Saturday, May 5, 2012

Unit 4 Compilation


         Table of Contents
The Digestive System and Nutrition
          The Digestive System
                    The GI Tract          
          The Five Processes for Digestion
                    Types of Motility
          The Mouth
                    Teeth
                    The Tongue
                    Saliva
          The Pharynx and The Esophagus
          The Stomach
                    Gastric Juice
                    Stomach Contractions
          Small Intestine
          Other Digestive and Absorption Organs
                    Pancreas
                    Liver
                    Gallbladder
          Large Intestine
          How Nutrients Are Absorbed
                    Proteins and Carbs
                    Lipids
                    Water Absorption
                    Vitamins and Minerals
          Endocrine and Nervous System Regulate Digestion
                    Volume and Content of Food
                    Nutrients
          Nutrition
                    MyPyramid
                    Carbohydrates
                    Lipids
                    Proteins
                    Vitamins
                    Minerals
                    Fiber
          Weight Control
                    BMR
                    Physical Activity
          Digestive System Disorders
                    GI Tract Disorders
                    Accessory Organ Disorders
                    Malnutrition
          Eating Disorders
The Nervous System
          The Nervous System Has Two Parts
                    Neurons
          Neuroglial Cells
Transferring Information
Sensory Mechanisms
          Receptors Receive and Convert Stimuli
                    How Receptors are Classified
                    CNS Interprets Nerve Impulses
                    Receptors Adapt to Continuing Stimuli
          Somatic Sensations and Special Senses
          Somatic Sensations
                    Mechanoreceptors
                    Thermoreceptors
                    Pain Receptors
          Vision
                    Eye Structure
                    Light and Focusing
                    Eye Shape
          Sensory Disorders
                    Disorders of the Ears
                    Disorders of the Eyes
Human Impact on the Environment
          Pollution and Air Quality
                    Global Warming
                    Ozone
                    Acid Precipitation
                    Smog
          Pollution and Water Supplies
                    Water is Scarce
                    Water Runoff
                    Pollution of Fresh Water
                    Groundwater Pollution
                    Oil Pollution
          Pollution Damages Land
          Works Cited
The Digestive System and Nutrition
The digestive system is the process food goes through after you eat it so that your cells can get the nutrients they need. Food goes through a process where it is broken into very small pieces and then is digested using enzymes and chemicals. It then makes its way through the body. As it makes its way through the body, nutrients are absorbed where needed. Whatever is leftover will be eliminated from the body. Eating healthy foods are necessary for the body to get the nutrition it needs. Not eating a healthy diet can lead to some diseases and being overweight.
          The Digestive System
digestive system
(Learning.Com)
The digestive system is made up of the mouth, pharynx, esophagus, stomach, small intestine, large intestine, rectum and anus. They make up the gastrointestinal tract, which is a hollow tube. One of the jobs these organs perform is getting the needed nutrients to the body. The salivary glands, liver, gallbladder and pancreas are also part of the digestive system and are accessory organs.


