White Sand is Mostly Parrot Fish Poop

By Anupum Pant

Walking on the sparkling white sand on a sunny beach in Hawaii, sounds wonderful, right? Who’d even think, the white sand on Hawaii beaches, which people love walking on, is actually something that is excreted by a certain kind of fish called the Parrot fish…at least most of it – about 70% of it is poop.

Now, I suppose people walking on the beach must be all grossed out. But they shouldn’t be. It isn’t too bad after all. The sand (poop) doesn’t even smell like anything bad. It looks and feels completely fine. There’s actually no reason to be grossed out.

This is how it works…

The Parrot fish spends most of its time eating sea weed and polyps which grows on coral most of the time. When it tries to puck it off, thanks to the protruded mouth of a parrot fish, it scoops off a part of coral too. The coral and sea weed mixes and gets crushed in its throat.

The sea weed and polyps eventually get digested, while the crushed coral comes out as it is. As a result, it poops out the undigested  crushed coral.

Interestingly, in the process of taking off a chunk of coral and munching it, the parrot fish does two good things.

Firstly, it helps the coral in removing all the parasites and other things growing on it. The fish is considered to be a natural cleaner of corals. Had there been no parrot fish, corals would have died.

Secondly, the parrot fish does a great service to its own beak in this process. As a result, the beaks don’t grow too much.

The parrot fish eats a lot, and each one of them can produce about 100 kg of “sand” every year. It has been confirmed by scientists that about 70% of the sand that is present on all the tropical beaches has come out of the back side of a parrot fish at some point of time.

This is what a parrot fish looks like and this is how it poops out sand…

Bonus fact: Our planet is old and fresh water is less. So, it’s valid to say that all the water molecules that are there now have passed through something really bad, and there’s a high chance that all of it has passed someone’s urinary tract at some point.

The Everlasting Lightning of Venezuela

By Anupum Pant

There’s a place in Venezuela which is the single greatest generator of tropospheric ozone – A basin in Venezuela where the  Catatumbo River empties into Lake Maracaibo. The basin is surrounded on three sides by mountains and is home to a very unique phenomenon which produces more tropospheric ozone than anywhere else in the world. It’s called the Catatumbo everlasting lightning.

Almost every other day (more than 200 days a year), after dusk the largest lightning show on earth begins. The whole sky strobes blue light about 260 times every hour. This lasts for about ten hours. In that span lightning strikes about 20,000 times! Nowhere on earth is lightning as persistent as this place…

This happens because of the geography of the region. Since the basin is surrounded by mountains on three sides, it’s a perfect place for the equatorial warm and moist winds to crash. As they crash the moist air condenses water and forms clouds. These charged clouds create a lot of cloud to cloud lightning about 3 kilometers above in the sky.

This is better known among sailors as the Beacon of Maracaibo, as it serves a nice navigational aid for them.

Mysteriously, this lightning phenomenon which had lasted continually for 104 years disappeared in January 2010. Many thought it had gone for ever, but it started again in the month of April the same year. This was the longest disappearance ever. Scientists say it was the drought which made it stop for 4 months.

via [Slate]

Problem Solving Plants

By Anupum Pant

Neurobiological research on plants, sounds absurd, right? Not at all. Stefano Mancuso from University of Florence, Italy has devoted years of his life studying plants and he firmly believes that plants can communicate.

He often uses bean plants to demonstrate their mystical ability to communicate and their amazing ability to sense the environment. He has grown bean plants in a number of conditions (lighting, temperature, humidity, magnetic field etc.), while recording their growth through a time-lapse camera.

In his time-lapse videos it’s fascinating to see bean plants shooting out and making movements, as a blind man would do with his hand to sense the environment. Every single time, irrespective of its distance, bean plants are able to find the support stick to wind on…

This remarkable ability of bean plants, lacking eyes or any other known sensing techniques, has stunned scientists. Since it is sped up, the video of this shoot moving up the support stick looks a lot like some reptile’s movement.

Here, watch the time-lapse, you’ll see how amazing this little marvel of nature is…

Like a bean plant, there is another plant (if you could call it that), whose movements have interested scientists. Exactly like a bean plant does, this plant comes out too, searches and always is able to find another plant to grow on. At the same time, it is quite different from the bean plant.

