Sunday, November 2, 2014

Humans Have a Lot More Than Five Senses

Humans Have a Lot More Than Five Senses

DAVEN HISKEY 
SensesToday I found out humans have a lot more than five senses.  It turns out, there are at least nine senses and most researchers think there are more like twenty-one or so.
Just for reference, the commonly held definition of a “sense” is “any system that consists of a group of sensory cell types that respond to a specific physical phenomenon and that corresponds to a particular group of regions within the brain where the signals are received and interpreted.
The commonly held human senses are as follows:
  • Sight:  This technically is two senses given the two distinct types of receptors present, one for color (cones) and one for brightness (rods).
  • Taste:  This is sometimes argued to be five senses by itself due to the differing types of taste receptors (sweet, salty, sour, bitter, and umami), but generally is just referred to as one sense.  For those who don’t know, umami receptors detect the amino acid glutamate, which is a taste generally found in meat and some artificial flavoring.  The taste sense, unlike sight, is a sense based off of a chemical reaction
  • Touch:  This has been found to be distinct from pressure, temperature, pain, and even itch sensors.
  • Pressure: Obvious sense is obvious. ;-)
  • Itch:  Surprisingly, this is a distinct sensor system from other touch-related senses.
  • Thermoception:  Ability to sense heat and cold.  This also is thought of as more than one sense.  This is not just because of the two hot/cold receptors, but also because there is a completely different type of thermoceptor, in terms of the mechanism for detection, in the brain.  These thermoceptors in the brain are used for monitoring internal body temperature.
  • Sound:  Detecting vibrations along some medium, such as air or water that is in contact with your ear drums.
  • Smell:  Yet another of the sensors that work off of a chemical reaction.  This sense combines with taste to produce flavors.
  • Proprioception:  This sense gives you the ability to tell where your body parts are, relative to other body parts.  This sense is one of the things police officers test when they pull over someone who they think is driving drunk.  The “close your eyes and touch your nose” test is testing this sense.  This sense is used all the time in little ways, such as when you scratch an itch on your foot, but never once look at your foot to see where your hand is relative to your foot.
  • Tension Sensors:  These are found in such places as your muscles and allow the brain the ability to monitor muscle tension.
  • Nociception:  In a word, pain.  This was once thought to simply be the result of overloading other senses, such as “touch”, but this has been found not to be the case and instead, it is its own unique sensory system.  There are three distinct types of pain receptors: cutaneous (skin), somatic (bones and joints), and visceral (body organs).
  • Equilibrioception:   The sense that allows you to keep your balance and sense body movement in terms of acceleration and directional changes.  This sense also allows for perceiving gravity.  The sensory system for this is found in your inner ears and is called the vestibular labyrinthine system.  Anyone who’s ever had this sense go out on them on occasion knows how important this is.  When it’s not working or malfunctioning, you literally can’t tell up from down and moving from one location to another without aid is nearly impossible.
  • Stretch Receptors:  These are found in such places as the lungs, bladder, stomach, and the gastrointestinal tract.  A type of stretch receptor, that senses dilation of blood vessels, is also often involved in headaches.
  • Chemoreceptors:  These trigger an area of the medulla in the brain that is involved in detecting blood born hormones and drugs.  It also is involved in the vomiting reflex.
  • Thirst:  This system more or less allows your body to monitor its hydration level and so your body knows when it should tell you to drink.
  • Hunger:  This system allows your body to detect when you need to eat something.
