Listening to your Hair

"Hair is an extension of the nervous system.  Whether it actually transmits important information to the brain remains an open question, but some studies of our mammalian relatives raise intriguing possibilities."

Give me a head with hair, long beautiful hair


Shining, gleaming, streaming, flaxen, waxen


Give me down to there, hair, shoulder length or longer


Here baby, there, momma, everywhere, daddy, daddy


Hair, flow it, show it


Long as God can grow, my hair

— Rado, Ragni and Gerome, Hair

Of all five major senses, tactile perception is the least understood. Some two dozen unique types of nerve endings pass through the skin of mammals. How and what they detect, how they code and transmit signals to the brain, and how those signals are decoded and used are still only poorly understood.

How does a three-foot long cell, such as one of the neurons that run from your big toe to the ganglial clusters near your spine, tell you nearly instantly that a mosquito is about to bite the tip of that toe, or that a slight, warm breeze just blew in through a crack in your door?

One way — that we are just coming to find out about — is through arrayed antennae, seemingly dead cellular structures (keratin proteins) that we have long been calling, regardless of cell type or location, simply, “hair.” In actuality, “hair” is a complex matrix of distinct cooperating structures that include the part under the skin — the follicle — which is an organ that contains stem cells that can be tasked to make either more follicles or dermal cells, such as regrowing skin after a wound; the shaft (see cross-section); and an outer coating of sensory cells. We have been growing these structures since we were lizards.

Humans are the only primate species that have undergone significant hair loss and of the approximately 5000 extant species of mammal, only a handful — elephants, rhinoceroses, hippopotamuses, walruses, pigs, whales and most other cetaceans, and naked mole rats — are effectively hairless.

Black Elk

What we gave up in camouflage, protection from cold or UV radiation, and a barrier to wounds, we gained in the ability to sweat and to make Vitamin D, something we needed when we were forced by climate or inhospitable neighbors to migrate poleward, where winters were long and days were short.

A recent post getting some replay is The Truth About Hair and Why Indians Would Keep Their Hair Long from Signs of the Times. The author, C. Young, writes:

It seems that during the Vietnam War special forces in the War Department had sent undercover experts to comb American Indian Reservations looking for talented scouts, for tough young men trained to move stealthily through rough terrain.

Bill and Hillary

They were especially looking for men with outstanding, almost supernatural, tracking abilities. Before being approached, these carefully selected men were extensively documented as experts in tracking and survival. 



With the usual enticements, the well-proven smooth phrases used to enroll new recruits, some of these Indian trackers were then enlisted. Once enlisted, an amazing thing happened. Whatever talents and skills they had possessed on the reservation seemed to mysteriously disappear, as recruit after recruit failed to perform as expected in the field. 


Serious causalities and failures of performance led the government to contract expensive testing of these recruits, and this is what was found. 


When questioned about their failure to perform as expected, the older recruits replied consistently that when they received their required military haircuts, they could no longer 'sense' the enemy, they could no longer access a 'sixth sense', their 'intuition' no longer was reliable, they couldn't 'read' subtle signs as well or access subtle extrasensory information. 


So the testing institute recruited more Indian trackers, let them keep their long hair, and tested them in multiple areas. Then they would pair two men together who had received the same scores on all the tests. They would let one man in the pair keep his hair long, and gave the other man a military haircut. Then the two men retook the tests.

Time after time the man with long hair kept making high scores. Time after time, the man with the short hair failed the tests in which he had previously scored high scores.

Regrettably there is scant evidence offered to back up these claims, so they remain in the realm of internet fable. A search of Google science comes up with a dearth of research on sensory perception and hair. The central grain of truth, however, is that hair is an extension of the nervous system.  Whether it actually transmits important information to the brain remains an open question, but some studies of our mammalian relatives raise intriguing possibilities.

Batman: The Beginning

Bats are the only mammals capable of powered flight, and they perform impressive aerial maneuvers like tight turns, hovering, and rapid acceleration and deceleration. They fly in nearly complete darkness employing sonar navigation and can fly through areas of high turbulence with astonishing stability. Their wing, which is a bony webbed-hand with five fingers joined by a membrane, is covered with stiff, domed micro-hairs. When scientists began looking at the motor control and aerodynamic feedback employed by bats, using wind tunnels, they discovered just how important their hair was.

