What the heck is ‘scrumping'? Why humans are so good at digesting alcohol
To better understand the relationship between humans and alcohol, researchers are studying the animals' fondness for fermented and fallen fruit, newly referred to as 'scrumping.'
"Scrumping by the last common ancestor of gorillas, chimpanzees, and humans about 10 million years ago could explain why humans are so astoundingly good at digesting alcohol," Nathaniel Dominy, the Charles Hansen Professor of Anthropology at Dartmouth College, said in a statement.
"We evolved to metabolize alcohol long before we ever figured out how to make it, and making it was one of the major drivers of the Neolithic Revolution that turned us from hunter-gatherers into farmers and changed the world,' he added.
Fermentation is the process by which bacteria and other microorganisms break down sugars into substances such as alcohols or acids. All of the alcohol we drink is made this way.
When you drink alcohol, you get drunk because you're consuming faster than your metabolism can handle. In apes, researchers said this doesn't seem to be the case.
Geneticists previously reported that eating fermented fruit may have led to a biological change in the last common ancestor of humans and African apes that boosted their ability to metabolize alcohol by 40 times.
However, no one had the data to test it, and scientists had not differentiated fruit in the trees from that on the ground when studying the primates since then.
"It just wasn't on our radar," Dominy explained. "It's not that primatologists have never seen scrumping — they observe it pretty regularly. But the absence of a word for it has disguised its importance.'
The team wanted to know what significance scrumping had for human evolution so analyzed previous research on dietary habits of orangutans, chimpanzees, and mountain and western gorillas in the wild.
The studies included thousands of scans of the primates eating fruit. If an ape at ground level was recorded eating fruit known to grow in the middle or upper levels of the forest canopy, it was counted as scrumping.
Of the three species, African apes were found to 'scrump' regularly, while orangutans did not. To better understand chimpanzees' alcohol consumption, the researchers will next measure the levels of fermentation in fruits in trees, versus that on the ground.
The researchers said their findings confirm results of past research which had also found that the primary enzyme for metabolizing ethanol — found in alcoholic beverages — is relatively inefficient in orangutans and other non-human primates.
The researchers believe that the African apes' ability to metabolize ethanol may let them safely consume a whopping 10 pounds of fruit each day.
That level of intake suggests exposure to ethanol could be a significant component of chimpanzee life, and a major force of human evolution. Humans may have retained the social aspects that apes bring to scrumping, Catherine Hobaiter, a professor of psychology and neuroscience at St Andrews, said.
"A fundamental feature of our relationship with alcohol is our tendency to drink together, whether a pint with friends or a large social feast," she added. "The next step is to investigate how shared feeding on fermented fruits might also influence social relationships in other apes."
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
The Independent
an hour ago
- The Independent
NASA's Curiosity rover can now multitask
NASA 's Curiosity rover, which landed on Mars 13 years ago, has been equipped with significant new capabilities. These upgrades allow the rover to multitask, performing scientific activities while simultaneously conserving energy from its nuclear battery. Curiosity can now communicate with an orbiter, drive, move its robotic arm, and capture images concurrently. The rover can also autonomously decide to power down early if its daily tasks are completed, reducing the need for extensive recharging. These enhancements aim to maximize the lifespan of its power source, as Curiosity continues to explore Martian geological formations believed to be formed by ancient water.
