High Touch High Tech

You.  Yeah YOU.  Guess what?  You are positively crawling with microbes.  Bacteria, viruses, fungi, and protozoa.   An average-sized human is host to approximately 38 trillion microbes, which is slightly more than the number of actual cells in the human body.  The vast majority of them, up to 90%, reside in your gut.  Microbes are on every patch of your skin.  They’re on your eyeballs. In your ears.  In your lungs.  Wait!   Before you reach for the soap, consider what science has to say about your own personal microbiome.  The field of Microbiome Science is a new one, just 15 years old, but its findings reveal that the bugs you are carrying around are not usually pests or invaders.  They are symbiotes living in harmony with you, and they just might play a bigger role than you think in making you who you are.

In (and on) your body there is an entire ecosystem that you will never see.  According to scientist Richard Losick, there are thousands of different species of bacteria in the human body.  It appears that our own microbiomes are completely unique, too – it’s possible for two people to have absolutely no overlap in the microbes that inhabit their body.  There is evidence that our personal microbiomes have a surprising level of influence over us – from how much we eat, to how well we perform athletically, to perhaps even influencing our moods.  The new field of Microbiome Science has only begun and so far studies are small, usually involving studying stool samples from humans and then transplanting them into mice to study the effects.  If the idea of a fecal transplant turns your stomach, it might help to know that ingesting another person’s gut microbiome has been a proven therapy in humans to cure a severe antibiotic-resistant intestinal infection known as Clostridium Dificile.

How much influence do microbes really have over us?  And how do they do it? Gut microbiota have been the best studied so far.  It appears that different kinds of intestinal flora can release different kinds of chemical signals that, via nerve cells, immune cells, or the bloodstream, can signal directly to the brain.  For example, we get our sensation of fullness after a meal from our hypothalamus region in the brain.  The hypothalamus gets its signal from chemicals released by enteroendocrine cells in the intestinal wall.  But the enteroendocrine cells themselves are triggered by chemical signals from gut bacteria.  If there is an overgrowth of dangerous bacteria in the gut, other bacteria can send chemical signals to the dendritic cells of the immune system, beginning an immune response.  Some evidence even indicates that certain gut microbes can trigger enterochromaffin cells, the cells that contain the “happy chemical” serotonin.

Can the tiny hitchhikers in your gut really influence mood and overall quality of life?  At the University of Turku in Finland, Dr. Anna Katariina Aatsinki and her colleagues took stool samples from 301 babies.  Babies with the highest proportion of Bifidobacterium were also most likely to exhibit a trait the researchers called “positive emotionality,” a.k.a, happy babies.  In one of the more extensive studies, researchers at Harvard took samples from marathon runners before and after they ran Boston Marathon, and compared them with samples from non-runners.  The marathon runners had a much higher proportion of a bacteria called Veilonella Atypica, which was quite an interesting discovery for the researchers.  Veilonella is a microbe that metabolizes lactate, the same kind of lactate that is produced by muscles as a byproduct of a vigorous workout.  In turn, Veilonella releases propionate, which helps with oxygen metabolism and heart rate.  When mice received a transplant of the runners’ stool, and were given tiny treadmills to run on, the mice who received it ran 13% percent longer than the control group! 

Microbiome science is a growing field with tantalizing promise. Could the detectives of the future take “microbiome prints” to identify a suspect?  Could there be a future in which a dose of the right probiotics change a person’s life?  Science is indicating that even though our microbes are tiny, our microbiome is MIGHTY!

A true story of a fecal transplant, discussed by a doctor and patient at the Mayo Clinic: https://www.youtube.com/watch?v=Py3zJHeVGmk

Dr. Richard Losick on Human Microbiome Research: https://www.ibiology.org/microbiology/human-microbiome/

The Microbe Menagerie (Paywall): https://archive.nationalgeographic.com/national-geographic/2020-jan/flipbook/101/

Beer of Eternity.  Dark Beer. Friend’s Beer. Sweet Beer. Beer of the Protector.  Although these might sound like what you see on the menu of a local craft brewery, they are actually names the Ancient Egyptians gave to their beloved beers thousands of years ago.  In honor of Beer Lover’s Day, Sept. 7, let’s explore the scientific research that indicates fascinating links between not just beer and civilization, but between fermentation and human evolution itself! 

