Wednesday, May 9, 2012

Lab 4 Tropical Andes


Tropical Andes
Introduction:
I chose to study an amazing region of the world in South America called the Tropical Andes. This hotspot contains more endemic species than anywhere else in the world. An outstanding fifty percent of its plants only grow in this region.  There are many endangered species in this area due to negative human involvement.   There are conservation efforts being made to protect the remaining habitat but will it be in time?

Results:
What is a biodiversity hotspot? It is defined as a threatened region with a large range of endemic plant species (at least 1 500) and where more than 70 percent of the original habitat has been lost because of human activities. Typically, the diversity of endemic vertebrates is also high (Biodiversity Hotspot, http://www.science-dictionary.com/definition/biodiversity-hotspot.html, accessed 7 May 2012).  The Tropical Andes is a diverse hotspot located in South America.  The area of this hotspot spans through Chili, Argentina, Bolivia, Peru, Ecuador, Columbia, and Venezuela.  Ecosystems in this hotspot include the snow covered tops of the Andes mountain range to the deepest gorge in the entire world.  This unique hotspot also contains the highest navigable lake in elevation, Lake Titicaca. 
Lake Titicaca
 

Andean bromeliad
 
(Andean Bromeliad,http://www.flickr.com/photos/greggzimmerman/5455332110/, accessed 8 May 2012)
Some of the most rich and diverse forests are found in this hotspot called the cloud forests.  One amazing plant in this region includes the high Andean bromeliad (puya Raimondi) that is an endemic palm.  It takes a century for this plant to reach full maturity.  There are over 15,000 endemic plant species that live in this hotspot.  An endemic animal that lives in the Tropical Andes is the mountain coati.  This curious creature almost resembles a raccoon in many ways.  The mountain coati is about the size of a house cat and has double jointed ankles allowing them to easily go down trees.  They live about 7-8 years and are very social animals.  They might be small but when aggressively provoked become fierce fighters.  
South American Coati

In 1988, Norman Myers was the first person to identify ten tropical hotspots.  Since then many more hotspots have been identified and informative books have been published about hotspots.  For an area to qualify as a hotspot it must first meet some requirements.  It must contain at least 1,500 species of endemic vascular plants and have lost 70% of its original habitat. 

Atelopus exiguus is an endemic amphibian that is critically endangered due to severe habitat loss.
(Central Conservation Amphibians, http://zooamaru.com/amphibian-conservation-center/, accessed 7 May 2012)
The Tropical Andes has a wide range of socio-economic conditions.  The region is one of the most divers and unique places on Earth.  There is the largest known variety of amphibian species in the world.  There are an outstanding 664 species of amphibians with 450 of those species listed as endangered.  This has a lot to do with the fact that only one fourth of the regions original habitat still exists.  In the places where the Incas lived only 10% of original habitat remains due to being degraded.  If people move quickly there are still pristine places in Peru and Bolivia that could become reserves.  Large cities within the hotspot are expanding because of the massive population growth.  
People have made biodiversity in the Tropical Andes decrease.  Given the many different areas if this hotspot the ways the land is stripped might be different but is devastating all the same.  People are looking for oil, cutting down trees, mining, and stripping land to plant narcotics like opium.  The habitat that different species live in is being destroyed.  Invasive foreign species of plants and animals are being introduced into the area hurting the native species.  The cloud forests are threatened by deforestation, dams, roads being built, and the pressure from hydro electrical dams.
Conclusion:
Only a handful of plants have been tested for medical uses and if plants are becoming extinct this hurts our chances of finding new treatments.  When a plant no longer exists it can never be tested for medical uses.  When a species is gone it is gone forever.  The process of extinction is a natural occurring process that usually produces another species called a speciation at the same time.  The problem is that due to so many negative human involvements species are becoming extinct are alarming rates.  Extinction is happening at a rate that is too fast for another species to have time to form. (http://www.fws.gov/nc.es/whocares.html, accessed 6 May 2012)
In the Tropical Andes there are 600endemic birds and over 1,700 species of birds.  Sadly approximately 160 bird species are listed as threatened in this diverse area.  One of these endangered birds is a small hummingbird called the black-breasted puffleg.  This unique bird lives in elevations above 10,000 feet during the rainy season and between 9,006-10,000 feet regularly.  Due to massive habitat loss this bird’s numbers are only 250 known individuals.  In July 2010, the US Fish and Wildlife Services officially listed the black-breasted puffleg as endangered.  This raises awareness and restricts further habitat loss of the black-breasted puffleg. 

 (Center for Biological Diversity, http://www.biologicaldiversity.org/species/birds/black-breasted_puffleg/index.html, accessed 6 May 2012)
When a small event happens it is never as small as people assume.  Things tend to happen like a chain reaction.  As an example, if you suddenly take salmon out of grizzly bear country, what happens?  Many bears would die or have to further explore for food.  Some bears might end up in your backyards.  Then when you think past the bears and start thinking about the small plant and animal species in that area.   The plant and animal species will also be impacted by the loss of one species.  Something small might not seem critical until you look at the big picture.  Everyone should be concerned about plant and animal species that are endangered or dangerously close to becoming extinct. 

Sources:

Andean Bromeliad,http://www.flickr.com/photos/greggzimmerman/5455332110/, accessed 8 May 2012.