Daily Mail
an hour ago
- Daily Mail
Trump's new NASA boss wants to build a nuclear reactor on the MOON
New NASA Administrator Sean Duffy's first project will be an attempt to take American energy dominance to the moon. Duffy, who is also Secretary of Transportation and took the job as NASA Administrator after the White House shut out Elon Musk's preferred candidate, will announce plans to build a nuclear reactor on the moon this week. The Daily Mail has reached out to NASA and the White House for comment. In 2022, NASA announced plans to put a nuclear reactor on the moon by 2030 as part of a vision to turn the lunar body into an orbiting power station but Duffy wants an expedited, more definite timeline. The goal is for United States to outpace China in 'winning the second space race,' a source told Politico. Earlier this year, it was revealed China may team up with Russia in an attempt to build their own lunar nuclear reactor. Sure enough, Duffy's directive claims that China or Russia or any American enemy could 'declare a keep-out zone which would significantly inhibit the United States' if they got to the moon first. Duffy's directive commands NASA to get someone to lead the effort in the next 60 days and solicit companies that can help launch ahead of China. A former Fox News and reality TV star, Duffy is also pushing an effort to replace the International Space Station. Duffy, a former Congressman from Wisconsin, oversees the $25 billion space agency. In 2022, the US space agency chose three design concept proposals for a fission power system that could be ready to launch by the end of the decade. It is unclear if Duffy is going from the same plans. The plan is for the 40-kilowatt class fission power system to last at least 10 years in the lunar environment, with the hope that it could one day support a permanent human presence on the moon, as well as support manned missions to Mars and beyond. If NASA is to build a base on the lunar surface, one of the major problems to solve will be how such a proposed settlement would be powered. Solar panels are great for powering rovers, but a human base would need a continuous and reliable source of power. NASA experts are looking into nuclear fission as the answer because the technology has been used extensively on Earth. Relatively small and lightweight compared to other power systems, fission systems are reliable and could enable continuous power regardless of location, available sunlight, and other natural environmental conditions, the US space agency said. If the demonstration of such a system on the moon was successful, it would pave the way for the fueling of longer duration journeys through space. It is hoped that the development of these fission surface power technologies will also help NASA advance nuclear propulsion systems that rely on reactors to generate power. These could then be used for deep space exploration missions. The goal will also be to beat China and Russia to the same mission. The East Asian country aims to become a major space power and land astronauts on the moon by 2030, and its planned Chang'e-8 mission for 2028 would lay the groundwork for constructing a permanent, manned lunar base. In a presentation in Shanghai, the 2028 mission's Chief Engineer Pei Zhaoyu showed that the lunar base's energy supply could also depend on large-scale solar arrays, and pipelines and cables for heating and electricity built on the moon's surface. Russia's space agency Roscosmos said last year it planned to build a nuclear reactor on the moon's surface with the China National Space Administration (CNSA) by 2035 to power the International Lunar Research Station (ILRS). The inclusion of the nuclear power unit in a Chinese space official's presentation at a conference for officials from the 17 countries and international organisations that make up the ILRS suggests Beijing supports the idea, although it has never formally announced it. 'An important question for the ILRS is power supply, and in this Russia has a natural advantage, when it comes to nuclear power plants, especially sending them into space, it leads the world, it is ahead of the United States,' Wu Weiren, chief designer of China's lunar exploration program, told Reuters on the sidelines of the conference. After little progress on talks over a space-based reactor in the past, 'I hope this time both countries can send a nuclear reactor to the moon,' Wu said.
The Independent
2 hours ago
- The Independent
Old Mars rovers can learn new tricks! NASA's Curiosity marks 13-year milestone with new science capabilities
Can you teach an old Mars rover new tricks? NASA says the answer is a resounding 'yes.' Following its landing on Mars 13 years ago, Curiosity has been given new capabilities, allowing it to do science on the Red Planet while expending less energy from its batteries. Essentially, it can now multitask. 'We were more like cautious parents earlier in the mission,' Reidar Larsen, of NASA's Jet Propulsion Laboratory in Southern California, said in a statement. 'It's as if our teenage rover is maturing, and we're trusting it to take on more responsibility. As a kid, you might do one thing at a time, but as you become an adult, you learn to multitask.' Larsen led a group of engineers who developed the new capabilities for their six-wheeled teen. The agency said improvements to Curiosity will allow the rover to make the most of its energy source, which is a type of nuclear battery known as a radioisotope thermoelectric generator also used by the Perseverance rover. Managing the rover's daily power budget as the plutonium in the battery decays, Curiosity can now safely talk to a local orbiter while driving, moving its robotic arm, or snapping images. Curiosity can now decide to take a nap if it gets its work done early, ensuring there is less recharging necessary before the next day. 'Even actions that trim just 10 or 20 minutes from a single activity add up over the long haul, maximizing the life of the MMRTG for more science and exploration down the road,' the lab said in a release. These developments build on years of work developing other capabilities, including enhanced driving ability, the ability for Curiosity's head to capture panoramas without a color filter wheel on one of its 'Mastcam' cameras, a new way for Curisotiy's arm drill to collect rock and regolith samples, and an algorithm to help reduce wear and tear on the rover's wheels. The rover has recently been exploring formations of hardened ridges that were believed to have been created by underground water billions of years ago, finding rocks that were formed by the minerals deposited by ancient water flows and wind. 'A big mystery is why the ridges were hardened into these big patterns and why only here,' Curiosity's project scientist Ashwin Vasavada said earlier this year. 'As we drive on, we'll be studying the ridges and mineral cements to make sure our idea of how they formed is on target.'