The traditional story of early human history (in a nutshell): about 5 million years ago, early human ancestors came down from the trees to hunt and gather new sources of food.  Then, about 5,000 years ago Hunting and Gathering humans needed more food. Hunting and Gathering Humans domesticated grain and invented agriculture.  Humans settled down to farm and BOOM! Civilization! Then came Beer. 

The beverage was likely discovered when someone tried to cook sprouting grain, not knowing it contained enzymes that liquify the starches in grain into sugars.  Add a little yeast from the air into the concoction, and yeast began to do what it does best: consume sugar and release ethanol alcohol as a byproduct.  No matter how it was discovered, beer was – and remains – a huge hit.  The oldest written recipe on earth is a Sumerian clay tablet praising the Goddess of Beer, Ninkasi, and describing how to make beer.

However, between the fields of Archaeology, Anthropology, Chemistry, Genetics, and Brewing Science, there is mounting evidence that indicates the human fixation on fermentation predates settled agricultural civilization by thousands, maybe even MILLIONS of years.  The chemical reaction by which yeast creates alcohol from sugar happens naturally in overripe fruit that falls from trees to the forest floor.  Steven Benner, a biologist at the Foundation for Applied Molecular Evolution in Alachua, Florida, helped discover a genetic mutation that occurred about 10 million years ago in the last shared ancestor between humans and apes.  This mutation produced an enzyme that allowed our distant forbears to digest alcohol 40 times faster than any other animal.  It is the reason that only humans and great apes experience such a multitude of pleasant psychoactive effects from alcohol. 

Benner and his team elucidated “The Drunken Monkey Hypothesis,” proposing that what actually nudged our ancient ancestors out of the trees and onto the forest floor was the search for delicious, nutrient rich, and pleasingly fermented fruit!  In Benner’s words, “You could say we came out of the trees to get a beer.”

Another challenge to traditional notions of early human history is the fact that archaeological and chemical evidence indicates humans may have been brewing up the good stuff long before Urban Civilization as we know it was a twinkle in anyone’s eye. An 11,000 year old site in Turkey called Gobekli Tepe is right in the area in which the first urban civilizations emerged thousands of years later.  The site is marked by several spectacular 16-ton pillars of mysterious origin, but it also contains many huge vats that contain a residue of calcium oxalate, which is released when beer is made.  Near the vats is also a hilltop covered with the bones of prime cuts of gazelle meat.  It’s unknown how the Hunting and Gathering people of the time were able to shape and lift the pillars, but German Archaeological Institute researcher Jens Notroff thinks the secret to gathering so many people for one muscular purpose was the beer. “If you need someone to help you move, you buy them pizza and a couple of beers.”

Bringing people together for beer and barbeque was – and remains – a huge hit.  Although it’s still not conclusive, evidence is gathering that it was beer, not bread that inspired our ancient ancestors to domesticate grains.  Harvesting wild plants simply couldn’t provide enough grain.  So our ancestors planted wild grains and over time bred them into higher yielding barley and wheat. This may explain why the earliest known domesticated grain, called einkorn, comes from a site only a few dozen miles from Gobekli Tepe.  Although the theory is not conclusively proven, there is a strong argument that humans did not settle down in large urban communities to farm for food.  They settled down to farm grain for BEER! 

The Oxford Companion to Beer: Definition of The History of  Beer: https://beerandbrewing.com/dictionary/UqfrcsPoAI/

An Anthropologist Ponders the Question of the Origins of Civilization while Brewing an Ancient Sumerian Recipe: https://www.morebeer.com/articles/Brewing_Ancient_Beer

The Drunken Monkey Hypothesis and Gobekli Tepe  (Paywall): https://archive.nationalgeographic.com/national-geographic/2017-feb/flipbook/30/

Morning, 2050.  You’re looking out over the megalopolis of Tokyo from your apartment a mile up in the sky.  The waves of Tokyo Bay far below ripple peacefully against bright green hexagonal plots of algae being grown for fuel.  You take a sip of your morning tea made with cloud-harvested water, and smile.  It’s going to be a beautiful day. 