Cuscuta Pentagona, as scientists call it, is a true parasite. That means, it has no roots, nor can it make food on it’s own – no photosynthesis. So, for food, it relies on neighbouring plants. And every single time, like bean plant, after coming out from the ground, cuscuta parasite is able to sense the healthiest plant. It then sinks in its suckers to suck out food from the host plant. Now watch the serial killer in action, in the voice of Morgan Freeman.

A Ghost Heart

By Anupum Pant

Before I begin, I’m happy to announce that Awesci’s feed has been featured on a smartphone app, Dabblr. I covered it a couple of days back in the interviews section. If you missed it, you might want to know what Dabblr can do and why you should use it, especially if you are a student. 

At any given time, thousands of people are there on the heart transplant waiting list. Some of these people are eventually able to find a donor, while others aren’t able to. Hundreds of people who fail to find a donor, die every year. It’s a grim state, but little can be done to change it. Texas Heart Institute (THI) had a solution for this problem – use a Pig’s heart.

(There have been cases where people have survived for some time on artificial hearts too. It’s incredible how these things work.)

A pig’s heart is a lot like our own, in shape, size and function. Of course it can’t be just taken away from a pig and installed in a human. Or people from ancient times would have done it. The researchers from THI proposed this – make a ghost heart out of it first.

For making a “ghost heart”  – a kind of a structural scaffolding – they used a simple soap solution. Once they washed the pig heart in it and may be after some other processing, they had a pure protein scaffolding, stripped off of all living cells (decellularized), which could be customized and could be used to grow a custom heart for a specific human being – by using the patient’s bone-marrow stem cells. That way the new body where it would get installed won’t reject it.

In the near future, there’s a chance we could have humans with the hearts of pigs!

The Monkey Island

By Anupum Pant

Off the coast of South Carolina is an island, the Morgan island, which is home to about 4000 monkeys. Locals call it the monkey island. Approximately 750 new baby monkeys join the monkey army on Morgan island every year. However, all the monkeys living in that island  are there for a reason. These monkeys are medical test subjects – used by researchers for medical testing – for vaccine testing (Polio, AIDS etc..). That is the reason about 500 monkeys are taken away from the island every year.

No humans live on this 4000 acre remote island. Also the Monkey island is a protected area and no unauthorised people are allowed to enter it. Only authorised monkey caretakers can go in. Others who try to enter will be greeted with a monkey-shit storm – Yes, monkeys of the Monkey island pelt feces at strangers.

Thankfully, the research isn’t done at the island itself. The island is like a store for all the monkeys. So you can rest assured that you won’t run across any mutant monkeys on this island, if you some how end up there.

Where did they come from?

They were all put there by us humans. Back in the 70s the monkey colony was at La Parguera in Puerto Rico. When there were reports of infected monkeys escaping and reaching human settlements, the locals were stirred. As a result, the monkeys were all collected and had to be shifted to a remote island where no one lived – Morgan Island.

[source]

Alex The Genius Parrot – A Touching Tale

By Anupum Pant

Alex was a random African grey parrot that Irene Pepperberg, an animal cognition scientist, picked up from a pet store. She had a point to prove. There wasn’t anything different about this particular parrot. And yet, for 30 years, both the parrot and the researcher worked together for hours everyday and proved something no one had ever proved before.

Irene demonstrated that a “bird brained” creature was able to demonstrate excellent language, communication and intelligence. After the 30-year long experiment, Irene had clearly shown that it doesn’t take a primate sized brain to display intelligent behaviour – or the kind of behaviour we humans label as intelligent.

In fact she says, animals display extremely intelligent behaviour all the time in nature, it’s just that we humans have a different definition of the word intelligent.

Alex knew more than 100 english words, a couple of one liners, shapes and colours. More importantly, unlike what all the parrots usually do, Alex actually understood what he said. He displayed a remarkable ability to combine 2 different words from his vocabulary to say something meaningful. It wasn’t just repetition of sounds he did.

In these 30 years, Irene had become extremely attached to Alex, had started moving on to teach him more complex tasks and treated him like a child. But suddenly on September 6th, 2007 at the age of 31, Alex died. This event left a hole in the researcher’s heart. It made headlines the next day. Economist even published an obituary like they do for famous human deaths. It was indeed a huge loss for Irene, and science. Its last words were –

You be good, see you tomorrow. I love you.

