with their partner’s emotional state.

This discovery, as per Nowicki’s new research in Royal Society Open Science, suggests that frogs possess the most primitive form of empathy. This finding challenges the conventional understanding of animal emotions, despite the inherent difficulties in their examination.

“The first step is to stop assuming empathy doesn’t exist,” Nowicki says, “and the second is to think more holistically about how we measure empathy.”

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It is extremely challenging for scientists to ascertain whether non-human animals feel empathy since animals do not communicate clearly and explicitly with humans, and they cannot self-report their emotions during tests.

Even among humans, it is not possible to definitively confirm that one person’s happiness matches another’s subjective experience of happiness.

“That does not mean emotions do not exist,” Nowicki explains, “it simply means they are empirically challenging to prove.” However, emotions also possess biological markers tied to specific chemicals in the bloodstream and distinct signals in the brain, which can be empirically tested.

Several studies have tried to identify indicators of empathy in animals. For instance, in 2016, scientists observed that prairie voles mirrored their partners’ stress hormones, providing more grooming and comfort when they perceived stress.

Birds matching their songs’ melodies to their partners’ stress cues or fish observing excitement in other group members are examples of potential indicators of empathy.

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However, few studies have investigated reptiles and amphibians in this context. Nowicki decided to examine poison dart frogs (Ranitomeya’s Copycat) due to their monogamous nature, where males and females support each other in raising offspring, which she believed might reveal emotional connections. She utilized a similar lab setup as in her 2016 prairie vole study.

Indeed, when her team stressed randomly selected female frogs and paired them with male frogs, nothing notable occurred. Yet, when they reunited stressed female frogs with female frogs, the male frogs’ corticosterone levels, a stress biomarker similar to cortisol, mirrored those of their female partners.

“I was amazed!” Nowicki remarks, interpreting this as evidence of frogs expressing emotional stress through empathy.

The fact that frogs only respond to their partners’ emotions, not others’, indicates that distress transmission is not mere automatic contagion. Dr. Inbal Ben Ami Bartal, who studies prosocial behavior in animals at Tel Aviv University, calls these findings “a good example of shared basic components of empathy across species.”

While the frogs did not exhibit the anticipated behavioral changes, the possibility of emotional contagion remains plausible. Amphibian responses may differ significantly from mammals, and maintaining an open mind when studying this question in amphibians is crucial, according to Dr. Ben-Ami Bartal.

Animal welfare researcher Dr. Helen Lambert concurs, noting that empathy, as a subjective experience, can manifest physically but remains unique to each individual.

These new findings “could indicate something more complex,” but further studies are needed to understand this in amphibians, asserts Lambert.

However, this investigative approach may not be the most suitable, per Jesse Adriane, a comparative psychologist at the University of Zurich, who authored the 2020 paper discussing the challenges of measuring empathy across the animal kingdom.

Adriane believes that the frog study did not precisely measure what it claims to, as pinching and prodding female frogs did not induce significant stress. While the male frogs had stable emotional states, a consistent emotional change would be required to prove empathy, she contends.

Additionally, the correlation in corticosterone levels between male and female frogs is not strong.

“We cannot confidently conclude emotional contagion in poison frogs,” Adriane concludes.

Yet, it remains essential to continue exploring these questions to understand whether empathy is unique to humans.

About our experts

Jessica Nowicki is a research scientist in the Stanford University Biological Laboratory, focusing on prosocial behavior in early vertebrates.

Her work has appeared in journals such as Journal of Experimental Marine Biology and Ecology, Philosophical Transactions of the Royal Society, and Comparative Biochemistry and Physiology.

Dr. Inbal Ben Ami Bartel is a researcher in the Departments of Psychology and Neuroscience at Tel Aviv University, studying social neuroscience, prosocial behavior, and empathy.

Her research has been featured in publications like E-Life, Frontiers of Psychology, and Proceedings of the National Academy of Sciences.

Dr. Helen Lambert is an animal welfare scientist and the head of an animal welfare consultancy.

Her work has been published in journals like Applied Animal Behavior Science, Animal Welfare, and Animal.

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Source: www.sciencefocus.com