Central Conservation Amphibians, http://zooamaru.com/amphibian-conservation-center/, accessed 7 May 2012.
Center for Biological Diversity, http://www.biologicaldiversity.org/species/birds/black-breasted_puffleg/index.html, accessed 6 May 2012.

Tuesday, May 8, 2012

Unit 4 Compilation


Unit 4
Table of Contents
Biology in the News
Chapter 14
The Digestive System Brings Nutrients into the Body
The Mouth Processes Food for Swallowing
The Pharynx and Esophagus Deliver food to the Stomach
  The Stomach Stores Food, Digests Proteins, and Regulates Delivery
The Small Intestine Digests Food and Absorbs Nutrients and Water
Accessory Organs aid Digestion and Absorption
The Large Intestine Absorbs Nutrients and Eliminates Wastes
How Nutrients are absorbed
Endocrine and Nervous Systems Regulate Digestion
Nutrition: You are what you eat
Weight Control: Energy Consumed Versus Energy Spent
Disorders of the Digestive System
Eating Disorders: Anorexia Nervosa and Bulimia
Chapter 11
The Nervous System has Two Principal Parts
Neurons are the Communication Cells of the Nervous System
Neurons Initiate Action Potentials
Neurological Cells Support and Protect Neurons
Information is transferred from a Neuron to its Target
Chapter 12
Receptors Receive and Convert Stimuli
Somatic Sensations arise from Receptors throughout the Body
Vision: Detecting and Interpreting Visual Stimuli
Disorders of Sensory Mechanisms
Chapter 24
Pollutants Impair Air Quality
Pollution Jeopardizes Scarce Water Supplies
Pollution and Overuse Damage the Land
Energy: Many Options, many Choices
Humans are created a Biodiversity Crisis
Sustainable Development Supports Future Economic Needs
















Biology in the News
An article titled Low Oxygen Levels Could Drive Cancer Growth, Research Suggests that was posted in  ScienceDaily (May 3, 2012)states that low oxygen levels not only have some contribution to certain cancers but that it is actually the main cause.  The researcher, Ying Xu from the University of Georgia has spent a lot of time studying and gathering data.  A study was published in the Journal of Molecular Cell Biology stating the lack of oxygen actually increases cancer growth. 
When someone has cancer the drugs designed to stop it usually stop working 3-6 months after the first treatment.  Drugs also meant to stop cancer at a molecular level are usually dodged making researchers believe that the genetic mutation isn’t the powerhouse of cancer.  On a study done on seven different types of cancer in all of them the oxygen levels were very low.  When cancer cells don’t have enough oxygen to make enough energy the cells begin making their own energy through ATP.  To make ATP (energy) cancer cells have to find lots more food to stay alive.  So cancer cells make a new blood vessel in order to find more food which is bad for someone who has cancer because of further growth.  This new blood provides oxygen the cancer cells crave.  The oxygen actually slows down the cancer growth but it doesn’t last long and the hunt for food continues. 
Ying Xu stresses the importance of finding a way to keep cancer cells oxygenated.  This way the growth is less and the need to make more blood vessels isn’t there.  Ying Xu says this new method for cancer treatment “could result in a sea change in cancer treatment”.
Chapter 14
The Digestive System Brings Nutrients into the Body

The job of the digestive system is to bring nutrients to the body.  The digestive system organs all share that goal including the mouth, pharynx, esophagus, stomach, small intestine, large intestine, rectum, and anus.  The hollow tube formed by these organs is called the GI or gastrointestinal tract.  There are four accessory organs also aiding in digestion called the salivary glands, liver, gallbladder, and pancreas. 
Nutrients found in food are absorbed by the body using five different processes of chewing, secretions, digestion, absorption, and elimination.  There are also tow aids that help with the digestion process.  One is peristalsis that propels food forward and happens in every part of the GI tract.  Peristalsis is prevalent in the esophagus and transports food to the stomach quickly.  The other aid is segmentation that mixes the food.  Particles of food are then pressed against the mucosa where the body can absorb nutrients.  Segmentation happens mostly in the small intestine. 
The Mouth Processes Food for Swallowing
A person’s mouth starts the process of digestion by first chewing food into very small pieces.  Our teeth are created in a way that gives us great chewing abilities.  We have sharp edged incisors (front teeth) with pointed canine teeth that helps slice food.  Then we also have molars in the back of our mouths used to grind food up with.

Most adults have 32 permanent teeth by the time we are 25 years old.  Inside our mouths are very high amounts of bacteria that thrive on the food trapped between our teeth.  The bacteria can then release acids that dissolve enamel causing cavities.
Without our tongue chewing would be highly useless.  The tongue is made up of a skeletal muscle that is then enclosed by a mucus membrane.  The skeletal muscle of the tongue makes it so we have control over its movements.  The tongue allows us to taste and is necessary for talking and making sounds.  Salivary glands are also important for digesting food because it produces saliva that moistens the food.  Saliva makes it easier to chew and swallow made up of four ingredients.  One ingredient is mucin that holds food particles together to be swallowed.  The second ingredient is salivary amylase that starts the process of digestion carbohydrates.  The third ingredient in saliva is bicarbonate that keeps the mouths pH level between 6.5-7.5.  The last ingredient is lysozyme that prevents bacterial growth.  
The Pharynx and Esophagus Deliver food to the Stomach

After food has been chewed up the tongue pushes it into the throat (pharynx) for swallowing.  When swallowing occurs we briefly stop breathing.  The process starts with the tongue pushing the food (bolus) into the pharynx.  With the presence of food, receptors in the pharynx begin the swallowing reflex.  The tongue also helps by further pushing food back past the epiglottis and esophagus.  Once the act of swallowing has started it can’t be stopped and is now involuntary from that point on.  Just past the pharynx is the esophagus.  The lining of the esophagus is lined with mucus to help food slide down easily with the help of gravity.  At the base of the esophagus is the esophageal sphincter that opens and closes momentarily allowing food into the stomach.   The sphincter prevents stomach contents backflow into the esophagus.  When the sphincter malfunctions stomach acid can go back into the esophagus called acid reflux or heart burn.

