fact of the day

WTF Fun Fact 13591 – The Grandmother Hypothesis

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Have you heard of the grandmother hypothesis? Basically, it means grandma was right about washing behind your ears!

When it comes to maintaining skin health, certain regions, like behind the ears and between the toes, often get overlooked. Research by the George Washington University reveals why paying attention to these areas is essential. The skin microbiome, which refers to the collection of microbes residing on our skin, has shown variation in composition across different skin regions, be it dry, moist, or oily.

Exploring the Grandmother Hypothesis

The GW Computational Biology Institute set out to explore the widely accepted but scientifically unproven “Grandmother Hypothesis.” Keith Crandall, Director of the Computational Biology Institute, recalls the age-old advice from grandmothers: always scrub behind the ears, between the toes, and inside the belly button. But why? The belief is that these less frequently washed areas might house different bacterial compositions compared to more regularly scrubbed parts of the body.

To put this to the test, Marcos Pérez-Losada and Keith Crandall designed a unique genomics course, involving 129 graduate and undergraduate students. These students collected data by swabbing areas like behind their ears, between their toes, and their navels. For comparison, samples were also taken from drier regions such as calves and forearms.

Revealing Differences in Microbial Diversity

The results were enlightening. Forearms and calves, often cleaned more diligently during baths, displayed a broader and presumably healthier range of microbes. This is compared to hotspots like behind the ears and between the toes. A balanced skin microbiome is essential for skin health. A dominance of harmful microbes can disrupt this balance, potentially leading to skin conditions such as eczema or acne.

The study’s outcomes suggest that cleaning habits indeed impact the microbial population on the skin, further influencing its health. Thus, the age-old advice from our grandparents holds some truth after all!

Implications of the Grandmother Hypothesis

The research carried out by the GW Computational Biology Institute provides significant insights into the skin microbiome of healthy adults. It serves as a benchmark for future studies. There is still a long way to go in understanding the intricacies of how the microbial community on our skin impacts our overall health or disease state.

The study titled “Spatial diversity of the skin bacteriome” marked an essential milestone in the field. It sheds light on the diverse bacterial communities residing in different parts of our skin. Published in the renowned journal Frontiers in Microbiology on September 19, it is a stepping stone to further research in this rapidly evolving domain.

In conclusion, paying heed to the lesser-focused regions of our skin, as our ancestors advised, might be the key to ensuring a balanced and healthy skin microbiome. So next time you shower, remember to scrub those often-neglected areas!

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Source: “Skin behind the ears and between the toes can host a collection of unhealthy microbes” — ScienceDaily

WTF Fun Fact 13590 – Choosing Ignorance

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When faced with moral decisions, many people are choosing ignorance about the repercussions of their actions. Recent studies explore why individuals might select the path of willful ignorance, and the findings are illuminating.

The Study of Choosing Ignorance

What makes a person deliberately overlook the consequences of their actions? According to the American Psychological Association, 40% of individuals, when given the choice, will opt for ignorance. More intriguingly, they often do so to give themselves leeway to act selfishly.

As lead author Linh Vu, MS, from the University of Amsterdam, describes it: “Everyday scenarios frequently show people choosing ignorance. A classic instance is when customers disregard the ethically questionable origins of products they purchase.” The pressing question that Vu and her colleagues grappled with was the extent and implications of such intentional ignorance.

The findings stem from a meta-analysis of 22 individual studies, encompassing a whopping 6,531 participants. These studies either took place in a research lab setting or online. A majority of these research initiatives followed a design where participants received information about the ramifications of their decisions, while others had the discretion to know or not.

Consider this example: Participants had to select between a $5 reward and a $6 reward. Choosing the former meant an anonymous person (or charity) would receive the same amount. If they opted for the latter, the anonymous entity would get a mere dollar. Some participants could decide whether to know the consequences, while others were informed outright.

A consistent finding across these studies? An astounding 40% actively chose ignorance. Furthermore, those who opted not to be informed were significantly less altruistic. There was a 15.6% greater likelihood of individuals showing generosity when they were cognizant of the results of their decisions.