 

Mosquito

Using a scanning electron microscope, neuroscientists at the Universities of Maryland and Ohio found that both types of bats they studied, big brown bats and short-tailed fruit bats, had two types of hair: a long (up to several millimeters), relatively thick type close to their ventral forearm, around the leg, and on the tail membrane; and a second type along the trailing edge of the wing made of single-cell strands of follicle — 200–900 nm at tip — which are invisible to the naked eye. With tests involving mazes and high-speed IR-sensitive video cameras, brown bats were trained to fly through an artificial forest of simulated tree trunks, relying on echolocation, to be rewarded with a tethered meal-worm.  Fruit bats were trained to fly through openings in a net maze and were rewarded with bananas. The researchers found that their hair not only aided the bats in flight control, detecting air velocity, wind direction, vortices and potential stall conditions, but also fed their brains sensory information about the configuration of the maze. When their wing hair was removed by depilatory cream, the bats could still fly, and still went after their food rewards, but they negotiated the turns much more widely and stayed farther away from the walls of the maze.

The researchers noted that bats are not unique in these attributes, saying “in mammals, tactile hairs are usually located on the head in the form of sinus hairs (e.g., whiskers) … Sinus hairs on other body parts have been described only for the manatee. The authors suggested that the sparsely distributed hairs on the manatee’s body could form a lateral line system analogous to that of fish and amphibians, where it serves to detect water currents surrounding the animal’s body.”

The bat was somewhat unique among mammals in that it grew its hairs on its “fingertips” whereas in primates, rodents and other non-hoofed mammals, fingers and toes are hairless.

Consider your ear

The bones of the middle ear are connected to the inner ear, or cochlea where the auditory nerve is stimulated. As can be seen in the drawing, the cochlea is a tightly coiled portion of the ear, like a snail’s shell. It is liquid-filled, but projecting up into it are very tiny hair cells that may be stimulated by activity of the liquid within which they are set and the basilar membrane on which they are mounted. Most physiologists have assumed that, since hair is “dead” keratin, it is the bending of these hair cells that fires the auditory nerve. Maybe, maybe not. The effect is to translate a sound vibration transmitted through air or fluids into an electro-chemical impulse headed for your brain. As the number and rate of auditory nerve cells firing increase, perceived loudness increases. Different cells fire to reflect difference in frequency; the combination of cells firing determines the perceived timbre.

Electromagnet imaging of brainwaves

Bob Marley's dreads

Central to the auditory perception, however, is hair. The range of sound pressures which can be perceived is remarkable — a 1-million-fold range in humans, and wider still in other animals, with detection thresholds lowest at 1,000-6,000 Hz but increasing at both higher and lower frequencies. A frequency shift of as little as 2 percent can be detected. Our head cocks to time the arrival of the stimulus at each ear, and with only slight difference in arrival times (3/10000ths of a second), and filtering out wind, echo, and distracting sounds, we can localize the point of origin. We do that with our tiny ear hairs. Something analogous, although not quite the same as hair cells, happens with our senses of taste and smell (olfactory epithelium).

So, the big question is, what do we sense with our hair? Can we detect others nearby in darkness, or beyond our range of view? Can we sense more than we think we can? Should we be cutting it off, or should we be letting it grow?

References:

Susanne Sterbing-D’Angelo, Mohit Chadha, Chen Chiu, Ben Falk, Wei Xian, Janna Barcelo, John M. Zook, and Cynthia F. Moss, Bat wing sensors support flight control, PNAS Early Edition (2011) www.pnas.org/cgi/doi/10.1073/pnas.1018740108

Antonio Damasio, The quest to understand consciousness, TED 2011, Long Beach, CA (Feb 2011)
 

Medicine Story's Berlin Meditation

"I think we are here to be helpful. We do need to help life in general, the environment to sustain life, but the biggest job seems to be helping each other. We are here to help each other. That’s it, as far as I can tell. That’s what it is all about, plain and simple. All of morality, religion, justice, law, education, arts and sciences, what’s behind everything human beings do, our most basic instruction, is helping each other."

Saturday our friend Manitonquat (Medicine Story) sent us this reflection that we’d like to share. Manitonquat, a former Farm resident and sometimes Christiania resident is a Wampanoag elder teaching in Green Mountain College and working with Native Peoples in and out of prison. He is now writing a book about childcare. We have trimmed the size of his post to better fit this space. The longer version will be available in his Talking Stick Newsletter and in his book. 

Saturday, February 4, 2012, 7:48 PM

Circle Way, Greenville, New Hampshire

Medicine Story, photo by Albert Bates,
The Farm News Service, 2009

This is a summary, as I recall it, of what I said at a small circle in Berlin two weeks ago. I would like to make it a circle with all of you, here in cyberspace so you can read it, take the stick and respond if you choose by email.

I would like to open this circle, as always, by giving thanks to our Mother the Earth, to all her family – our plant, animal and human relatives, to all the unknown relatives in the large family of the Universe, and to the Mystery that is responsible for all of that and for our own miraculous gift of life.

I am so grateful every morning when I waken from my generally intense and interesting dreams and rejoice in the amazing fact that I am alive again. 