The Stomach Stores Food, Digests Proteins, and Regulates Delivery
The stomach is a muscular sac that can expand along the digestive tract.  The stomach has three important functions of storing food, digestion, and the rate in which food goes to the small intestine.  There are four walls that make up the stomach called the mucosa, submucosa, muscularis, and serosa.  The mucosa layer has millions of tiny openings called gastric pits.  The stomach makes 1-2 liters of gastric juice daily usually after someone has eaten.  The pH level of stomach acid is about 2.  Next food and gastric juices are carried to the small intestine called chyme. 

Muscle contractions keep your stomach small when it is empty.  As you begin to eat your stomach relaxes and stretches as needed.  This triggers peristalsis to increase propelling about a tablespoon of chyme into the small intestine before the pyloric sphincter closes.  Peristalsis is defined as a wavelike muscular contractions of the alimentary canal or other tubular structures by which contents are forced onward toward the opening (http://education.yahoo.com/reference/dictionary/entry/peristalsis, accessed 3 May 2012).  After eating peristaltic contractions occur every 15-25 seconds.  This usually takes between 2-6 hours for the stomach to empty after a meal.  Chyme combined with either high acid or fat stimulates hormones to slow down peristaltic enabling the small intestine to absorb more nutrients.  Besides alcohol and aspirin all nutrients can’t be absorbed by the stomach.  This is because the stomach lacks necessary cellular transport and is lined with mucus.
The Small Intestine Digests Food and Absorbs Nutrients and Water
In the small intestine digestion continues.  The small intestine is made up of three sections.  First, the duodenum is where most of the digestion takes place but is only 10 inches in length.  The next two sections are the jejunum and ileum where almost all the rest of digestion takes place.  The way the small intestine is made makes it great for absorption.  In the small intestine there are large folds covered in villa, microscopic projections.  On the villa are epithelial cells that have even more smaller projections called microvilla.  Last the folds, villa, and microvilla increase the small intestine surface area by more than 500 times.  This makes the small intestine perfect for absorbing nutrients. 

Accessory Organs aid Digestion and Absorption
There are accessory organs that help with digestion as well.  The salivary glands, pancreas, gallbladder, and liver are all helpful accessory organs. 
The pancreas is an organ positioned behind the stomach.  The pancreas has both endocrine and exocrine functions making it very valuable.  This organ secretes and produces digestive enzymes and sodium bicarbonate that neutralizes stomach acid.  There are two pancreatic ducts that deliver these juices to the duodenum where they help with digestion.

The liver is located in the upper right abdominal cavity.  The liver helps with the digestion and absorption of lipids by producing watery liquid called bile.  Bile also contains electrolytes, cholesterol, salt, phospholipids, and pigments all aiding with digestion.  The liver is in a great location to start handling and storing nutrients.  This way the body can access these nutrients as soon as the process of digestion and absorption has taken place.  The liver also helps to maintain homeostasis throughout the body.
Liver

The gallbladder receives bile that was produced by the liver via ducts.  The gallbladder removes the water and stores the concentrated bile until the next meal.

The Large Intestine Absorbs Nutrients and Eliminates Wastes
Digestion then continues to the large intestine where by now most of the water and nutrients have been removed.  The nutrients and remaining water are absorbed by the large intestine.  The large intestine is larger in diameter than the small intestine but isn’t al long or efficient at absorbing nutrients.  The three regions within the large intestine are referred to as the colon.  An interesting fact I learned is that feces isn’t only food the body couldn’t digest but also 5% of feces is actually bacteria.  

How Nutrients are absorbed
Depending on the type of nutrient determines how it is absorbed.  Carbohydrates and proteins are absorbed by active transport.   In the small intestine there are enzymes produced by the pancreas, stomach, and small intestine that breakdown proteins into amino acids.  Carbohydrates actually begin digestion in the mouth by polysaccharides to disaccharides.  Carbohydrates are completely broken down into simple sugars by the small intestine.  Lipids are digested into fatty acids and monglycerides.  This happens because they are non-polar so the fatty acids and monglycerides dissolve into micelles.  Micelles are small bile, salt, lecithin droplets that have a polar surface and a non-polar interior.  The next process is that once inside a cell the fatty acid and monglyceride combine into a triglyceride.  The triglycerides are then coated with proteins called chylomicrons.  The chylomicrons are too big to directly enter capillaries so they travel via lymph.