Making Xrays Using a Sticky Tape

By Anupum Pant

It’s been known since the 1950s that peeling a sticky tape can produce great amounts of energy. But it wasn’t until recently (in the year 2009) a few scientists, who also didn’t quite believe what sticky tapes could do, decided to actually test this phenomenon.

Astoundingly, a simple act of peeling an adhesive tape, can produce enough xrays to make a Geiger counter cry like a cricket.

In fact, the xrays produced by peeling off sticky tape at the rate of about 5cm per second inside an evacuated chamber can produce enough xrays that can expose a photographic film – enabling you to take an xray of your finger – as demonstrated by the researchers in the video below.

The video is fairly old, was uploaded in the year 2009 and I somehow have never stumbled upon it. It seems relevant even today. Thanks to ScienceDump for showing me this today.

Imagine, you can take an xray picture of your finger using a simple adhesive tape (peeling off in vacuum of course). Scientists possibly couldn’t have discovered a cheaper source of producing xrays.

The vacuum is needed to let enough charge to accumulate before the medium in between the charges breaks. Had the peeling been done in atmospheric pressure, it would have just produced visible light (lower energy than xrays). You can even try doing that at home. Go to a dark room and try peeling off a sticky tape quickly. Thanks to the effect called triboluminescence, you’ll be able to see a spark of light coming out!

Crickets – Nature’s Weather Reporters

By Anupum Pant

Background

An annoying Cricket’s treet-treet-treet noise is really unbearable sometimes, especially when a house cricket ends up under your bed and treets all night long. To others, it’s pleasing, they associate it with the night time, and it makes them go to sleep.

Whatever it is for you, there’s one interesting thing universal about that noise they make. If you can count the number of chirps, you can almost accurately estimate the atmospheric temperature using a simple formula! Good ‘ol farmers used to do this.

I know all of us have smartphones these days, so counting cricket chirps to estimate temperature probably makes no sense to you. Still, I’ve said it back then and I say it again, it’s never bad to know anything.

Here’s how you do it

For doing it, you somehow should be able to measure 14 seconds. In those 14 seconds, count the number of times a single cricket chirps. Suppose there are 35 chirps heard, you save that number and add it to 40 (always 40). And this gives you the present temperature in Fahrenheit.

35 chirps + 40 = 75 degrees Fahrenheit

Now, since only a handful of countries use Fahrenheit to measure temperature, you might want to convert it into Celsius scale. I personally am comfortable with only the Celsius scale. But you don’t have to go through the trouble of converting because, to measure the temperature in Celsius scale using the cricket’s treet, this is what you have to do.

Simply count the number of chirps it makes in 25 seconds. Now divide the number by 3 and add 4 to it. There you have your ambient temperature in Celsius scale. Suppose the cricket chirps 50 times…

(50 chirps/3) + 4 = 20.67 degrees Celsius 

Why it works

To know that it is first important to understand how a cricket makes that sound. Remember only male crickets of a few species make this sound. They do this by a process called stridulation – rubbing 2 body parts to make a sound. Rubbing the underside of one wing with the upper side of the other wing does this trick – as they have rough and hard structures over there.

To move these wings it requires a particular chemical reaction to happen in their muscles. The speed of this chemical reaction is dependent on how hot or cold it is. The hotter it is, the faster the reaction happens and the faster it is able to move its muscles to produce more sounds in those 14/25 seconds…

via [Scientific American] and  [Howstuffworks] and [Farmer’s Almanac]

A Chicken’s Remarkable Image Stabilization Ability

By Anupum Pant

Background

I saw this Smarter everyday video, made by Destin, a very long time back and I remember very well that I had stored it away in my notes somewhere to share it with you guys in the future, but it was nowhere to be found. As time passed, I totally forgot about it. Just yesterday, while writing about how chicken heads saved Switzerland from rabid foxes, there was a sudden flash in my mind and I recalled having seen Destin’s video (I don’t know how that happened. Brains are amazing). I’ve attached it below for you to see.