  • Magentoception:  This is the ability to detect magnetic fields, which is principally useful in providing a sense of direction when detecting the Earth’s magnetic field.  Unlike most birds, humans do not have a strong magentoception, however, experiments have demonstrated that we do tend to have some sense of magnetic fields.  The mechanism for this is not completely understood; it is theorized that this has something to do with deposits of ferric iron in our noses.  This would make sense if that is correct as humans who are given magnetic implants have been shown to have a much stronger magnetoception than humans without.
  • Time:  This one is debated as no singular mechanism has been found that allows people to perceive time.  However, experimental data has conclusively shown humans have a startling accurate sense of time, particularly when younger. The mechanism we use for this seems to be a distributed system involving the cerebral cortex, cerebellum, and basal ganglia.  Long term time keeping seems to be monitored by the suprachiasmatic nuclei (responsible for the circadian rhythm).  Short term time keeping is handled by other cell systems.
Bonus Facts:
  • The traditional “five senses” model (sight, hearing, touch, smell, and taste) is credited to Aristotle
  • One such method for testing whether humans have magentoception is by placing a strong magnetic field near a person and then disorienting them.  Results have shown that people in this scenario perform significantly worse at being able to re-orient themselves in terms of the cardinal points than people who are not near a strong magnetic field.  More conclusive evidence has been demonstrated by examining subject’s brains when magnetic fields are produced near a person.  It has been shown that these magnetic fields will evoke a response in the brain’s activity.
  • Numerous experiments have demonstrated that people do have the ability to detect accurately the passage of time.  One experiment showed that, without consciously counting or anything of the like, a group of 19 to 24 year olds were able, on average, to tell when 3 minutes was up within a 3 second margin of error.  Interestingly, the age group of 60-80 tended to average perceiving 3 minutes pass at around 3 minutes and 40 seconds consistently within the test group.  This would seem to indicate whatever mechanism we use to sense time slows as we age and thus as we get older time seems to pass faster to us.
  • People with Parkinson’s disease and ADD have severely impaired sense of time passage compared to “normal” people.
  • The vestibular labyrinthine system (equilibrioception) works by sensing the motion of fluid in three canals in your inner ear, as well as sensing the weight of small crystals of calcium carbonite on tiny hair-like sensory receptors.
  • Proprioception (sense of relative position of body parts) comes from the Latin “proprius”, meaning “one’s own”.
  • There exists a type of bacteria, called magnetotactic bacteria, that build magnets inside themselves in order to orient themselves with the Earth’s magnetic field.  They also migrate and form chains of themselves along magnetic field lines.
  • Many avian life forms posses a region of their bodies that contain a biological magnetite, generally in their beaks.  It is believed this gives them a strong magnetoception and thus allows them to sense direction accurately.  More recently, it has been shown that certain birds have the ability to see magnetic fields.  How this works is the Earth’s magnetic field effects how long a certain molecule, cryptochrome, in their photoreceptor cells stays in the active state.  This then affects the light sensitivity of the bird’s retinal neurons.  The net effect is the birds can perceive magnetic fields with their eyes.   The biological magnate and ability to perceive magnetic fields with their eyes are thought to combine to form a very accurate mapping and directional system in the birds.
  • Sharks, stringrays, and chimeara all possess an electroreceptive organ called an ampullae of Lorenzini.  This organ gives them the ability to detect even small variations in electric potential.  They can use this to detect magnetic fields, among other things.
  • Cattle tend to align themselves north-south, which leads some researchers to believe they have a strong magnetoception sense.
  • Some people experience something called synesthesia where they may perceive some sound and think of it as a color.  So a dog barking may be “red” to them or the like.  This condition does not generally occur naturally, though it can; it usually manifests itself when people are under the influence of hallucinogens