                    The GI Tract
The walls of the GI tract are made from four layers of tissue. The deepest tissue layer is the mucosa. Every nutrient goes through the mucosa when it enters the blood. The next layer is sub mucosa, a connective tissue that has blood vessels, lymph vessels, and nerves in it. The parts of food that go through the mucosa enter the blood and lymph vessels here. The third layer is the muscularis. This is made of smooth muscle layers and allows movement and motility. The outside layer is the serosa. It protects the other layers and fastens the GI tract to the wall of the body cavity. A circular muscle referred to as sphincters separates some of the organs in the GI tract y closing off the passage way between the organs.
                    The Five Processes for Digestion
There are five processes that happen for food to be digested and the nutrients to be absorbed. The first step is mechanical processing and movement. This is when food is chewed into small pieces and moved forward. The second process is secretion. This is the digested enzymes, acid, alkali, bile and mucus being secreted to the GI tract and some hormones that help with digestion being secreted into the blood. Digestion is next and this is when the content that is in the lumen is broken down until is results in nutrient molecules. The fourth process is absorption and happens when the nutrient molecules enter the blood or lymph. And the last process is elimination and is the undigested food is passed out of the body through the anus.
                    Types of Motility
There are two kinds of motility that occur in the GI tract. Peristalsis is one of them and it pushes food forward. The way this works is a lump of food stretches the GI tract which causes the muscle behind it to contract. The contracting muscle pushes the food forward. That part of the muscle now relaxes and the next part contracts. This happens in all parts of the GI tract. The other type of motility is segmentation. Segmentation mixes food together by short sections of muscle contracting and relaxing. This causes the food in the lumen to be mixed together by the back and forth movement it creates. This happens mostly in the small intestine.
          The Mouth
The mouth is where food enters the GI tract. The mouth starts the digestive process begins with the food being chewed and broken into smaller pieces until it is able to be swallowed.
                    Teeth
Teeth are located in the mouth and are what is used to break the food into pieces small enough to be swallowed. There are four types of teeth. Incisors have sharp edges to help cut food. Canines are pointed teeth that help to tear up the food. Premolars and molars have a flat surface and grind and crush the food. Children have 20 teeth and adults usually have 32. Teeth have two parts, the root, which is below the gum line and the crown that is above the gum line. The crown is surrounded by enamel which is made of calcium and phosphate and is not living. Under the enamel is dentin which is like bone and is living. There is an inner pulp cavity where there are blood vessels and nerves. There are a lot of bacteria in the mouth that thrives on pieces of food that are in between the teeth. This releases acids that eat away at the enamel and cause cavities. If the decay is not treated, it can cause inflammation in the gum tissue and is called gingivitis. This can cause inflammation in the periodontal membrane and lead to periodontitis. Good dental hygiene and seeing a dentist regularly can prevent dental problems from becoming serious.
                    The Tongue
The tongue is a muscle that helps move food over the teeth so that it can be chewed into smaller pieces. It also smashes food up by placing it between it and the roof of the mouth. The tongue muscle is surrounded by mucous membrane and we can control its movement. The tongue also helps with speech and gives us a sense of taste.
                    Saliva
There are three pairs of salivary glands and they make saliva which is a watery fluid. They are the parotid gland that is located by the back of the jaw, the sublingual gland that is located under the lower jaw, and the submandibular gland that is below the tongue. Some things saliva contains are mucin, salivary amylase, bicarbonate, and lysozyme. Mucin is a protein and it helps chewed up food be swallowed easier because of its mucus like substance. Salivary amylase starts digesting carbohydrates. Bicarbonate keeps the pH of the mouth where it needs to be, between 6.5 & 7.5 and might protect teeth from bacteria. Lysozyme stops bacteria from growing.
          The Pharynx and The Esophagus
Once food has been chewed up and mixed with the saliva the tongue pushes the food into the pharynx where it is swallowed. When you swallow, there is a series of events that take place. First the food enters into the pharynx. When food enters the pharynx, it stimulates receptors and the second event takes places. The second event is called the swallowing reflex. The soft palate raises enough so that the passage into the nasal cavity is closed off. The larynx also rises during this process. The epiglottis closes off the airway so that food does not enter the airway. The tongue pushes the food back even more so that it goes into the esophagus. Once you start to swallow something you cannot stop the process. The esophagus is just past the pharynx and is made of skeletal and smooth muscle and connects the pharymn to the stomach. The esophagus makes mucus so that food can go down easily. Peristaltic contractions and gravity move the food through the esophagus. The base of the esophagus, the sphincter, opens so that food can enter into the stomach then closes back off. The sphincter sometimes doesn’t work properly and stomach acid enters the esophagus, a condition known as acid reflux. Acid reflux causes a burning felling called heartburn. Hitatal hernia can also cause acid reflux. Extended acid reflux can lead to ulcers in the esophagus so it is important to seek medical care.
          The Stomach
 The stomach expands when we eat and shrinks when it is empty. The stomach has three jobs that are essential. One of its jobs is to store food until it can be digested. Digesting food is the next job. This is done with acid and protein digesting enzymes. The stomach muscle contracts and mixes the food with the acid and enzymes which helps in breaking down food. The acid also kills bacteria. The third job of the stomach is sending the food to the small intestine at the correct rate.
                    Gastric Juice
The stomach wall has four layers which are mucosa, submucosa, muscularis and serosa. The mucosal later has millions of small openings. These openings are called gastric pits and they go to gastric glands. The cells that are around the gastric glands make hydrochloric acid, mucus, pepsinogen, intrinsic factor or gastrin. Pepsinogen turns into pepsin which is a protein digesting enzyme when it comes into contact with stomach acid. Hydrochloric acid, mucus and pepsinogen are called gastric juice.  Most stomach fluid is made right after eating. The pepsin and acid digest proteins and peptides into amino acids. Once this is done they are able to be absorbed into the intestine. The gastric fluids mixed with the food is produces a product called chyme when it goes into the small intestine. There is a pyloric sphincter that separates the stomach and small intestine and manages the speed at which chyme enters the small intestine. The cells in the stomach and gastric glands are always making mucus to protect them from being harmed by the acid. If for some reason the mucus becomes weakened, a peptic ulcer may form. These are open sores that are found in the esophagus and upper small intestine. Intrinsic factor is a protein and its attaches to vitamin B12 and is absorbed by the small intestine. Gastrin is a hormone that goes into the bloodstream.
                    Stomach Contractions
Your stomach is kept small when it is empty by the stomach contracting. After you eat the stomach stretches and the contractions stop. When the stomach stretches it is the signal for peristalsis to start. This pushes the chyme forward and backward and each time there is a contraction chyme enters the small intestine. These contractions occur every 15-25 seconds. Peristalsis is more powerful right after you eat and slows down as food goes out of the stomach.
          Small Intestine
Once chime enters the small intestine the digestive process continues. Proteins, carbohydrates and lipids are digested in the small intestine. The intestine and pancreas add enzymes that digest food so this can happen. The proteins, carbohydrates and lipids are turned into small amino acids, monosaccharides, fatty acids and glycerol and are able go through mucosal cells and enter the blood. The small intestine has three parts. The duodenum is where most of the digestion happens. The other parts are the jejunum and the ileum and this is where absorption mostly happens.
          Other Digestive and Absorption Organs
                    Pancreas
The pancreas is behind the stomach and has a couple of different jobs. One is it makes hormones that help keep blood glucose levels constant. It also makes different digestive enzymes that help with digesting proteins, carbohydrates and lipids. It also makes sodium bicarbonate which works at a neutral pH level. There are two ducts that connect to the duodenum so that these can reach the small intestine.
                    Liver
The liver is in the upper right abdomen. It performs many different functions and some of them help with the digestive process. One of the things the liver does that help with digestion is makes bile. Bile includes electrolytes, cholesterol, bile salts, lecithin and pigments. The liver is where nutrients are stored. Some other jobs of the liver are:
·       Store fat soluble vitamins
·       Store iron
·       Store glycogen
·       Change glycogen into glucose
·       Make plasma proteins
·       Store and make lipids
·       Inactivate chemicals
·       Change ammonia into something less toxic
·       Destroy old red blood cells
The liver has many essential jobs and it is important that it functions properly.
                    Gallbladder
The bile that the liver makes is transported through a duct to the gallbladder. Most of the water in bile is removed by the gallbladder and then it stores until. After you eat it enters the small intestine through the duct.
          Large Intestine
Most nutrients and water have been absorbed by the time it reaches the large intestine. The large intestine absorbs most of what is left over. It holds the rest until it can be discarded. The diameter of the larger intestine is bigger the small intestine but it is only half as long. The cecum is a pouch that chyme enters into from the small intestine. There are four sections of large intestine that make up the colon. The four sections of colon are ascending colon, transverse colon, descending colon and sigmoid colon. The sigmoid colon is where feces are stored.
Here is a short video showing the process. 
                                                             (Parkison)
                                                           