In the video, Destin demonstrates how chickens have an amazing ability which enables them to keep their heads perfectly stable. It is just one of the many ways birds are better than humans. Irrespective of how their body moves, their head remains perfectly still in a way that their eyes are able to see a very stabilized image.

It is interesting to note that it isn’t just chickens who have this ability. Owls and a couple of other birds have this built-in too. In fact, cats can do it to some extent too, but chickens and owls are definitely better at it.

NASA, before it had sent humans to space, conducted a similar experiment with owls with an expectation that they would learn something that’d help them reduce trauma to humans in space. This is how an owl was moved around by them in every axis possible. It passed every test they threw at it. Look at it go…

The Vestibular Ocular reflex system

Most vertebrates have this device inherently built into their inner ears which has three tubes (probably to detect movement in all three dimensions). The biological device is called the Vestibular system. This is what it looks like. You can clearly see the three semi circular tubes coming out.

These three tubes are filled with a fluid which moves around when the head moves. As the fluid moves, it pushes something called a cupula and converts mechanical movement into an electrical signal. The signal is sent to the brain to process.

As a result, the brain sends back information to the eyes and moves them in the opposite direction. That is how your eyes are involuntarily able to stay focussed at a single point even when you move your hear. This is called the Vestibular ocular reflex system.

But the chicken’s eyes don’t move, so it isn’t probably correct to call it an ocular reflex. Instead their whole head moves in the opposite direction to their body movement. Thanks to the vestibular system. I’m not totally sure, but this could have something to do with righting reflex – the same thing that makes cats turn the right side up when they fall. Please help me with this in the comments section if you know more…

Chicken steady head cam

Using the same amazing biological image stabilization technology that was at his disposal, a youtuber decided to tie a camera to the chicken’s head to make a steady headcam. I think it’s an amazing idea for R&D.

How Chicken Heads Saved Switzerland From Rabid Foxes

By Anupum Pant

It’s believed that rabies first arrived on the mainland of Europe in the year 1947. As years passed, the disease steadily started spreading westwards at a rough rate of about 50 km per year. From Poland, towards the west, it started moving into Austria, Germany and Parts of Italy by the year 1970. Now it was Switzerland’s turn to see the deadly disease attack their place. The decided to do something to prevent that from happening. Of course it wasn’t easy. There were problems…

Sad, they had to deal with a couple of problems first.

First, to prevent rabies from reaching the upper reaches of Rhode valley, scientists knew that vaccines composed of artificial or dead viruses would just not work. Doctors at the university of Berne tried testing a weakened live virus vaccines in field tests. These field trials were indeed successful. Still, they knew it could be extremely dangerous if the live virus vaccines started propagating the disease instead of stopping it. So there was a widespread ban on using live virus vaccines.

There was a second problem too. The chief carriers of rabies virus were foxes and to spread the vaccine among them was a pain because if the vaccine went into their stomach, the juices there would make it completely ineffective. To deal with that problem they knew they had to administer a live virus through the lining of the fox’s mouth. It didn’t seem like a possible idea.

And then there was a talk to keep the virus alive inside an egg till the fox finds it. Alas, foxes didn’t like eggs that much. They preferred storing the eggs somewhere, which killed the live virus, making it ineffective.

Alexander Wandeler, the chief organiser of the vaccine trials had a better idea for the future.

To the relief of Swiss vets, the ban on using live and weakened viruses in vaccines was lifted in the year 1983 (I suppose).  Now they knew exactly what to do to prevent rabies from spreading into their country. Alexander’s idea was to hide the vaccine and the egg yolk inside a chicken head (something which the foxes like a lot). So the chicken heads became makeshift syringes to administer the rabies vaccine to foxes. And it worked.

Now if that was too long to read, I’ve decided to include a shorter 10-second version at the end of relatively bigger stories. Tell me if it works for you in the comments section. It’s important to me that you do. Thanks.