Benevolence or Self-Image?

The research suggests that this inclination towards choosing ignorance could be linked to one’s desire to project a positive self-image. Willful ignorance permits individuals to retain this self-perception, even if they don’t act altruistically.

Study co-author Shaul Shalvi, a behavioral ethics professor at the University of Amsterdam, further shed light on this phenomenon. Individuals who sought to know the consequences were 7% more inclined to show generosity than those automatically provided with information. It indicates genuinely altruistic folks prefer to be in the know about their actions’ aftermath.

Shalvi points out, “A vast portion of altruistic tendencies we notice stems from societal expectations. While many willingly make ethical choices when informed of the outcomes, their motivation isn’t always altruistic. Societal pressure and the urge to perceive oneself positively play a significant role. Since righteous deeds often come with sacrifices, such as time, effort, or money, choosing ignorance becomes a convenient escape.”

However, one limitation to note: all studies under this meta-analysis were conducted in Western Europe or the US, or on platforms like Amazon Mechanical Turk. This hints at the need for more diverse research settings in the future. After all, understanding this behavior in its entirety requires a broader perspective and could provide clues on countering such deliberate oversight.

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Source: “‘I’d rather not know’: Why we choose ignorance” — ScienceDaily

WTF Fun Fact 13589 – A Voice Test for Diabetes

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If you’re scared of needles, you might be interested to know that researchers are investigating a possible voice test for diabetes.

That’s right. A brief recording of your voice could indicate whether or not you have diabetes.

A Voice Test for Diabetes?

A program designed to use no more than 10 seconds of speech has proven capable of identifying the presence of diabetes with remarkable accuracy.

In an experiment conducted by Klick Labs, 267 individuals recorded a short phrase on their smartphones six times a day over a span of two weeks. This group had recently undergone testing for Type 2 diabetes. The aim? To discern any acoustic differences between the voices of those who tested positive and those who didn’t.

By analyzing the participants’ voice prints in conjunction with data like age, sex, height, and weight, an AI model made astonishing predictions. The accuracy rate stood at 86% for men and an even higher 89% for women.

Unraveling the Science Behind Voice Analysis

The question arises: Why does diabetes influence one’s voice? The synthesis of our voice is a multifaceted process that integrates the respiratory system, nervous system, and the larynx. Factors that impact any of these systems can, in turn, alter the voice. While such changes might escape the human ear, computers, with their advanced analytical capacities, can detect them with precision.

Among the vocal attributes studied, pitch and its variation proved to be the most predictive of diabetes. Interestingly, some vocal attributes only enhanced prediction accuracy for one gender. For instance, “perturbation jitter” was a key factor for women, whereas “amplitude perturbation quotient shimmer” was significant for men.

It’s worth noting that prolonged elevated blood sugar can impair peripheral nerves and muscle fibers, leading to voice disorders. Moreover, even temporary elevations in blood glucose can potentially influence vocal cord elasticity, though this theory still awaits validation. Furthermore, emotional factors, such as anxiety and depression—both of which can be associated with diabetes—may further modulate voice characteristics.

Beyond Conventional Diabetes Testing

Jaycee Kaufman, the leading author of the study, emphasized the transformative potential of their findings: “Voice technology can potentially revolutionize the way the medical community screens for diabetes. Traditional detection methods can be cumbersome, both in terms of time and cost. This technology could eliminate these challenges altogether.”

Considering the global surge in diabetes cases, and the complications arising from late diagnoses, the introduction of a non-invasive, rapid testing tool can be a game-changer. The International Diabetes Federation has highlighted that nearly 50% of adults with diabetes remain unaware of their condition. Predictably, this unawareness is most pronounced in nations where healthcare infrastructure is stretched thin. The economic implications are staggering, with undiagnosed diabetes projected to cost an exorbitant $2.1 trillion annually by 2030.