          How Nutrients Are Absorbed
                    Proteins and Carbs
When the proteins reaches the small intestine, enzymes from the pancreas, stomach and small intestine break down the protein until it turns into an amino acid. The amino acids are moved into the mucosal cells where they end up in the capillaries. The process of digesting carbohydrates starts in the mouth by salivary amylase breaking down the polysaccharides and turning them into disaccharides. The process is then moves to the small intestine where pancreatic amylase and enzymes from the small intestine work to turn it into monosaccharide. They then follow a transport path that is very much like the path of amino acids.
                    Lipids
When lipids are digested they turn into fatty acids and monoglycerides. They are nonpolar. Micelles are small beads that are made of bile salts and lecithin. They move fatty acids and monoglycerides to the outside of mucosal cells so they can be absorbed. When they have been absorbed by the cells they come back together and make triglycerides. They are coated with water and make beads called chylomicrons. Chylomicrons go into the permeable lacteals and move around by lymph vessels.
                    Water Absorption
The small intestine can absorb a limitless amount of water. When there is a high concentration of water in the lumen it is let out of the small intestine and into the blood. Water passes into the large intestine and the absorption process continues. The large intestine does have a limit on how much water it can handle. If the small intestine sends the wrong mixture of water to food, diarrhea or constipation can occur, depending on whether there is too much water or not enough.
                    Vitamins and Minerals
Fat soluble vitamins are dissolved in micelles and are spread out in the same process as lipids. Water soluble vitamins are spread out through pores or through active transport. Minerals are spread out through transport proteins or pores or active transport. The body digests new food we eat and the gastric juice, pancreatic juice, digestive enzymes and bile we produce digesting food.
          Endocrine and Nervous System Regulate Digestion
Regulating the digestion system means keeping the digestion system functioning rapidly and smoothly and absorbing nutrients no matter what else is happening.
                    Volume and Content of Food
The volume and content of food effect how digestion is regulated. When the stomach stretches and protein is present in the stomach a hormone called gastrin is released. This hormone then lets the body know more gastric juice is needed. The duodenum stretches when the chyme arrives there. This helps to mix the chyme. The acid in chyme causes the duodenum to release the hormone secretin. That causes the pancreas to make water and bicarbonate which neutralizes the acid. Pat and protein cause cholecystokinin to be released. Cholecystokinin tells the pancreas to make digestive enzymes. Cholecystokinin and the duodenum stretching also cause the gallbladder to release bile.
                    Nutrients
Lipids, carbohydrates and proteins can be changed to storage forms of if the body does not need them right away then used when needed. If we continually consume more than our body can use and our body is storing nutrients, this may lead to weight gain. When we consume less than our body needs, our body uses what has been placed in storage and we lose weight.
          Nutrition
Nutrients arrive in our bodies through the digestive system. What nutrients does our body need to be health?