TL;DR
Chicken heads laced with weakened virus, which foxes ate to immunize themselves, saved Switzerland. As a result Rabies was virtually eradicated from the country.

via [New Scientist – Jan 13, 1983]

World’s Largest Building Has a Climate of Its Own

By Anupum Pant

A place where planes like the Boeing 747, 767, 777 and 787 are built, has to be huge. But this Boeing factory in Everett, Washington, home to 30,000 workers (working in 3 shifts), is so huge that the inside of the building has a climate of its own. It is the largest building on Earth. If you get a chance, you must not drop a chance to take the 90-minute tour of this factory (it costs $15 per adult). Here are a few things to note about it…

The size: The volume of this factory is 472 million cubic feet or 13.3 million cubic meters. That is enough to fit the whole Disney land and still be left with a 12 acre place to park the vehicles. In other words, it could fit 800 standard sized hockey rinks. Or it could fit in 75 football fields. Or it can hold about 12 empire state buildings! You get an idea how huge it is, right?

Largest Digital Mural: Being huge comes with its own side effects – another world record. The doors, like the building, are huge too. The factory has 6 doors, where each of them is 82 feet in height and 300-350 feet in width! You could bring in an NFL field (as in, fit the length of it) in through one of these. But what is more interesting about these doors is that they are covered with a 100,000 square feet of digital graphic. This is the largest digital mural in the world – printed by SuperGraphics, Seattle. It took the workers 27 days to install the digital mural.

Small City: Had this place been slightly larger, it could have had enough space to fit in a country – The Vatican city. Still, it isn’t small. The building is like a small city with it’s own fire department, security force, fully equipped medical clinic, electrical substations and water treatment plant. To move around in this little city, the employees use 1,300 bicycles.

Its own Climate? Now, since it is like a small city, it has to have its own climate, right? Yes. When the building was first built, clouds got formed inside and some say it even rained inside (mostly, not true). But rainbows have definitely been seen inside.
The temperature inside the building is controlled by those 1 million bulbs that are used in there. During winters, the bulbs bring warmth and during summers the doors are opened and air circulating fans are switched on to let the fresh Everett breeze come in.

Bonus fact: The network of 26 overhead cranes have about a total of 39 miles of ceiling rails inside the factory!

This Green Slime Like Thing is a 3000 Year Old Plant

By Anupum Pant

It looks like moss, but it isn’t. Nor is it slimy.

This gooey or slimy looking thing is actually a plant which grows in Bolivia, Chile, Argentina and Peru, up in the Andes at altitudes between ten to fifteen thousand feet. Believe it or not, some of these plants are more than 3000 years old. Yes, they are one of the oldest living organisms on the planet earth – older than the golden age of Greece.

Even though the plant looks slimy goo-like from a distance, when you go closer, it is actually solid and dry to the touch. The surface of the plant consists of densely packed tens of thousands of tiny buds and flowers which make the surface feel like a pillow. That is the reason it is also  known as the Andes Pillow. In fact the surface is so stiff that a person can lie on it and the plant won’t get crushed.

It is sort of a cousin to parsley and carrots. And it is interesting to note that the plant smells like mint. Locals often boil it in water and use it to cure muscle pain.

Llareta grows extremely slowly. It grows about 1.5 cm every year. The ones which are about 2.5 to 3 meters in size can be said to have grown for hundreds of years to reach that size.

Since Llareta is dense and dry, it burns like wood, and has been known to be used by the climbers/hikers to make fire. Some say that it was also used in steam engines instead of coal. This careless burning of the extremely slow-growing living museum has endangered their long-term survival.

via [RadioLab]

This 50-Second Clip Proves Your Brain is Amazing

By Anupum Pant

There was a post I made in the past, about a popular email forward which mentioned a paragraph and it seemed like gibberish at first. But when you actually tried to read it, you were able to read is at a very normal pace. It was as if the totally mixed up spellings did not matter. Now, that wasn’t a very scientific way of going about claiming something – through an email forward. No one really knows where it came from. Certainly not from Cambridge. And right at the end of that article, the claims of that email were convincingly challenged.

What we see today is something similar, just that, it about listening, not about reading. Plus, this one, unlike the “spelling does not matter” claim, comes directly from a very reliable source – Jayatri Das, Chief bioscientist at Franklin Institute.

In an audio broadcast uploaded on soundcould, she demonstrates a very strong and fundamental trait of the human brain.

In the 50 second sound clip, she first plays a sound that is heavily distorted by a computer. You aren’t able to make any sense out of that sound. What happens next is amazing.