Voice technology, as an alternative to blood sample-based tests, presents a promising avenue for early detection and intervention.

A Healthier Future Using A Voice Test for Diabetes

Buoyed by the success of their study, Klick Labs is planning a larger-scale project. They aim not only to refine the accuracy of their model but also to expand its scope. Their vision extends beyond diabetes detection, as they explore its applicability to conditions like prediabetes and hypertension.

Yan Fossat, co-author of the study, expressed enthusiasm for the innovation: “Voice technology has the potential to usher in a new era in healthcare, positioning itself as a vital digital screening tool that’s both accessible and economical.”

As the study gains traction and the technology evolves, the implications for global health are profound. With the power of voice technology, a world where early, easy, and efficient disease detection is the norm, may not be too far off.

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Source: “10 Seconds Of Recorded Speech Can Reveal If Someone Has Diabetes” — IFL Science

WTF Fun Fact 13583 – Upside-Down Jellyfish

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Imagine wandering through a tranquil lagoon and spotting a group of upside-down jellyfish resting with their bell against the seafloor.

Unlike most of their free-swimming counterparts, these jellyfish are often found lounging, with their oral arms extending towards the sun. But why such an odd pose?

Why are upside-down jellyfish upside-down?

The upside-down posture serves a dual purpose. Firstly, this position facilitates the pulsing movement of their bell, pushing water over the jellyfish’s body, ensuring a steady flow of oxygen and food. Secondly, the upward-facing tentacles benefit from the sunlight, which assists the photosynthetic algae, zooxanthellae, residing in the jellyfish tissue. This unique position allows them to gain energy from both their food and the sun!

Upside-down jellyfish love to hang out in the sunlit, shallow waters of coastal regions, especially around areas bustling with mangroves. Sunlight plays a pivotal role in their survival as it powers the photosynthetic algae inside them. Think of them like underwater solar panels!

In Australia, they are predominantly spotted in the tropical territories, ranging from Yampi Sound in Western Australia to Queensland’s Gold Coast. However, there’s a twist: these jellies have made surprise appearances in temperate coastal lakes of New South Wales, and even in the unusually warm waters around a powerplant in Adelaide.

The diet and life cycle of the upside-down jellyfish

When it comes to diet, these jellyfish are both photosynthetic and predatory. The zooxanthellae within provides up to a whopping 90% of their nutritional needs through photosynthesis, while the remaining 10% is sourced from the ocean buffet of zooplankton. They employ a two-step tactic for this: first, they stun their prey using their nematocysts or stinging cells, and then deploy a mucus to ensnare and consume the tiny creatures.

Although equipped with the ability to swim traditionally by pulsing their bell, these jellies prefer the floor. Their stationary, upside-down lifestyle may seem lazy, but it is a strategic adaptation that allows them to harness energy effectively from the sun through their symbiotic algae.

The lifecycle of these jellies is a captivating dance of nature. After males release their reproductive cells, these combine with the female’s eggs in the open water. Once fertilized, females release planula larvae, which, seeking a solid base, often anchor to substrates like mangrove roots. Over time, these larvae morph into polyps, resembling tiny sea anemones. These polyps, under the right conditions, undergo a fascinating process called strobilation. From one polyp, multiple jellyfish bud off, introducing new medusae to the aquatic realm.

Impact on Humans and Environment

When in bloom, the density of these jellyfish can soar to 30 individuals per square meter. Such dense gatherings can deplete water’s oxygen levels, reshuffling the aquatic food chain. Their dominance can outcompete other species and consume a significant portion of the available zooplankton. Swimmers, too, need to be cautious. A brush against their tentacles can lead to stings, which can range from being a mere annoyance to causing more pronounced discomfort.

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Source: “Upside-down Jellyfish” — Australian Museum

WTF Fun Fact 13580 – Deadliest Heart Attacks on Monday

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Heart attacks on Monday seem to be a recurring theme. Recent findings suggest that, for some reason, people are more likely to face life-threatening heart issues as the new week kicks off. Let’s dive into what the research says and why this might be happening.