As the small intestine absorbs nutrients the water concentration in the intestinal lumen becomes higher than in blood or other intestinal cells.  This is due to diffusion and the ability for the small intestine to absorb water is almost limitless.  Although most water is absorbed in the small intestine a limited amount of water is also absorbed by the large intestine. When someone has diarrhea they are usually suffering from a bacterial infection in the small intestine.  The opposite effect is constipation that occurs when feces stays in the large intestine for too long.  Too much water is absorbed making the feces dry and hard.  Constipation can be painful and can result from factors such as stress, lack of exercise, and lack of dietary fiber. 
Depending if a vitamin is fat or water soluble will determine how the body absorbs it.  Fat soluble vitamins dissolve and diffuse across the lipid membrane.  Vitamins that are water soluble are either diffused through channels or pores or they are absorbed using active transport.  Almost mine liters of gastric juices, pancreatic juices, digestive enzymes, and bile are produced and reabsorbed every day.   In addition to the nutrients we eat our bodies also reabsorb some digestive secretions.
Endocrine and Nervous Systems Regulate Digestion
When we digest our bodies actually go through a temporary change because of all the nutrients entering the bold stream.  The digestive system is the most active when we eat food or when there is chyme and not active when these items aren’t there.  Once the body absorbs all the nutrients then the body has to use or store them.  The body regulates all the interactions between organs and makes sure they get the nutrients they need.  Nutrients that can’t be used right away are stores away to be used at a later date.  If the reserves keep building without being used then that person’s body weight will increase.  But when we eat fewer nutrients then the body uses nutrients from reserves.  When this happens on a normal basis body weight then decreases. 
Nutrition: You are what you eat

Nutrition is the key to keeping our bodies healthy and working correctly.  They saying “you are what eat” is a very true statement.  There are many different food guides available, one of them is called mypyramid.  In mypyramid food is divided into six different food groups that recommend what people should eat.  This program gives options to make a personalized food/nutrition plan.  Dietary guidelines for Americans by the USDA and the department of health give the recommended calorie intake.  Most nutritionists believe that the information given by mypyramid is healthy and accurate.  Diets full of fresh fruits and vegetables are best.  A main source of energy is through eating carbohydrates.  Many nutritionists recommend a person’s diet should contain between 45-65% of carbohydrates.  There are two categories of carbohydrates, either simple or complex.  Simple carbohydrates are found naturally in fruits and honey.  Complex carbohydrates are made up of many sugar units connected together.  The USDA estimates that the average person on North America ingests at least 142 pounds of sweeteners and/or refined sugars every year. 
Lipids and fats are necessary for cell health.  Phospholipids and cholesterol are very important because they make up most of the cell membrane.  Fat is essential for health because it stores energy, cushions organs, gives skin an insulated layer, and helps to store many different vitamins.  Depending on the ration of hydrogen and carbon atoms in their fatty acids determines the type of fat.  Saturated fats have two hydrogen atoms for every carbon atom in the fatty tail.  Saturated fats are typically found in meats, dairy products, and coconut oil.  This type of fat raises bad cholesterol that can cause many cardiovascular problems including heart disease.  Unsaturated fat is oils that stay liquid at room temperature.  They are also missing one or more pairs of hydrogen atom in there fatty tails.  Unsaturated fats are healthier because they lower bad cholesterol.  Examples of unsaturated fats are olive oil and salmon.  The last type of fat is trans fats that are used to lengthen the time a product stays good for.  Trans fats also increase bad cholesterol and is found in margarine and shore shelf cookies to name a couple.  So of all the fats out there unsaturated fats are best.  Nutritionists recommend that lipids should only account for 20-30% of calories we eat every day. 
Protein is vital for every cell because it serves as a receptor, transports molecules, and is in muscle fibers.  Proteins are made up 20 different amino acids.  Our bodies can make 12 amino acids but relies on the remaining 8 amino acids to come from the foods we eat.  A complete protein has all the necessary 20 amino acids in one food.  Some meats and soybeans are complete proteins.  If you eat a balanced diet then you most likely will obtain all the required amino acids.  People who eat a vegetarian diet have to be careful to eat a balanced diet because most plants lack one or more amino acids.  Approximately 15% of calories are recommended to come from protein.  Sometimes during pregnancy or childhood protein deficiencies can come up causing poor physical and mental performance or can even stunt growth. 
A minimum group of 13 chemicals are crucial for us to properly function.  Our bodies produce some vitamins but most other vitamins we have to get from food and other sources. Minerals are also crucial for our bodies.  They are important for our muscles and nerves.  There are 21 minerals that are considered essential for maintaining health.  Although we need vitamins and minerals it is also harmful to take too many at one time. 
Fiber is in many fruits, veggies, and grains.  It helps to make our feces regular although our bodies can’t digest fiber.  When people eat a diet that is low in fiber they can suffer from constipation and are at higher risk for developing colon cancer. 

Weight Control: Energy Consumed Versus Energy Spent
The food we eat is converted into energy.  This energy is then measured by calories.  To keep a healthy body weight we have to eat the amount of calories we use.  Researchers use a formula called BMR or basal metabolic rate that tells you the amount of calories needed for organ function.  Some factors that determine someone’s BMR are gender, age, health, stress level, food intake, genetics, and how much muscle someone has. 
When we consistently eat more calories than we use the energy is stored in the form of fat.  The amount of fat cells is determined by the time someone is an adult.  Researchers believe this might by why some people have a hard time losing weight.  People who are overweight have 2-3 times more fat cells than someone who isn’t overweight.  When people diet their fat cells feel like they are starving and send the body into koas making it hard to lose weight.  Instead exercise will actually change the amount of calories needed each day.  To lose a pound of fat a person has to burn or use up to 3,500 calories.  The way nutritionists recommend the best way to lose weight is by increasing physical activity and to also reduce the amount of calories consumed.  An astounding 80 billion dollars is spent yearly on medical expenses and lost productivity due to nutrition/health problems.  There have been studies done that connect obesity and the occurrence of heart disease, diabetes, cancer, arthritis, and many other health problems. 