At the moment, actually living the mile-high life in a gleaming tower above Tokyo is still science fiction, but everything in the above scenario is rooted in engineering fact.  Since the days of Ancient Rome, people have constructed multi-story buildings, but it was only in the last 150 years that the modern marvels we call skyscrapers became possible.  With the combination of easily available steel for the frames, or “skeletons” of skyscrapers, and safety elevators to lift people without risk, multistory buildings began to reach for the stars.  In 1931, the 102-story Empire State Building was a marvel of the world at 381 meters tall.  Incredible leaps and bounds in engineering and architecture mean that now the world’s tallest building, the Burj Khalifa (pictured below), clocks in with 160 stories and an incredible 828 meter height.

Another building already in the works, the Jeddah Tower, is right behind the Burj Khalifa at 1,000 meters, but neither can match the awesome height and stunningly futuristic design of the Tokyo Sky Mile Tower, a 1,700 meter tower designed with stability and sustainability firmly in mind.  Located as it is in the “Ring of Fire,” a seismically active zone in the Pacific, Tokyo may not seem like the best place for an ultra-tall tower.  At only 44 meters above sea level, global sea level rise could also be a player in any future plans for Tokyo.  However, the nature of engineering is to find a way to make things work, and the Sky Mile Tower engineers came up with a stunning design that turns disadvantages into advantages, and makes the impossible possible.

In an awesome display of creativity and forward-thinking, engineers decided that the best place for Sky Mile Tower will be IN Tokyo Bay, where huge concrete pillars running through a man-made island will anchor the building deep in the bay.  Unshakable by waves, the resulting tower and its surrounding series of man-made islands could then act as a breaker for tsunamis, ship traffic, and even sea level rise in the bay.  Wind speeds in the sky will be tamed by the fact that the Tower is a series of seven aerodynamic hexagonal towers with spaces in between to channel wind.  Most impressively, the issue of pumping water to residents a mile up will be solved with the practice of “cloud harvesting,” a relatively low-tech practice in which water droplets from clouds are collected and condensed on mesh panels.  The building even includes a system to harvest, purify, and distribute water to the world’s tallest residents!  The Sky Mile Tower was proposed in 2015, and although at this time there are no official plans for construction, it represents the incredible future of urban engineering and planning.

Engineering is a branch of science that depends on creating and testing models and designs in a lab before they are executed in the real world.  Most of the amazing skyscrapers you see in the world today were once 3D models that were stress-tested, checked, and re-tested until they were perfect. Experimentation is key to great designs!  If you’d like to try your hand at building and testing a model, check out our “Build a Truss Bridge” video and create and stress-test your own bridge! 

Build a Truss Bridge Experiment: https://www.youtube.com/watch?v=G4_dEeCiYzg

The Proposal Paper on the Sky Mile Tower, by the Architects & Engineers themselves: https://global.ctbuh.org/resources/papers/download/2335-next-tokyo-2045-a-mile-high-tower-rooted-in-intersecting-ecologies.pdf

Up-close Views of the Tokyo Sky Mile Tower Design: https://www.youtube.com/watch?v=eoFqbX19JLQ

More about the Future of Skyscraper Design:  https://www.youtube.com/watch?v=zTeaEU6hgCE

Join High Touch High Tech in celebrating
Hot Air Balloon Day
June 5th!

How many balloons does it take for a person to fly? The correct answer is one. And we’re not talking about holding on for dear life at the end of a balloon on a rope. We’re talking about a giant balloon with a basket under it… a Hot Air Balloon! 

Now we all know what a balloon is. It’s basically a flexible bag filled with air or some kind of gas. And we often associate them with kid’s parties, but believe you me there’s a lot more to the story of balloons than cakes and clowns!

Today, balloons of all shapes and sizes are used for all sorts of things, from lighting up sporting events to advertising. Film companies use them for lighting and providing birds eye views of football games.  And scientists use them to gather vital information from the Earth’s atmosphere, and even occasionally send them into space.  Oh, and they’re also quite fun to fly and are, in fact, man’s oldest form of manned-air transport.