The Monday Mystery

A big conference in Manchester brought some surprising news to the table. Medical experts from Belfast and Ireland checked out hospital data for over 10,000 patients from 2013 to 2018. They found that a very serious type of heart attack, called STEMI, was more common on Mondays. Basically, STEMI is when a main blood vessel to the heart gets fully blocked. If doctors don’t treat it fast, it can be deadly.

Now, every year, around 30,000 people in the UK end up in the hospital because of STEMI. They get a quick check and usually undergo a procedure to unblock the vessel and get blood pumping properly again. What’s odd is that this research found Mondays had a 13% higher chance of people coming in with this problem. Even Sundays had a bit of a bump.

But why Mondays? Well, that’s the big question. Some older studies think our body’s natural sleep-wake cycle might play a role. But the full picture isn’t clear yet.

Doctors Weigh in on Heart Attacks on Monday

Dr. Jack Laffan, who headed the study, admits that this Monday trend is curious. He thinks several factors might be at play. One idea is our body’s natural clock. Our sleep patterns, wake-up times, and daily habits could influence when heart attacks happen.

Meanwhile, another expert, Professor Sir Nilesh Samani, stresses the importance of these findings. Heart attacks are always a medical emergency, no matter the day. He believes that the more we learn about the “Monday effect”, the better doctors can prepare and save more lives.

In the end, while Mondays might have a higher rate of heart attacks, every day is important when it comes to heart health. Whether it’s stress from starting a new work week or something else entirely, the research continues. The goal is always to protect our hearts and understand what might put them at risk.

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Source: “Why are serious heart attacks more likely on a Monday?” — British Heart Foundation

WTF Fun Fact 13579 – The Amazing, Changing Octopus Brain

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The octopus brain is unlike anything we know. Octopuses rank among Earth’s most intelligent creatures. They boast a neuron count similar to dogs. But, over half of these neurons reside in their eight arms, not in a central brain. This neural setup sets them apart.

Now, researchers have discovered something even more peculiar. Octopuses can rewrite their RNA in reaction to temperature shifts. This action is akin to humans adjusting outfits according to the weather.

By editing their RNA, octopuses change how their cells produce proteins. This flexibility may help them cope with seasonal temperature shifts. Joshua Rosenthal, a lead biologist, calls this ability “extraordinary.”

RNA Editing: A Temporary Genetic Makeover

Humans undergo RNA editing, but it’s limited. It affects protein production in fewer than 3% of our genes. In contrast, advanced cephalopods can adjust most neural proteins through RNA editing. Motivated by this disparity, scientists sought the driving forces behind cephalopod RNA editing. They prioritized temperature, given its frequent fluctuations.

They gathered California two-spot octopuses, familiarizing them with varying water temperatures. Weeks later, they probed 60,000 RNA editing sites in the octopus genomes. A third of these sites showed changes occurring astonishingly fast, from mere hours to a few days. Eli Eisenberg, another lead researcher, found the widespread changes unexpected.

Most of these changes manifested in cold conditions. They influenced proteins crucial for cell membrane health, neuron signal transmission, controlled cell death, and neuron calcium binding. Although these protein variants arise from RNA editing, Eisenberg admits that the complete adaptive benefits remain elusive.

Wild octopuses from both summer and winter displayed similar RNA changes. This solidified the belief in temperature as a major influencer in RNA editing for octopuses.

Protective RNA Editing for the Octopus Brain

Octopuses can’t control their body temperature like mammals can. Thus, scientists theorize that RNA editing acts as a protective mechanism against temperature shifts. Eisenberg elaborates that octopuses might opt for protein versions optimal for prevailing conditions. Such adaptive behavior is absent in mammals.

Heather Hundley, an external biologist, praised this groundbreaking study. She highlighted its potential in reshaping our understanding of RNA editing as a dynamic regulatory process in response to environmental changes.