How is Silk Made?

How is Silk Made?

MELISSA 
Mark D. asks: How do they make real silk from worms?
silk wormOne of the softest fabrics on the planet, shiny, breathable and comfortable, silk has been a highly prized cloth since it was first harvested thousands of years ago. And despite advances in production methods and new possibilities for cultivation, still today the only reasonable way to glean the thread in mass quantities is by killing the thing that made it.
Silkworms are caterpillars of (usually) the Bombyx mori moth. During its 3 to 8 day pupating period, the silkworm secretes fibroin, a sticky liquid protein, from its two sericteries (special salivary glands). Pushed through a spinneret (opening on the mouth), the twin pair of continuous threads harden when they come into contact with the air. Next, the silkworm secretes sericin, a bonding agent, from two other glands to hold the two filaments together. While constructing its cocoon, the silkworm will twist in a figure-8 motion about 300,000 times and produce around 1 kilometer of filament.
Since hatching from the cocoon destroys the thread, to harvest the silk, the cocoon is placed in either boiling water, or blasted with steam or hot air, all processes that kill the pupae. Less lethal methods were tried in the past, such as pulling the silk as the worms spun it, but the worms resisted and bit off the filaments (the longest thread harvested in this way was just 6 meters).
Besides killing the pupae, the heat softens the binding agent (sericin), so that the filaments may be unwound. Sometimes, the softened sericin is left on the fibers, and this product is called raw silk. In the end, it takes the deaths of about 2500 caterpillars to make a single pound of raw silk.
From there, raw silk strands are twisted together until a fiber of sufficient strength for knitting or weaving is produced, and different twisting methods produce a different type of thread: crepe, thrown, tram, organzine or singles. Crinkly fabrics are made with crepe, while sheer cloth is made with single thread. Spun silk is comprised of broken filaments that have been processed into a yarn.
To get the billions of cocoons necessary to have a viable silk industry (by some estimates, about 10 billion each year), the worms are cultivated. Called sericulture, it begins with female moths, each laying about 300-400 pin-sized eggs, shortly after which they (the moths) die. The eggs are incubated for 10 days. When they hatch, they are still tiny (about ¼ inch). Gluttons, they feast on mulberry leaves (although lesser-quality silks are made from silkworms that eat Osage orange and lettuce). After about 6 weeks of constant eating, the silkworm has grown to about 3 inches in length, weighs nearly 10,000 times what it did when it hatched and begins to work on spinning its own grave.
Although a few other plants are fed to silkworms, the mulberry has always been associated with its production. In fact, when the Emperor Justinian first stole the means of silk production in the 6th century AD (according to legend, he had two monks smuggle some eggs out of China), he also pinched a few seeds of the mulberry tree.
Prior to that, the Chinese had carefully guarded the secret to silk for millennia. According to Chinese records, the technique was discovered by Si-ling-chi (aka Leizu), the wife of the “Yellow Emperor” Huang-ti, about 2,700 BC. By some accounts, she found the secret after a silkworm cocoon fell into her cup of tea, and as she pulled it out, she realized she could unravel its exquisite thread. Of course, it may have been discovered by someone else, perhaps a lowly tailor, with the empress simply taking (or being given) credit for it. Whatever the case, so important was this discovery that she was later deified and given the name, Seine-Than, meaning Goddess of Silk Worms; and the silk she supposedly discovered became so crucial to international trade, that it lent its name to the great East-West route, the Silk Road.
Today, China still leads the world in silk production, responsible for about 58,000 tons each year or about 74% of the world’s supply of raw silk. Not wasted, in many places the leftover dead silkworms are seasoned, boiled, fried and eaten.
Still, things may be looking up for the humble silkworm. Some kindly researchers have recently discovered a method to harvest long filaments without killing the creature. Noticing that when injured the caterpillar will engage in self-paralysis in order to give itself time to heal, the scientists found a way to isolate the biochemical used by the insect to reach that state. By extracting it and injecting it into healthy worms, the researchers were able to induce partial paralysis, after which, one end of the worm’s silk was attached to a slowly winding reel, which successfully gathered the silk. In its paralyzed state, the worm was unable to bite off the thread (as it otherwise would do). The record for gathering silk this way is 500 meters, or about half of that acquired through the traditional method.
Since hand-injecting billions of silkworms is beyond unrealistic, to turn this process into a commercial reality, the researchers are looking into ways to genetically modify silkworms so that the paralysis can be triggered by manufacturers “on demand.”
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Bonus Fact:

Indian Red Scorpion


Indian Red Scorpion


Fuzzy Doesn’t Mean Friendly: Red Velvet Ants

Fuzzy Doesn’t Mean Friendly: Red Velvet Ants

Fuzzy Doesn't Mean Friendly: Red Velvet Ants


image credit: EugeneNatureObserver
Red Velvet Ants, Dasymutilla aureola pacificaimage credit: mrnickon
Red Velvet Ants, Dasymutilla aureola pacificaimage credit: sjb5
Red Velvet Ants, Dasymutilla aureola pacificaimage credit: arthurevans.wordpress.com
Habitat: occur worldwide, with some 5000 species, mainly in the tropics.
Status: No conservation concerns
These colorful, fuzzy Red Velvet Ants (Dasymutilla aureola pacifica) aren’t really ants at all – they’re wasps! The females lack wings which makes them resemble ants… definitely had me fooled.Their name “velvet ant” does refer to the wasp’s dense hair which comes in a variety of colors, including white, blue, gold, black, silver, and red as show in this subspecies. The vivid coloration serves as a warning to other animals that these wasps aren’t exactly friendly. In fact, they’re also known as cow killers because their sting is said to be “strong enough to kill a cow,” although this isn’t actually the case… it just really hurts!The earliest-known velvet ants are specimens from the Dominican Republic preserved in amber some 25 to 40 million years ago.



Sunday, September 7, 2014

Creative, Innovative and Cool Bookmarks

Creative and Cool Bookmarks.

Collection of ‘Creative and Cool Bookmarks’ from all over the world.

Pointing Finger: "It's just like a highlighter, whether the book is written from left to right or top to bottom, as long as you "point" the finger symbol where you finish, next time you want to read, you can find where you read to right away. It easily solves the weakness of regular bookmarks not being able to accurately point out which line was read to."

16 Creative and Cool Bookmarks (18) 1Green Leafs Bookmark: Brought to you by Yuruliku, it brings greenery to your bookshelf.

16 Creative and Cool Bookmarks (18) 2Cook Bookmark: This clever bookmark is sure to provide quick access to your favorite recipes while keeping cookbook pages clean.

16 Creative and Cool Bookmarks (18) 3Mark-My-Time Digital Bookmark: These are designed to monitor the reading time of your kids and keep track as to how long they have been studying.