Disorders of the Digestive System
There are digestive problems that can occur that aren’t necessarily life threatening.  One of the most common digestive problems is food poisoning caused by bacteria or toxic substances.  Food allergies cause an allergic response throughout the body causing diarrhea and throwing up.  When someone is lactose intolerant they have a hard time digesting milk.  Some symptoms include gas, bloating, diarrhea, and stomach cramps.  Another digestive problem is peptic ulcers that are sores in the stomach.  They are very painful due to erosion of the mucosal lining of the stomach or duodenum.  The ulcers are usually caused by bacteria that love acidic environments called helicobacter pylori.  Another cause of ulcers is using too much aspirin or anti-inflammatory drugs.  Some people are intolerant to gluten called celiac disease.  Someone who shouldn’t eat gluten experiences a wide range of symptoms along with how sensitive someone is.  A person’s immune system with celiac disease responds by damaging or destroying villa in the small intestine.  Diverticulosis is a condition where the large intestines wall is weak.  People with this condition don’t usually feel pain but have inflammation or infections.  Noncancerous growths in the colon are called colon polyps that form in many different places in the body.  Hepatitis is inflammation of the liver caused by toxic products or viruses.  Researchers have found five different viruses that cause hepatitis.  The most common forms of hepatitis are hepatitis A, B, and C.
Malnutrition is caused by an unbalances or unhealthy diet.  The United Nations has estimated that 800 million people are undernourished.  That is about 13% of the world’s population that doesn’t have correct nutrition.  Sadly about 20 million people die from starvation every year. 
Many people are slightly to extremely overweight.  The world health organization has declared obesity to be a world epidemic.  Obesity has greatly increased from 12.6 to 34% in only 16 years.  Even in remote places like Papua New Guinea where people were never overweight are now showing some obesity.  Even though there is lots of interest in fat genes but we can’t blame these genes for the entire world being overweight.  I know here in the United States nothing is done in moderation.  Everything is supersized and “diet” making people believe something is healthy when it really isn’t. 
Eating Disorders: Anorexia Nervosa and Bulimia
Both men and women suffer from eating disorders.  Most eating disorders are common in industrialized western civilizations.  Two eating disorders are anorexia and bulimia.  Anorexia is where a person either stops eating or obsessively diets.  They do this to the point of starvation or even death.  Bulimia is where someone eats then throws up or takes other measures to reduce calorie intake.  Both of these conditions hurt the body and mind of the person.  Although it is unsure what causes eating disorders many people who have an eating disorder also suffer with depression and anxiety.  

Chapter 11
The Nervous System has Two Principal Parts
The nervous system is always receiving information and sorting through information in our brains memory bank.  The nervous system deciphers and makes sense of information very fast making the body able to act quickly.  There are four characteristics of the nervous system. One characteristic is the ability to receive information from many different senses at the same time.  Another characteristic if the nervous system is the ability to take information from many different places and put it together to make sense.  The third characteristic is the nervous systems ability to process things fast and produce a response in little as one tenth of a second.  The last characteristic of the nervous system is the ability to initiate muscle response, glandular secretions, and conscious thought and emotion.  The nervous system works closely with the endocrine system to maintain homeostasis. 
The nervous system includes the central nervous system (CNS) and the peripheral nervous system (PNS).  The CNS is made up of the brain and spinal cord.  The CNS receives, processes, and stores information.  The PNS carries information to the brain and spinal cord. 
Neurons are the Communication Cells of the Nervous System
Neurons are the communication cells in the nervous system.  Neurons generate and conduct electrical impulses from one part of the body to another are called action potentials.  Single celled neurons can range all the way from the spinal cord to the toes.  There are three types of neurons in the nervous system.  Sensory neurons of the PNS respond to light or pressure stimuli.  They transmit information to the CNS though electrical pulses.  Interneurons in the CNS receive and disperse information from sensory neurons.  Motor neurons in the PNS transmit impulses away from the CNS to the body’s tissues and organs. 

All neurons are made up of a cell body, one or more dendrites, and one axon.  The nucleus contains DNA that is in the cell body with the mitochondria and the cells other organelles.  Dendrites are defined as one of the threadlike extensions of the cytoplasm of a neuron; dendrites branch into treelike processes and compose most of the receptive surface of a neuron (http://medical-dictionary.thefreedictionary.com/dendrite, accessed 26 Apr 2012).  Interneurons and motor neurons have many dendrites that extend in all directions from the cell body.  An axon is a long and thin tube that is part of the cell membrane.  Axons specialize in guiding electrical impulses.  Usually the motor neurons or interneurons get the information from other neurons through its dendrites. 
Neurons Initiate Action Potentials
The sodium potassium pump is important in controlling cell volume and is done by removing sodium ions from the cell.  The sodium potassium pump is necessary for developing and maintaining electrical charges across the cell membrane.  Neurons that are resting are called resting membrane potential.  The resting membrane potential of a neuron is -70 millivolts (mV).  This means the inside is negatively charged in comparison to the outside of the cell.  The sodium concentration is the interstitial fluid is much higher than the sodium concentration in the cytoplasm.  Sodium is always seeping into the cell and potassium is always diffusing out of the cell.  Active transport balances the rate of seepage of sodium and potassium through pumps working in opposite directions.  When a resting neuron gets an impulse from another neuron it goes through changes.  Depending on the signal the change might depolarize the membrane making the voltage closer to zero.   The change has the possibility to hyperpolarize it making it making it even more negative.  A neuron can receive hundreds of impulses from other neurons.  This results in many action potentials at the same time.  An action potential is a sudden reverse in voltage that occurs across the cell membrane.  An action potential is the only form that information is transmitted over long distances by the nervous system.  An action potential happens because the axon membrane has voltage sensitive ion channels that open and close when a threshold has been reached.  When an action potential is happening an axon can’t create another action potential called the refraction period.  This guarantees the impulses can only travel in one direction at a time.  An action potential is a phenomenon that either happens or it doesn’t happen.  The number of action potentials range from as little as zero to hundreds in only a second.  Stronger stimuli don’t generate faster or bigger action potentials but rather produces more action potentials.  Then depending on the neuron the action potential can range in speed from 5-250 mph.  Action potential speed is better with the larger diameter of the axon.  It doesn’t matter if neurons are generating action potentials the sodium potassium pump always keeps normal concentrations to maintain homeostasis. 