MyPyramid Poster
(USDA)
                    MyPyramid
The MyPyramid was made may the USDA to help people ensure that they are eating enough of each food group and getting exercise. Foods are divided into the six food groups and examples of what food fits in the food groups are given. You can go to the MyPyramid website and get a personalized plan. There are some people who do not agree with all of the pyramids recommendations, but it is a good place to start if you are not sure how to eat healthy.
                    Carbohydrates
Carbohydrates are a main source of energy and about half of your daily calories should come from carbs. There are both simple and complex carbs. Simple carbs are sugars. They may be natural such as those found in fruits or refined such as those found in granulated sugar and corn syrup. Refined sugars do not have many nutrients. Complex carbs have many sugar units strung together. Complex carbs are better for us because they also give us fiber, vitamins and minerals we need. Starch and glycogen are complex carbs. They are stored until the body needs them then turned into glucose.
                    Lipids
Lipids are an important part of every cell. Lipids such as phospholipids and cholesterol make the cell membrane and cholesterol is the backbone of steroid hormones and makes bile. Energy is stored in fat. Fat also provides padding for some organs and stores some vitamins. The liver can make most lipids but not all. Some of the things the liver cannot make are essential fatty acids. These must come from food. Most people get more lipids a day than are recommended. If we are taking in to many then our diet is too high in saturated fat, cholesterol and trans fat and may make our risk of cardiovascular disease higher.