16 Creative and Cool Bookmarks (18) 4Cool Bookmark:

Save Bookmark: Creative paper bookmark with a Save icon on it; creation of graphic designer Igor Rogix Udushlivy, this bookmark was part of his iconote concept.

16 Creative and Cool Bookmarks (18) 6Liquid Bookmark: Each of these bookmarks is hand-made by the designer, which makes each design completely unique.

16 Creative and Cool Bookmarks (18) 7DIY Bookmarks: Learn how to make your own bookmark - details.

16 Creative and Cool Bookmarks (18) 816 Creative and Cool Bookmarks (18) 9Bookmark II: A clever idea, with a simple rubber band with an indicator that wraps around a book and show the last line you were reading.

16 Creative and Cool Bookmarks (18) 10Booklight Bookmark: This handy device functions as a bookmark and also a portable reading light.

16 Creative and Cool Bookmarks (18) 11Beaded Wire Bookmark: Make your own beaded wire bookmark - details.

16 Creative and Cool Bookmarks (18) 12Favbook Bookmark: "The lens is made from high quality durable plastic, frame of silver."

16 Creative and Cool Bookmarks (18) 13MARK Bookmark: Creative concept bookmark by designer Avnish using FOLED technology. At night it lights up and covers the area you're reading.

16 Creative and Cool Bookmarks (18) 14Abracadabra Puffy Bookmark: "The Abracadabra contains an air-filled chamber, half of which is flattened by the weight of a book. Squeezing the exposed side inflates the concealed side lift the page just enough for your finger to slip in."

16 Creative and Cool Bookmarks (18) 15Hands Bookmark: "It appears to look like people that have been stuck between your pages."

16 Creative and Cool Bookmarks (18) 16Feather Bookmark: This one is designed to be used as a USB drive and a bookmark; comes with 2GB of storage.

16 Creative and Cool Bookmarks (18) 1716 Creative and Cool Bookmarks (18) 18


Beautiful and Innovative Bookmarks.

These beautiful bookmarks and innovative bookmark designs are sure to add some spice to your reading.

Night Light Bookmark: This lamp designed for night reading shuts off automatically when covered with a book while at the same time it works as a very intuitive bookmark.

Beautiful and Innovative Bookmarks (15) 1Cute and Clever Magnetic Bookmarks: These cute magnetic origami bookmarks bend backwards to hold your page for you.

Beautiful and Innovative Bookmarks (15) 2Skyline Bookmark: Metal skyline bookmark designed by I Kwong.

Beautiful and Innovative Bookmarks (15) 3Terminix Magazine Bookmark: This clever bookmark comes from the magazine advertisement of 'Terminix'.

Beautiful and Innovative Bookmarks (15) 4Lili Lite: It's a night lamp, bookshelf and bookmark in one; to turn off the light, you'll have to put an open book on the shelf and the light will turn off for you. And when the book is picked up again, the light automatically turns on.

Beautiful and Innovative Bookmarks (15) 5Note Bookmarks: Bookmarks in the shape of petals from a flower by Hana Fusen.

Beautiful and Innovative Bookmarks (15) 6P-Hook Bookmarks: These clever hooks are good as bookmarks and it makes easier for you to pull out the books from bookshelf.

Beautiful and Innovative Bookmarks (15) 7Wall Bookmark: A brilliant combination of a bookshelf and bookmark in one.

Beautiful and Innovative Bookmarks (15) 8Bookmark For Children: This bookmark comes from the advertisement of Children foundation, Turkey.

Beautiful and Innovative Bookmarks (15) 9Great Book Cover and Bookmarks: Clever bookmarks created to let the readers know what the book holds for them.

Beautiful and Innovative Bookmarks (15) 10Bunny Bookmarks: These cute bookmarks are made out of paper with adhesive backing, making it easy for you to write a brief note and pick up exactly where you left off.

Beautiful and Innovative Bookmarks (15) 11Flat Bookmark: This bookmark reminds of the old days of pressed flowers and old receipts used as bookmarks.

Beautiful and Innovative Bookmarks (15) 12Photo Bookmark: Cool to look, simple to make; all you need is a ribbon and a photograph.

Beautiful and Innovative Bookmarks (15) 13Bookmarker: It's a bookmark, book strap and pen all in one easy to carry object.

Beautiful and Innovative Bookmarks (15) 14Corner Bookmark: A creative way to re-use old envelopes by cutting the corners to make bookmarks.

Beautiful and Innovative Bookmarks (15) 15


Tuesday, September 2, 2014

invertebrate animal phylum Arthropoda