Neurological Cells Support and Protect Neurons active transport
Of all the cells that make up the nervous system only 20% of the cells are neurons.  The rest of the cells are neuroglia cells that provide physical support and also protects neurons ensuring healthy concentrations of the chemicals around them.  Neurons axons are protected by neuroglia cells in the peripheral nervous system are called Schwann cells.  The Schwann cells produce a fatty insulation layer called myelin.  During the development of Schwann cells a shiny white shielding layer is around the axon is formed called the myelin sheath.  The gaps between Schwann cells are called the nodes of Ranvier.  The myelin sheath is important because it helps to insulate the neuron saving it energy.  It also speeds up the impulse transmissions and helps to regenerate damaged or cut axons in the PNS.  Some axons take anywhere from a few weeks to a year to revive depending on the length of the axon. 

Neurons in the CNS don’t revive after an injury has occurred.  This explains why spinal injuries and disorders like multiple sclerosis result in permanent loss of function.  With multiple sclerosis the myelin sheath in the brain and spinal cord slowly form hard scar tissue.  Neurons become no longer insulated and hinder the impulse transmission.  This disorder usually appears in people between the ages of 20 and 40. 
Information is transferred from a Neuron to its Target
Information is transferred from a neuron to the place it needs to go called a synaptic transmission.  When a synaptic transmission takes place the cell membrane of the neuron sends messages.  The order in which synaptic transmissions occur is in a particular pattern.  After a synaptic transmission takes place several factors control the response to the neurotransmitters.  Scientists have identified more than 50 chemicals that can function as neurotransmitters that are stored in the axon bulb and then released in reply to a potential action.  Neurotransmitters are classified as either excitatory, inhibitory, or both.  Excitatory neurotransmitters depolarize a postsynaptic cell and encourage new impulses.  Inhibitory neurotransmitters cause the postsynaptic cell to hyperpolarize meaning the inside of the cell becomes more negative.  Hyperpolarization makes it harder for a threshold to be reached.  Some neurotransmitters can be excitatory or inhibitory depending on their receptor type.  The effects of neurotransmitters are short lived and when the signal stops the transmission stops as fast as it started.  The dialogue between the action potential to the neurotransmitter allows the postsynaptic cell to process lots of information. 
Chapter 12
Receptors Receive and Convert Stimuli
A human’s sensory mechanisms are constantly providing the brain with information about the outside and inside world.  The sensory information is received and converted into nerve impulses.  The nerve impulses are then transmitted to the brain where everything is made sense of.  Sensory input that cause changes either outside or inside the body are called stimuli.  The stimuli are in the form of heat, pressure, sound, or even chemicals.  Receptors are specialized to receive stimuli and convert its energy into another form.  Some receptors have dendritic structures of sensory neurons and are powerful enough to start an impulse.  We feel a sensation when the central nervous system gets an impulse and we are consciously aware it happened.  When we understand what a specific sensation means this is called perception. 
By determining the type of stimulus energy receptors are classified by how they convert the energy.  Mechanoreceptors respond to sound waves, fluid pressure, physical touch, and gravity.  Thermoreceptors respond to hot and cold.  Pain receptors respond to chemicals and photoreceptors respond to light. 
There are only a few receptors that we aren’t consciously aware of their actions.  They are trying to maintain homeostasis and monitor blood pressure and fluid volumes.  They also regulate the chemicals within our internal environment. 
Nerve impulses are transmitted from receptors to specific areas in the brain.  An impulse that generates stimuli for vision goes to the exact spot in the brain designated for vision.  An interesting fact is that when you are punched in the eye it can fell like you saw stars.  This is because the eye triggers impulses in the visual sensory neurons that interpret it as light.  The central nervous system gets the information it needs from knowing where the impulse came from and also by how often they receive an impulse.    The central nervous system also has the ability to pick what sensation it wants to concentrate on.  Receptors that are in the skin adapt very fast to light tough or pressure.  The central nervous system knows what’s going on without overloading the senses with information.  When someone has persistent sensations like pain the body is trying to alert us of an injury, illness, or tissue damage so appropriate action can be taken. 
Somatic sensations include temperature, touch, vibration, pressure, and pain.  The five senses of taste, touch, smell, hearing, and balance have specific receptors linking them to the particular part of the body. 
Somatic Sensations arise from Receptors throughout the Body
We feel somatic sensations from many different receptors in the body.  Some of the somatic sensations we experience are pleasurable because the receptors that detect somatic sensations are in the skin, joints, tendons, skeletal muscles, and internal organs.  In places where you have more sensitivity you have more neurons and vice versa.  The place where all the information goes is called the somatosensory area in the primary motor area in the frontal lobe of the brain.  The receptors that sense touch, pressure, and vibration are called mechanoreceptors.  All mechanoreceptors have altered dendric endings of sensory neurons.  Although there are receptors in many different places in the body an impulse requires intense stimulation.  One of the most popular mechanoreceptors is muscle spindles.  A muscle spindle is a small bundle of skeletal muscle cells located in skeletal muscles.  A muscle spindle monitors muscle length which usually also determines how a joint is positioned due to how it is attacked to the bone. 