                    Proteins
Proteins are also necessary for every cell. Proteins make enzymes that help with metabolism. They may be receptor or transport molecules, they help build muscle and some are hormones. Proteins are made of 20 amino acids. There are 8 that the body cannot make, they must come from food. These are called essential amino acids. A complete protein refers to a protein that has all 20 amino acids. It is important for a diet to be a balance of all 20amino acids otherwise it may result in protein deficiencies which can effect growth and physical and mental performance.
                    Vitamins
Vitamins are a group of 13 chemical that are needed for the body to function as it should. We can make vitamin D if we are exposed to sunlight and bacteria that are found in the colon can make vitamins K, B6 and biotin. The rest need to come from food we eat. Vitamins can be either fat or water soluble.
                    Minerals
Minerals are necessary for the body to perform processes correctly. They are ions in plasma and cell cytoplasm, they are chemicals in the bone; they help with the nerve and muscle activity. There are 21 essential minerals. 9 are called trace mineral because of the small amount that is recommended.
                    Fiber
Our bodies cannot digest fiber but it is an important part of our diet. It helps feces pass through the colon easier. People who do not get enough fiber may experience constipation, hemorrhoids, and diverticulosis and is associated with colon cancer. Most people do not have a diet high enough in fiber.
          Weight Control
Energy that we consume is called calories.
                    BMR
To keep our weight stable we need to burn the calories we ingest each day. If we consume more calories than we use, we gain weight. If we burn more calories than we consume, we lose weight. The BMR, basal metabolic rate, is used to calculate the number of calories we need to keep our weight stable.
                    Physical Activity
Exercise changes the number of calories we burn every day. Exercise also improves cardiovascular health, strengthens bones, tones muscles and helps a person to just feel better.
          Digestive System Disorders
Most digestive system disorders are not deadly. The most common one is food poisoning, which is when a person eats something that has bacteria in it and results in diarrhea and vomiting.
                    GI Tract Disorders
Some common GI tract disorders include lactose intolerance. This happens when the enzyme lactase is lost. When someone with lactose intolerance eats dairy products, they experience diarrhea, gas, bloating and cramps. Peptic ulcers, which are sores found in the stomach, are also a GI tract disorder. Another disorder is Celiac disease which is gluten intolerance. When gluten is eaten the villi in the small intestine is damaged by the immune system. Diverticulosis is a weak wall in the large intestine. Colon polyps are a growth in the colon that is not cancerous. Polyps can turn into cancer so they are removed when found.
                    Accessory Organ Disorders
Hepatitis is a disease of the liver. There are 5 viruses that cause hepatitis. There are vaccinations available for some types of hepatitis. Without treatment hepatitis will lead to liver failure. Gallstones in the gallbladder can block the flow of bile. If the gallstones grow large enough to block the bile, treatment is needed.
                    Malnutrition
Malnutrition is a condition caused by a diet that is not balanced or is insufficient. It is caused by both over nutrition and under nutrition. Under nutrition is the more common cause of malnutrition.   
          Eating Disorders
Eating disorders are most common in industrialized Western countries and mostly found in women. One type of eating disorder is anorexia nervosa. This is when someone diets excessively or stops eating entirely. Symptoms are:
·       Refusing to stay at a healthy body weight.
·       Fear of gaining weight even though they are underweight.
·       Distorted idea of their body weight and shape.
·       Menstruation cycle stops for at least 3 months in a row.
Bulimia is another eating disorder. Bulimia has a binge and purge cycle where someone eats then vomits to get rids of the calories they ate. Signs of bulimia are:
·       Repeated times of binge eating.
·       Taking laxatives, diuretics, enemas and self-induced vomiting in an attempt to prevent weight game.
·       Bingeing and purging twice a week for three months.
·       Preoccupied with body shape.
Bulimics tend to maintain a normal body weight. What causes eating disorders is not known but there seems to be psychological and cultural issues associated with them.
                                                            (chichin85)

The Nervous System

The nervous system has four main traits:
·       It gets information for more than one sense at the same time.
·       It integrates the information it receives.
·       It works very quickly.
·       It initiates certain responses.
Usually the nervous system works without us being conscious of it but sometimes the information is brought to our awareness.
         
          The Nervous System Has Two Parts
The two parts of the nervous system are the central nervous system or CNS and peripheral nervous system or PNS. The CNS is made up of the brain and spinal cord. The PNS takes information to the CNS and takes information from the CNS to other body parts. The PNS is divided into the somatic division and autonomic division. The autonomic has the two subdivisions sympathetic and parasympathetic.
                   
                    Neurons
Neuron cells conduct electrical impulses so that different body parts can communicate. There are three types of neurons: Sensory neurons are in the PNS and respond to pressure and light. They send the information to the CNS. Interneurons send impulses within the CNS. And motor neurons carry information away from CNS. If a neuron is not making impulses it is at resting potential. The sodium-potassium pump maintains the resting potential. When an impulse is incoming there is a series of steps that cause a change in the resting potential. These are graded potentials because they are not all the same size. If the graded potential is strong enough it causes the membrane to reach threshold and the result is action potential. Action potential has three events: depolarization, repolarization and reestablishing resting potential. There is a period called absolute refractory period is which another action potential cannot be produced. After this period is the relative refractory period and it is harder than normal for another action potential to be produced.
         