The future beckons more investigations. The team plans to examine other potential RNA editing triggers in the octopus brain. Factors like pH, oxygen levels, or even social interactions might hold further insights. With each revelation, the octopus brain continues to astound the scientific community.

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Source: “Octopuses Redesign Their Own Brain When They Get Chilly”‘ — Scientific American

WTF Fun Fact 13577 – Man Wins Lottery 20 Times

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You might marvel at the luck of the gentleman behind those “man wins lottery 20 times” headlines. But it’s a little trickier than it sounds.

A Leap of Faith on Lucky Numbers

Fekru Hirpo’s choice of numbers, 2-5-2-7, wasn’t a common strategy. Usually, the top prize for the Pick 4 game in Virginia is $5,000. However, in a unique twist of events, Hirpo didn’t simply play his numbers on a single ticket. He purchased 20 identical lottery tickets, all bearing the same four numbers. By doing so, he exponentially increased his chances of multiplying his potential jackpot.

When the draw took place on April 5, Hirpo’s gamble paid off handsomely. The seemingly innocuous numbers were declared the winners, turning what would have been a $5,000 win on a single ticket to an impressive haul of $100,000 for Hirpo. But what made him adopt this unprecedented strategy?

According to a news release, Hirpo himself confessed to lottery officials that he doesn’t usually buy multiple tickets with the same numbers. This time, however, intuition nudged him in that direction. “Something just told him to do it,” the release stated.

A Glimpse at the Odds

For those wondering about the odds, the Virginia Lottery sheds some light. The chances of Hirpo’s specific number combination emerging victorious stood at a staggering one in 10,000. So, despite the long odds, Hirpo’s trust in his numbers and the unique strategy of buying 20 identical tickets was nothing short of a masterstroke.

He purchased his tickets from a Four Mile Run Shell in Arlington, which will likely now gain some attention from other lottery hopefuls.

Fekru Hirpo isn’t the first individual to harness the power of repeating numbers in a lottery game. Not too long ago, a woman from Boca Raton, Florida, employed a similar strategy. She decided to play the same numbers on two Mega Millions tickets. As luck would have it, both her tickets matched all five white balls, resulting in a win. While she didn’t get the Mega Ball, her dual wins netted her a whopping total of $4 million.

The Future with His Fortune as Man Wins Lottery 20 Times

As for Hirpo’s plans for his newfound wealth? He remains tight-lipped. He’s indicated no immediate plans for his winnings. Whether he decides to invest, indulge in a luxury, or maybe just buy more lottery tickets, one thing is clear: his faith in his numbers and his audacious strategy will be talked about for a long time.

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Source: “Virginia man wins $100,000 after playing same numbers on 20 lottery tickets” — FOX 5 San Diego

WTF Fun Fact 13576 – Mark Twain and Halley’s Comet

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There’s a strange fact about Mark Twain and Halley’s Comet that most people don’t know.

In 1835, as Halley’s Comet graced the Earth’s skies, an event occurred that would link it forever with a literary legend. On November 30th of that year, Samuel Clemens, better known as Mark Twain, was born. This bright comet, which visits Earth roughly every 76 years, unknowingly set a cosmic appointment with Twain.

Halley’s Comet: A Brief Overview

Edmond Halley, an 18th-century astronomer, earned the honor of having this comet bear his name after he predicted its return in 1758. Ancient civilizations, from the Chinese to the Babylonians, had recorded their appearances for millennia. Its consistent visits have made it one of the most recognized celestial bodies in human history.

Mark Twain and Halley’s Comet: A Remarkable Prediction

As Twain aged and learned of the comet’s appearance during his birth year, he made a statement that would echo in the annals of literary history. In 1909, he declared, “I came in with Halley’s Comet in 1835. It is coming again next year, and I expect to go out with it.” Whether he said it in jest or with genuine foresight, the world would soon find out.

Mark Twain died on April 21, 1910. On the previous day, Halley’s Comet had made its closest approach to Earth. The comet, consistent with its 76-year schedule, had kept its appointment. So had Twain, aligning his exit from this world with the celestial body’s visit.