Near the skins surface are thermoreceptors that use the information they gather determining hot and cold.  Thermoreceptors are able to adapt fast and adjust sensory input so the feelings are too intense.  An example of this is getting into a hot bath.  At first the bath is very hot but after a minute it doesn’t feel as hot.  Other thermoreceptors in the abdominal and thoracic organs monitor the temperature within our bodies.  These receptors don’t adapt to maintain homeostasis. 
Most of us avoid doing things that cause us pain.  The body’s ability to feel pain is actually important in our survival.  Pain warns us of injuries and unsafe stimuli.  Some pain is fast and sharp occurring in only 1/10th of a second after the stimuli.  A good example of fast pain is when you go to the dentist to get a tooth drilled.  Other pain is slower to feel taking seconds to hours to experience after an injury has occurred induced by a chemical release.  A good example is when you work out it isn’t until many hours later that you feel the uneasy muscle pain.  There is also a phenomenon called referred pain in which the body doesn’t know where the pain is coming from.  The body then randomly assigns a place to tell the body where the pain is coming from.  Referred pain is very common and an example of this is a heart attack.  When someone is having a heart attack they sometimes feel pain in the left shoulder or arm.  To keep us safe pain receptors don’t usually adapt. 
Vision: Detecting and Interpreting Visual Stimuli
Light travels in wave form at 186,000 miles per second.  Our eyes then let us receive and process the light.  To do this the light must be focused on specialized cells in our eyes called photoreceptors.  The white part of our eye is called sclera and is a tough outer layer.  This layer is continuous with a clear cornea.  Light passes through the cornea and the agueus humor that is a space filled with fluid that serves as a cushion for the cornea and eye lens.  The light either passes through the pupil or hits the colored part of the eye, the iris.  The iris is a muscle that controls how much light enters the eye.  After light passes through the pupil it hits the lens of the eye.  The lens is flexible and attached by connective tissue to smooth muscle called ciliary muscle.  After passing through the pupil it hits the lens of the eye.  The lens in flexible and attached by connective tissue to smooth muscle called the ciliary muscle.  After passing through the vitreous humor, light meets the back and side layers of the retina.  The retina is made up of photoreceptor cells, neurons, and some blood vessels.  In the center of the retina is the macula where photoreceptor density is the highest.  When we look and focus directly on something this is done with the macula.  At the back of the eye is the optic nerve that carries information to the thalamus.  This information is then sent to the visual cortex.  In both eyes is our optic disk that in each eye has a blind spot.  Last are the skeletal muscles that surround the eye and control movement of the eye. 
There are two sets of smooth muscles that the iris controls the amount of light let into the eye.  When you walk into a room with bright light the two sets of smooth muscles contract cause the pupil to get smaller.  So in unlit places the smooth muscles don’t contract and the pupil gets larger.  Nerves control the two sets of smooth muscles.    When someone is unconscious or has a concussion, doctors look to see if the pupils are fixed and dilated.  They do this to see if the pupils respond to bright light shined in them.  If the pupils don’t respond this can point to a possible failure of the nervous system.   
The ability to focus on objects near and far is done with the assistance of the ciliary muscle.  When this muscle contracts, the inner radius part of the muscle shrinks reducing the tightness on the fibers attached to the lens.  This action allows the lens to bulge abs we are then able to focus on a close up object.  As a person gets older the lens has a tendency to stiffen and can’t bulge in the way it needs to enabling focus.    This results in presbyopia and makes it hard to focus on close up objects usually appearing after age 40.  Not everyone has the same shape eyeball which makes up unique but can also affect the way we focus.  An inherited condition called myopia is a condition where the eyeball is longer than usual.  People who have myopia can easily see near objects but objects in the distance are blurry.  A condition where the cornea or lens has an irregular shape causes blurred vision caused by astigmatism.  Astigmatisms can be corrected with special lenses that help compensate for odd shaped cornea or lens. 
The human eye converts light into impulses in the retina.  Our retina makes it so we can also see color and adapt to different light intensities.  There are photoreceptors cells called rods and cones because of their unique shape.  Rods all have contain the same photopigment as each other called rhodopsin.  Rhodopsin is much more sensitive to light than the photopigments in cones.  This means that in dim light we use rods to see.  Just because humans see in color doesn’t mean that all animals can see in color too.  The reasons why humans can see in color are because we have three types of cones red, green and blue.  Each of these cones contains photopigments that absorbs red, green, or blue light particles.  The brain then understands the light coming in by the three types of cones.   All three types of cones are stimulated we see white light but when there isn’t any light we see nothing or black. 