The sound plays again – the distorted R2D2-ish sound. Next, she plays the actual sentence which was distorted to make it sound like gibberish. The real sentence (which I won’t reveal in the text because it would ruin it for you if you read this first) is totally clear. Now, when she plays the gibberish again, somehow you are easily able to understand it!

It’s right here and you can experience it for yourself by listening (and participating) in the 50-second clip. It is a sound you literally “cannot un-hear”.

However, I had forgotten the real sentence after a couple of days, so the clip seemed to me like what it would to a fresh test subject when I listened to it again after a week. That means technically, you are able to un-hear it.

As this article from the Atlantic – where I first read about it – puts it. It is a lot like this visual experiment.

Did you happen to notice the following image that made fun of the FIFA Worldcup 2014’s logo? I’ve attached it below, if you haven’t seen it.

The image makes the logo look like a facepalm. Before this, you must have never thought of the logo to be a facepalm. But, after you see this, every time you see the actual logo, you’ll see a facepalm.

It’s amazing what the brain can do. world cup 2014 facepalm meme

Video: Change Blindness

By Anupum Pant

There’s so much happening around you that if your brain doesn’t have this ability to see and skip processing most of the useless information the eyes send it, you’d probably go mad in a day. That is change blindness. In that way, It is good for you. But you must not have realized how narrow your attention of focus can be. This video demonstrates it better than anything else.

By the way, when you watch the first clip where the camera pans with the Pacman, try focussing on the Pacman only. Or you won’t be able to appreciate the effect as much.

Eyes of the Mantis Shrimp – Colours and Hexnocular Vision

By Anupum Pant

Of course there’s a lot of other things to talk about the Mantis Shrimp. But today, I’m going to only talk about its eyes.

Colours

The eyes of a Mantis Shrimp are one of the most advanced eyes on the planet. To realize how extraordinary their colour vision is, you need to have some perspective on what we are talking about.

Colour is just a trick of our mind. What we see is really out there, there’s no way to know for sure if it is the reality. Or, there’s no way for us to explain what we really see.

For instance, imagine how we see the world, say particularly, the colour red and all its derived colours. Now, what you see is very different from how a colour blind person or a dog sees it. Dogs and about 10% of men who are colour blind can’t see colours like we do. That is because, instead of 3 cones (red, blue and green sensitive ones), they just have two. If you and a dog would point their eyes towards the same rainbow, both of you would see a very different image (if you are not colour blind).

A dog probably would see a rainbow which would start with a blue colour and then there’d be green in it for a dog. Nothing else. That is because it has no red sensitive cones. A single difference in the number of types cones can make such a huge difference in the colour vision. Addition of the single red sensitive cone enables us to see a whole set of new colours.

Some women (estimated to be about 2-3%of the world’s population!) have a super-human ability that makes them able to see a whole set of new colours. Like we see a million different colours, these women can probably see 100 Million different colours. It’s hard to imagine what they really see. Probably that is why they say men are so bad at colours.

Similarly, consider a butterfly. They have 5-6 different kinds of cone receptors. So, when they look at a rainbow, they probably see a range of colours between the blues and the greens and the greens and the yellows. Of course, it can also see an ultraviolet beyond the violet. Incredible enough.

mantis colour range

The Mantis Shrimp, an animal of the size of your finger, has one of the most amazing colour visions. It has 16 different types of cones. You can’t even start to imagine how the world looks to them. And suppose they try and see a rainbow, they’d see a really rich set of colours. No other animals we know have even a visual system that is half as advanced.  There’s no reason they must have this ability.16 is just too many cones!

Needless to say, these technological marvels can see ultra-violet light, infra-red light, and some can even see polarised light.

Hexnocular vision

tumblr_ljijxhMzSC1qfcmjd

Now, we see with our two eyes and call it a binocular vision. We have 2 eyes and 1 focal point each. So, to see in 3-D, we need both out eyes.

Mantis Shrimp, however, has 2 eyes with 3 focal points each. Each of its eye is divided into 3 sections and can see 3 different images, using the 3 different sections. It doesn’t need 2 eyes to see in 3-D. One is enough. Besides that, it is able to judge depth much better than we are able to do it. Think of an image stitched out of 6 different eyes.