          Neuroglial Cells
About 20% of humans cells are neurons, the rest are neuroglial cells and they give support and protection to neurons and help there be the right concentration of chemicals in the fluid around them. Most of the neuron axons in the PNS are protected by neuroglial cells. These are called Schwann cells. They make a material called myelin with is a fatty insulation. Schwann cells are wrapped around parts of the axon. This protective layer is called a myelin sheath. The spaces in between where the axon is not covered are called the nodes of Ranvier. The parts of the axon that are wrapped in a myelin sheath are called myelinated neurons. The myelin sheath provides three jobs. It saves the neurons energy, speeds up the transmission of impulses and helps damaged parts of the axon regenerate. In the CNS the myelin sheaths are made by a cell called oligodendrocyte. Neurons in the CNS do not repair themselves after they have been injured. If the axon is damaged, the myelin sheath degenerates.

          Transferring Information
When action potential reaches its threshold the information changes to a form that can be sent to where it needs to go. This is called a neurotransmitter. The neuron sending information creates a synapse. The presynaptic membrane is from the membrane sending the information. The postsynaptic membrane is from the membrane receiving the information. The gap between these two is the synaptic cleft. Neurotransmitters are excitatory, inhibitory or both.
                   
Sensory Mechanisms
Your sensory mechanisms give your brain information about the world that is around you and about your body.
          Receptors Receive and Convert Stimuli
Stimuli are something that causes a change in or out of the body. It is usually some kind of energy but may be a chemical. A receptor receives the stimuli and turns the energy it receives into another form of energy. This creates an impulse in a sensory neuron. When the impulse is acquired by the central nervous system we usually experience some sort of sensation. When we experience the sensation we then become aware of the stimuli. Then we may experience perception which is when we understand the meaning of the sensation.
                    How Receptors are Classified
Receptors are categorized based on what type of stimulus energy they convert. Mechanoreceptors react to mechanical energy. Some types of mechanical energy are sound waves, something touching you, gravity or acceleration. Thermoreceptors react to temperature such as hot or cold. Pain receptors react to damaged tissue, pressure and temperature. Chemoreceptors react to chemicals that are near them. Photoreceptors react to light. Joint receptors just give as a sense of where are limbs should be, they do not give a sensation. Some receptors are silent and work to keep homeostasis in the body.
                    CNS Interprets Nerve Impulses
Nerve impulses are sent from the receptor to a certain area of the brain and that area of the brain interprets what the impulse means. The stronger the stimuli are the more receptors are activated meaning there are more impulses being sent to the brain.
                    Receptors Adapt to Continuing Stimuli
Receptor adaptation is when the impulse is not sent any longer even though the stimulus is still happening. The book gives the example of wearing clothes. When they are first put on we feel them but the sensation goes away even though the clothes are still there. Receptors for touch in the skin and smell receptors adapt pretty quickly. Pain, joint and muscle receptors do not adapt well if at all.
                    Somatic Sensations and Special Senses
Sensations that we experience are either somatic or special. There are five special senses; taste, smell, hearing, balance, and vision. The receptors that send impulses are only found in certain areas of the body. Somatic sensations are impulses from receptors that are located in more than one place in the body.
          Somatic Sensations
Somatic sensations enable us to coordinate muscle movements, stay away from danger, and keep our body temperature constant. Somatic sensations receptors are found in skin, joints, skeletal muscles, tendons and internal organs. Sensory neurons are attached to these receptors and send the signals to the brain. The more sensitive the body part is the more sensory neurons there are in that part of the body.
                    Mechanoreceptors
Mechanoreceptors are receptors that sense touch, pressure, and vibrations. The amount of pressure and the degree that the receptors adapt depends on where they are located in the body. Mechanoreceptors also let us know what position our limbs are in due to mechanoreceptors in the joints, skeletal muscles and tendons. Muscle spindles are mechanoreceptors that are made for monitoring muscle length. These mechanoreceptors respond to the muscles being stretched.
Picture8.jpg
(KarlinBark)