Hot air balloons are an odd flying apparatus. They don’t look like anything else that flies. They aren’t used like other flying objects to get people from one place to another. They only are flown at certain times and in certain conditions. They don’t have a motor or anything mechanical with moving parts. Hot air balloons operate solely based on the magic and simplicity of science and physics.

So, as we celebrate Hot Air Balloon Day this June 5th, check out these FUN FACTS we’ve collected regarding this simple and scientific marvel!

A Rooster, a duck & a sheep get into a hot air balloon:

In 1783, the first hot air balloon was set to fly over the heads of Louis XVI, Marie Antoinette, and the French court in Versailles. Like monkeys in space, this odd assortment of animals was chosen to test the effects of flight. Sheep, thought to be similar to people, would show the effects of altitude on a land dweller, while ducks and roosters, which could already fly (albeit at different heights), would act as controls in the experiment. The balloon flew on a tether for 8 minutes, rising 1500 feet into the air and traveling 2 miles before being brought safely to the ground.

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Rise & Fall of Olympic Ballooning:

Considered to have been a demonstration sport, hot air ballooning enthusiasts saw their hopes of becoming official Olympians rise and fall all during the 1900 Olympic Games.

All in all, 61 men and 3 women competed in ballooning, which consisted of 18 events. Judges marked contestants on various points, like distance, duration and elevation.

Rainy Skies… No One Flies:

Hot air balloon flights are not possible during the rain. The heat produced by the balloon is hot enough to boil the water on the top of the balloon which can destroy the fabric.

When the forecast calls for sunshine, rides are usually launched early in the morning when the atmosphere is calmer.

One for the Record Books:

The longest balloon flight was by the Virgin Pacific Flyer piloted by Per Lindstrand from Sweden and Richard Branson from the UK. They flew from Japan to Northern Canada on January 15, 1991.

Finding Your Way:

Despite modern day technology, balloonists still use basic scientific methods & tools to navigate their way through the skies. Balloon pilots use an instrument called a Piball to see the exact location the wind blows. It is simply a helium filled balloon. This method helps pilots see if the wind may potentially bring the balloon into restricted airspace and dangerous locations.

Chasing the Dream:

Balloon flights have a chase crew. True to its term, this is a ground crew that follows the balloon’s flight all through the entire trip. The chase crew have vehicles with room to accommodate passengers, the pilot and the balloon itself that can weigh over 250 lbs.

Where in the World:

If you want to take a ride in the skies, one of the best places in the United States to give it a try is Albuquerque, New Mexico. You can take part in the 9-day festival that includes approximately 750 balloons from 18 countries across the globe. Or if you are feeling more adventurous, check out this list of the 17 Best Hot Air Balloon Rides in the World!

For many people, taking to the skies afloat a giant balloon is a thrilling adventure because it allows for a real sense of flight. In recent years, companies have popped up around the world offering once-in-a-lifetime hot air balloon rides for a variety of occasions & reasons including sightseeing. 

From the Grand Canyon to the Grand Caymans, sightseeing as you soar in a balloon allows you to interact with nature the old-fashioned way that rises above the modernization & evolution of aviation.

You’ll learn more interesting characteristics and heritage of this simple yet amazing activity as you enjoy your very own hot air balloon ride. But until then, check out these great resources that will keep you afloat! 

RESOURCES:

• Race Around the World: Take a Virtual Balloon Ride & Learn the Science of Ballooning with PBS & Nova Interactive!
• HowStuffWorks.com: How do Hot Air Balloons Work?
• Golden Age of Aviation Timeline
• HotAirBalloons.com : Hot air balloon terminology, Fun facts, FAQ, educational resources, find local hot air balloon rides & more!
• Hot Air Balloon Festivals Across the Globe
• Make Your Own Hot Air Balloon Photo Booth!

And if taking to the skies is not your cup of tea….or it’s simply not the right time, you can create your very own hot air balloon and test both your aviation & navigation skills with our at-home experiment:
Tissue Paper Hot Air Balloon.