I wanted to tell you all what I think we are doing here. In this life on Earth, I mean. This is a basic question that only human beings can ask, and it seems we have a need to do so and decide what our lives might be all about. What are we doing here? What is this incredible gift of life about anyway? What is its purpose? We all have to answer that question for ourselves, but I want to share with you what my answer to that is.

I think we are here to be helpful. We do need to help life in general, the environment to sustain life, but the biggest job seems to be helping each other. We are here to help each other. That’s it, as far as I can tell. That’s what it is all about, plain and simple. All of morality, religion, justice, law, education, arts and sciences, what’s behind everything human beings do, our most basic instruction, is helping each other. When we get away from that – in morality, religion, justice and so on, we start to mess it all up. When we forget that everything we do is to make life better for each other (which makes it better for us) we get away from the simple purpose of our lives. The purpose of all morality, religion, law and justice, of all institutions, politics and economics is supposed to be just to make life better for us, for people.

I see that human beings have an inherent need to be helpful. We are born that way. It comes through evolution, through a hundred thousand years of becoming human by being in circles to protect and support each other.

It comes because those circles had the job of caring for babies, and human babies take longer to grow to where they can care for themselves than any animal. Its part of what makes us human, helping babies grow and caring for them. For fifteen or twenty years we learn to love and care for and help them. The years of caring for children are at least that long and it affects us. It makes us concerned, compassionate, tender and loving. The babies teach that to us, because they have started to love right there in mama’s womb and they need us and love us and want to connect deeply with us. That’s where our “humanity” comes from. And it reaches out from the parent to the family to the clan to the whole circle, the community, the village or the tribe. So we are born wanting to be helpful, we are born cooperative and caring and compassionate. And when we stick together it grows. Fear, anxiety, separation, loneliness reduce our caring and our humanness, our human response to life. So that is part of what we have in our genes coming into the world.

A stranger falls in the street and we run to help. We hear a cry and look to see if someone needs help. The most hardened criminals in our circles all want to be helpful. When we hear stories of people who pass by and turn a deaf ear to cries for help, we all shake our heads. How could they? That is not human, we agree.

When I lived in New York City I was wakened by a woman;’ scream around in the morning. I leapt from bed without thought and started for the door, my wife screaming to put on pants, which I did, feeling foolish about it. I met the superintendent outside and together we raced upstairs in the net building where a woman was screaming that she had been attacked in bed by a man who had come in her open window. I went up the fire escape and he went up the stairs and we caught the man on the roof and held him for the police. I am not especially brave, I acted only without thinking. Someone desperately called for help, and I felt very good about my natural human reaction to that.

Morning Circle, UN Climate Conference Windows of Hope,
Christiania, Copenhagen, Denmark, 2009

It is this inherent need and purpose of human beings to be helpful that informs the Original Instructions which our elders transmitted to us from their elders: respect for all Creation, for individual lives, and the supporting of those lives through the circle, and giving thanks which brings everyone joy.

There are consequences to be considered if it is indeed our basic human need and purpose to be helpful. One important consideration is connection: to get as close as we can to one another. To get as close to as many of us as we can manage. To communicate our needs, as Rosenberg says in his non-violent communication teachings, and to listen with care to everyone, to invoke our natural caring and compassion and see how we can help each other.

When I am not doing so well at that I usually realize it. I need sessions to discharge on what is getting in the way of my being completely close with others (and also to affirm that I am a good man who struggles with patterns like everyone and that I am doing the best I can at all times). Then I review for myself all the ways in which I am being helpful, the things I manage to accomplish that actually achieve some good in the world.

Another consideration is to notice how our patterns, born of fear, urge us to isolate ourselves from each other or to form cliques and in-groups and separate our group from others, creating bigotry, racism, chauvinism and all other oppressions.

And so the major thrust of my life is and has been to bring people together, to reach across the walls and boundaries to other people. … I am falling in love every day, with old friends, new friends, complete strangers, with my sons and their partners, with my wife. The closer I get to everyone, the more I listen to them and open myself, the more my heart expands and the more love I feel for them. There is joy in that feeling and also pain sometimes, but I have you to share it with so all is well. More than well. It is splendid.

So what is it with your circle? Is it hard to get everyone together there? Well, of course it’s a problem with all circles in our stressful unsupportive culture. It’s our patterns of isolation, discouragement, stress, confusion. Not our fault. Not your fault. I have a fine circle here, but I have to push myself to go sometimes. I feel overwhelmed with work, not enough time. But then I remind myself that being in the circle, listening and helping others with my caring and my perspective outside of their patterns, feeling the support and encouragement of others, all that will give me strength, focus my thoughts and my will and help my work. But most of all I will feel helpful, and that reminds me who I really am.