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Amazing Facts About Your Senses

Sight, hearing, taste, touch, and smell: Our five senses are what help us make, well, sense of the world around us. But scientists are still discovering how they workand how you can sharpen yours. Read on for a comprehensive look at the new science of your senses.

source: PARADE


SIGHT

The human eye is an exceptional tool for gathering light; it can distinguish among 500 shades of gray and spot the light of a candle 14 miles away. But for all the eye’s extraordinary ability, seeing is a function of the brainhumansvisual cortex is more developed than that of any other mammal. Vision demands that the brain differentiate foreground from background, and edges from linesskills that even the world’s most powerful computers have been unable to match. Your brain makes sense of shapes and symbols by putting them together like a jigsaw puzzle, organizing fragments into a coherent whole. (Movies work because the brain stitches a ­series of frames into an unbroken stream.) We develop this ability as infantswhich explains why patients who grew up blind but have had their sight restored often struggle to understand what they are seeing: Their brains can’t initially distinguish an object from its background, or accurately separate two over­lapping objects. (A chair and desk would be perceived as a single flat image, like an abstract painting made of rectangles.) Optical illusions work by exploiting the mind’s tendency to try to find order in patternsa face in the pockmarks on a cement wallor make sense of an impossible image, like the endless climbing staircase in an Escher drawing.


HEARING

In south sudan, near the border with Ethiopia, a tribe known as the Mabaan reportedly live in a place of such quiet that their ability to hear has become astonishingly acute. Legend has it that even the oldest Mabaan can make out the words of another tribesman whispering to him from across a wide field. In theory, at least, any one of us could do the same, provided we spent our lives similarly sheltered from noise. At birth, our ears are pristine organs, capable of discerning among more than 300,000 sounds. (After years of exposure to loud noises, the hair cells on the cochlea, in the inner ear, flatten, becoming less sensitive.) Yet even as we age, our eardrums remain finely tunedthey can pick up sounds so faint that the eardrum itself moves a distance less than the diameter of a hydrogen molecule. (This sensitivity developed to protect us from predators.) Our brain processes sounds a thousand times faster than images and registers sounds even as we sleep. This constant bath of noise affects everything from our concentration to our health. Researchers have found that living in loud areas can raise blood pressure by an average of 5 to 8 percent. Even our ancestors understood how sound could damage as well as delight: The word noise comes from nausea, the Latin word for sickness. But sound can also be a positive force. A study conducted on ­premature infants, for instance, found that they were able to leave the hospital sooner if soft music was played while they slept.


TASTE

Taste, designed in part to help us reject harmful foods, has long served as the body’s primary defense against poison. As befits its role, the system is lightning fast: The body can ­detect taste in as little as .0015 seconds, compared with .0024 seconds for touch and .013 seconds for vision. To be tasted, food molecules must fall into a cluster of cells called a taste bud, more than 10,000 of which are spread over the tongue, palate, and inner cheek. The taste bud sends a signal to the brain, which then determines everything from whether a food tastessafe”—which in most cases means it’s not too bitterto whether we enjoy it. In a part of the brain known as the anterior cingulate, tastes get married to an emotional reaction: disgust for rotten meat, say, or delight for a sweet strawberry. But while some tastes are innate—nearly all humans are born with a sweet tooththere’s also evidence that taste can be nurtured. Studies have shown that babies prefer foods they firsttastedin the womb, or while nursing. (Traces of certain flavors, including garlic and vanilla, turn up in amniotic fluid, and also in breast milk.) More recently, food scientists have found ways to manipulate our likes and dislikes. One chemical, extracted from a West African fruit, binds to taste receptors in a way that makes even the sourest lemon taste as sweet as lemon pie. Food scientists have jumped on the discovery, scrambling to devise additives that would trick our taste buds into perceiving sweetness in the absence of actual sugar.


TOUCH

Of all your senses, touch is the most difficult to fathom doing without. With hundreds of nerve endings in every square inch of skin, your body functions like an antenna, receiving a constant stream of information ranging from the firmness of the chair you’re sitting on to the heat of the sun through the window. Touch is the first sense we develop in utero, and it is crucial to survival. Babies can die from lack of it, and as adults, touch helps to protect us from harm. Some nerves are specialized to feel texture and pressure, others to detect temperature or register pain. Nerves known as proprioceptors sense the position of our body parts in spaceenabling us to cross our arms with ease, or lean out a window without falling. But touch influences us more subtly as well. A recent study from Yale University found that people seated on soft chairs during mock negotiations with a car dealer were likely to make an offer several hundred dollars greater than people who were seated on hard chairsa sign of how the brain ­interprets comfort (the physical sensation) as evidence of broader well-being.


SMELL

Smell may be our most evocative sense. Studies have shown that people can recall a scent with 65 percent accuracy after one year; visual memory sinks to 50 percent after just a few months. And because smells are processed by the same part of the brain that handles memories and emotionsthe temporal lobe—we respond to them with rare intensity. Decades later, a passing scent may summon a memory of our first-grade classroom, one so vivid that we seem transported across time and space. Though not on a par with our canine friends’, the human nose is still something of a marvel. An ordinary person can pick up a whiff of skunk when the amount of scent in the air is less than one ten-trillionth of an ounce. The nose can also determine where a smell is coming from, pointing youfor better or worsetoward the source. Still, our sense of smell is deeply individual: Some people can’t smell mushrooms; others can’t sniff out freesia. These differences are mostly genetic, but ­simpler thingssmall physiological changes and factors like mood and medication (antibiotics, statins, and blood pressure drugs can all affect our sense of smell)—enhance or diminish our ability to detect odors. In fact, it’s believed that we never ­experience a smell the same way twice, since the sensitivity of our nose changes from hour to hour and day to day.