                    Thermoreceptors
Thermoreceptors are found close to the skins surface and they give information about external temperatures. They are fast adapting receptors. There are also thermoreceptors located in parts of the body that keep track of internal temperature. These thermoreceptors do not adapt quickly.
                    Pain Receptors
Pain receptors let us know that there has been some sort of injury from pressure, heat, light or chemicals. Knowing that something causes pain is necessary for survival.
          Vision
There are photoreceptors in the eyes that focus and collect light.
                    Eye Structure
The sclera is the white part of the eye and covers the entire outer surface but the cornea, which in in the very front. Light goes through the cornea and then strikes the iris or goes through the pupil. The iris is the colored disk shape in the eye. It is a muscle and it decides how much light can enter the eye. The pupil is the black circle in the middle of the iris and it can change sizes. When light has gone through the pupil it then hits the lens. The lens is a see through, pliable configuration that is attached by connective tissue fibers to smooth muscle called ciliary muscle. Light then reaches the back and side layers of the eye which is the retina. The retina is made of photoreceptors, neurons and some blood vessels. The choroid is at the back of the eye between the retina and sclera. It is made of pigmented cells and blood vessels and the pigmented cells absorb light if the photoreceptors do not. The optic nerve is found at the back of the eye. The optic nerve takes information to the thalamus which then forwards the information to the visual cortex to be interpreted. The muscles around the eye are skeletal muscles which mean we can control the eye movements. The macula is in the middle part of the retina and is where there are the most photoreceptors. The fovea centralis is in the very middle of the macula and is a little pit. The optic disk is where the axons of the optic nerve and blood vessels leave the eye. There are no photoreceptors here which results in a blind spot in every eye.
Eyeball Blind Spot Illusion
(Berg)
                                                                       (margrabihospitals1)
                                                           