Mark Twain and Halley’s Comet

The periodic appearance and retreat of Halley’s Comet mirrors the fleeting nature of human life. In the comet’s brief brilliance, we can perhaps see a metaphor for our own transient existence. Twain, a master of insight and wit, often explored mortality and the impermanence of life in his works. The comet served as a grand, celestial parallel to these themes.

Beyond the Stars: Twain’s Enduring Legacy

Twain’s stories and societal critiques have left an indelible mark on American literature. Titles like “The Adventures of Tom Sawyer” and “The Adventures of Huckleberry Finn” continue to challenge and entertain readers, highlighting issues such as racial inequality. While the comet’s timing added a layer of mystique to his narrative, Twain’s true impact lies in his enduring words.

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Source: “Halley’s Comet – The fascinating connection between Mark Twain and Davy Crockett” — Brian A. Crandall

WTF Fun Fact 13575 – Animals During a Solar Eclipse

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Eclipses are fascinating astronomical phenomena, in part because of the behavior of animals during a solar eclipse.

Understanding the Event

A total solar eclipse, where the moon completely covers the sun, occurs in the same location only about once every 375 years. This rarity means that animals encounter the phenomenon only once in many generations, rendering each occurrence an unusual and potentially disruptive event for them.

Categories of Behavioral Responses of Animals During a Solar Eclipse

Based on numerous observations, animal reactions to solar eclipses can be broadly classified into four categories:

  1. Evening Behaviors: Animals adopt routines typically seen at dusk or nighttime.
  2. Apparent Anxiety: Behaviors indicating stress or fear in response to the sudden darkness.
  3. Novel Responses: Uncharacteristic behaviors not seen during normal or evening routines.
  4. No Observable Change: Some animals appear unaffected and continue their regular activities.

Observations from the Riverbanks Zoo

In a comprehensive study at Riverbanks Zoo, 17 different species, spanning mammals, birds, and reptiles, were observed during the 2017 solar eclipse. The findings were as follows:

  • A significant majority of animals, about 75%, showed behavioral changes in response to the eclipse.
  • Most of these animals (8 out of 13 that showed changes) began engaging in evening or nighttime routines. This aligns with historical observations where animals mistook the temporary darkness of an eclipse for the onset of night. Such behaviors include returning to nests, starting evening vocalizations, or becoming more active, especially for crepuscular or nocturnal species.
  • Anxiety was the next common response. For instance, baboons, gorillas, giraffes, flamingos, and lorikeets showed signs of stress.
  • Only reptiles, specifically the Galapagos tortoise and the Komodo dragon, displayed novel behaviors. These were marked by a surge in activities compared to their usually sedentary state.

Historical Accounts and Varied Responses of Animals to a Solar Eclipse

Historical records, though sporadic, offer intriguing glimpses into animal behavior during eclipses:

  • The 1932 New England eclipse saw diverse species, from insects to large mammals, exhibiting nighttime behaviors.
  • In contrast, some animals show signs of anxiety. For instance, during various eclipses, domestic dogs remained silent, horses exhibited restless behaviors, and several bird species stopped flying, staying quiet.
  • Primates have exhibited unique reactions. Rhesus macaques in India fragmented into smaller groups to sleep during an eclipse, while captive chimpanzees in Georgia during the 1984 eclipse climbed high structures, seemingly observing the sky during the entirety of the event.
  • However, not all animals respond noticeably. Some reports from eclipses in India and Zimbabwe observed several species, from rodents to lions, showing no perceptible change in behavior during the event.

A Spectrum of Reactions

The behavioral responses of animals during solar eclipses indeed span a spectrum, from pronounced to subtle or even non-existent.

The varied reactions underline the complexity of understanding animal behaviors in the face of rare environmental changes. While some patterns emerge, such as the onset of evening routines, many responses remain unpredictable.

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Source: “Total Eclipse of the Zoo: Animal Behavior during a Total Solar Eclipse” — Animals (journal)