                    Light and Focusing
The iris has two sets of smooth muscle that adjust how much light enters the eye. When we are in bright light, the muscles that are circularly spaced around the pupil contract. These muscles contracting cause the pupil to contract also. If this didn’t happen, the brightness of the light would be too intense and we would be blinded for a short time. If the light is dark, the smooth muscle that is radially spaced around the pupil begins to contract. These muscles contracting cause the pupil to dilate. These muscles are controlled by nerves. Sometimes a light is shone in a person’s eyes to see if the pupils dilate. If they do not, it may indicate a serious nervous system problem. When light enters the eye it is focused by the cornea and lens. The cornea bends almost all of the light. The curve of the cornea does not adjust so changing focus from near to far objects is done by the lens. The ciliary muscle is in charge of this. The ciliary muscle contracts causeing the inner part of the muscle to shrink which lessens the tension on the fibers that are fastened to the lens. This causes the lens to bulge and we are able to focus on something that is near. If the ciliary muscle relaxes, the muscle causes there to be more tension on the lens and stretches it, causing it to flatten. This brings things that are far away into focus.
                    Eye Shape
The way the eye is shape may influence the eyes ability to focus. Myopia is a condition when the eyeball is longer than normal. People with this condition cannot see things that are far away. Corrective concave lenses can fix this. Hyperopia is when the eyeball is shorter than normal. People with this condition have trouble seeing things that are close by. This is corrected with convex lenses. Astigmatism is an irregular shaped cornea or lens and causes blurred vision. Specially ground lenses are needed to correct this.                   
          Sensory Disorders
                    Disorders of the Ears
Deafness is when someone has loss of hearing. It can be caused by damaged hair cells which cause nerve damage and sounds are not able to be changed into impulses. Damaged tympanic membranes or the bones in the middle ears are conduction dearness. In this type of deafness sound waves are not taken to the middle ear at all. Depending on what type of hearing loss there is, a hearing aid may provide some correction. Cochlear implants are tiny microprocessor that changes sound waves into electrical signals and can help people who have hearing loss due to nerve deafness. Otitis media is inflammation of the middle ear. This is caused by fluid becoming trapped in the middle ear and is usually cleared up with antibiotics. Meniere’s syndrome is an inner ear problem that affects hearing and balance. This is a chronic condition and the cause is not known.
                    Disorders of the Eyes
Retinal detachment is when the retina separates from choroid. This can usually be correct by surgery. Cataracts are when the lens turns opaque. Treatment involves removing the lens by surgery and then putting in an artificial lens. Glaucoma is when pressure inside the eye goes up. Glaucoma is usually not noticed until some vision has been lost. If not treated, glaucoma will lead to blindness. Treatment is medication or surgery. Age related macular degeneration is caused by the retina becoming detached and degeneration of photoreceptor cells. This causes a loss of vision in the center of the visual. There is no cure for this. Color blindness is when the full range of colors cannot be distinguished.
Human Impact on the Environment
Humans have done things that have changed the environment. We have built houses, changed land by plowing, planting and irrigating, destroyed mountains looking for fossil fuels and spread chemicals such as herbicides and insecticides over the land. By doing this we have changed the ecosystems we live in.
          Pollution and Air Quality
Chemicals or particles that are in the air that has a negative impact on living things are referred to as pollution. Pollution is causing four major areas of concern. Global warming, the ozone layer being destroyed, acid precipitation and smog are the four areas. There are multiple causes of pollution that impact each of these areas.
                    Global Warming
The upper layer of the earth’s atmosphere acts like a green house in that it does not allow heat to escape. Since it acts similar to a greenhouse the gases that are produced from this are called greenhouse gases. Water vapor is the most represented greenhouse gas. The other greenhouse gases are manmade. They include carbon dioxide, methane, nitrous oxide, chlorofluorocarbons and halons. These gases result in what is called the greenhouse effect. This is a natural occurrence but humans have done things to increase greenhouse gases. The increase in greenhouse gases has led to an increase in the greenhouse effect which has led to global temperatures being raised which is referred to as global warming. Burning fossil fuels and deforestation are the 2 main things humans are doing that contribute to greenhouse gases.
                    Ozone
(Ozone Layer Depletion)
The ozone is in two different places in the atmosphere. The first place it is found is near the earth surface and it as made from the oxygen reacting to automobile exhaust and industrial pollution. This ozone is a little toxic and causes respiratory issues and some plant damage. The second ozone is higher in the atmosphere and is beneficial. It helps shield ultraviolet ray, which can cause skin cancer and maybe cataracts. It was discovered in the 1980s that chlorofluorocarbons had damaged this ozone layer. Skin cancer rates were predicted to increase because of this. To try to prevent this, the production of CFCs was phased out. The hole in the ozone stopped growing and is now stable. It is thought that in 100-150 years the ozone can recover from the damage humans made.
                    Acid Precipitation
Acid precipitation is caused by sulfur dioxide. Sulfur dioxide is made by burning high sulfur coal and oil. These are burned to make energy. Acid precipitation is also cause by nitrogen oxide. Nitrogen oxide is caused by automobile exhaust. These 2 chemicals mix with the water vapor that is in the air. This makes sulfuric acid and nitric acid and dissolves in rain. When these raindrops fall it is as acid precipitation. This can corrode metal and stone and can damage forests and aquatic ecosystems. Power plants that burn these coals have been made to install sulfur removal systems to lessen the emission of sulfur dioxide. The amount of acid precipitation in the US has declined since these have been put in place. There have been more recent regulatory actions put in place that is expected to eliminate almost all of sulfur emissions by 2014.
                    Smog
Nitrogen oxides and hydrocarbons mix with sunlight and water vapor can cause the reaction of smog. Smog is a hazy brown layer that hangs over an area. Smog has some chemicals that irritate the eyes and lungs and can result in asthma and emphysema. Smog has been decreased by antipollution laws and states using clean burning fuels.
          Pollution and Water Supplies
Humans are affecting the water supplies by using more water than needed, which decreases the freshwater supply. Humans also are removing native vegetation and putting in buildings and roads. This results in rainwater not being able to be soaked in and causes runoff. Thirdly, humans sometimes pollute water by their choices.
                    Water is Scarce
Only 1% of the earth’s water is available for use. 97% is salt water and 2% is frozen. Water is also not evenly distributed. Some populations have more fresh water available to them than others. Populations that have a lot of water available often use more than is necessary. In some parts of the world they have reached their capacity of humans due to not enough water. In some parts of the US water rights are a huge issue.
                    Water Runoff
Urbanization has led to storm water runoff. In some areas this can cause big issues. In the eastern US storm runoff mixes with sewage and causes sewage to overflow. This causes pathogens that cause gastroenteritis, eye and ear infections, skin rashes, respiratory infections, and hepatitis. Pipes being used to divert water can lead to flooding during rains and dry beds during dry periods. This leads to aquatic life being loss.
                    Pollution of Fresh Water
Pollution such as untreated sewage, chemicals, runoff of pesticides and fertilizer, rubber and oil from streets may end up in the soil or water. Some pollutants that enter water cause bacteria to grow and when the bacteria grows so fast in can threaten the animals that live in the water.
                    Groundwater pollution
If pollutants are soaked into groundwater they may cause health issues in humans. It takes a very long time for pollution to leave water.
                    Oil Pollution
Oil spills in oceans cause major environmental issues. The extent of harm done from an oil spill may take decades to be known. Oil spills cause damage to marine and shoreline ecosystems. Cleanup is very costly and moves some of the pollution to the land or air so it still has an effect on us.
          Pollution Damages Land
Humans change landscape to suit their own purpose. Humans have dammed up rivers, destroyed mountains, and cut down forests. Humans have changed the land by building roads and cities.         


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