Disorders of Sensory Mechanisms
Even though we are meant to see and hear it doesn’t always work out that way.  When someone loses their hearing they become deaf.  Deafness can occur for many different reasons.  One way someone can have hearing loss is by damaged hair cells.  That makes it so sound can’t be translated into impulses to the sensory nerves called nerve deafness.   This can occur from being exposed to loud sounds.  Another type deafness is called conduction deafness that is caused by damage to the tympanic membrane in the middle ear.  This makes it so sound waves aren’t relocated to the inner ear.  Some people can benefit from hearing aids or a cochlear implant that converts sound into electrical signals.  Inflammation on the middle ear is called otitis media.  This is usually the result of a respiratory infection that backs up into the auditory tubes.  A syndrome called Meniere’s syndrome is an inner ear problem that also impairs a person’s balance.  The cause of this condition is unknown but symptoms include dizziness, nausea, and progressive hearing loss. 
There are also problems with eyes.  When the retina detaches from the choroid, medical attention is needed.  Medical attention is usually needed when someone receives a blow to the head.  The retina tears and peels away from the choroid.  Another eye problem is cataracts where the eye lens becomes milky.  This creates a normal protein to not be enough creating protein clumping, making the lens milky.  This can be congenital but can also result from other diseases or disorders.  An astonishing 5.5 million people in the United States have cataracts that impair their vision.  When someone has glaucoma, pressure within the eye rises.  This condition occurs when a drainage vessel becomes blocked.  This creates excess fluid and pressure within the eye and if left untreated can lead to blindness.  Glaucoma develops slowly over time without symptoms.  Macular degeneration is a disease that is caused by the retina detaching and the degeneration of photoreceptor cells in the macular portion of the retina.  This disease causes visual impairment making it hard to recognize faces or read.  It is estimated that one out of 155 people are affected by macular degeneration.  This is scary since at this time there isn’t a cure.  It isn’t that rare to meet someone who has some degree of color blindness.  Color blindness is due to a deficiency in one or more cones.  It is rare for someone to not have all three cones but it does happen.  In this event the person would not see any color at all.  Color blindness is usually inherited from the x chromosome and most commonly effects men. 
Chapter 24
Pollutants Impair Air Quality
Humans have been negatively impacting air, water, and land.  The impact is not done just locally but on a global scale.  We breathe air that is composed of 79% nitrogen, 21% oxygen, 0.03% carbon dioxide, and other trace amounts of air pollution.  The air pollutants are composed of either CFC’s (chlorofluorocarbons) used in refrigerators or Halons that are present in fire extinguishers.   

Greenhouse gasses are in the upper layer of the atmosphere or stratosphere.  Most greenhouse gas is water vapor (60%) and the rest is a combination of carbon dioxide, methane, nitrous oxide, and air pollutants.  Together the greenhouse gases create the greenhouse effect.  This allows sunlight to enter earth’s atmosphere trapping most of the heat which is a natural event.  The carbon dioxide part of greenhouse gases has accumulated over millions of years.  The problem is humans have increases the carbon dioxide levels of the greenhouse gases.  The increase of these gases rises the average global temperature creating global warming.  The main reason is due to burning fossil fuels for energy which releases carbon into the air.  The carbon in fossil fuels is from buried and decayed plant matter that is preserved in sedimentary process that takes millions of years.  There are some major types of pollution that directly affect global warming. 

(http://ecozile.com/air.php, accessed 7 May 2012)
Deforestation also raises carbon dioxide levels in the atmosphere because trees absorb carbon dioxide from the air.  A large tree can absorb 50 pounds of carbon dioxide a year.  When deforestation is done by burning there is double the damage done.  For one, there are fewer trees to absorb the huge amounts of carbon dioxide and second, all the carbon originally absorbed by the tree is immediately released back into the atmosphere. 
The ozone is located in two places.  It is the layer near the plants surface (troposphere) and high up in the atmosphere.  The lower layer is pollution and is very toxic to plants and animals.  The upper layer is very valuable because it keeps cancer causing ultraviolet (UV) rays out.  In the 1980’s the upper ozone layer attracted notice that it was distress due to CFCs.  By 1985 the stratosphere ozone layer was noticeably thin with large holes developing at certain times of the year.  The United Nations predicted there would be an increase of the occurrence of skin cancer.   Action was taken and by the mid 1990’s the size of the hole had stabilized.  This hole still remains the same size today because of the efforts made.  It is estimated it will take 100-150 years for the ozone layer to recover. 
Acid rain is caused by sulfur dioxide being released into the air due to burning high sulfur coal and oil for energy.  Another component that contributes to acid rain is exhaust from auto mobiles.  Acid rain corrodes metal, stone, damages forests, and destroys marine ecosystems.  It is most common in Europe, southern Canada, and the Northeastern United States.  Efforts to stop acid rain have been taking place since the 1970’s.  The Obama administration’s actions are expected to eliminate most remaining sulfur emissions by the year 2014.
Smog is the brown or grey haze that blankets large cities.  Most smog is caused by coal and oil being burned.  The combination of burning these fossil fuels and automobile exhaust can cause many health problems.  These problems include chronic respiratory illnesses.  Smog can also contain oil droplets, wood, coal ash, asbestos, lead, dust, and animal waste.  Smog is when bothersome when a warm upper layer of air traps a cooler smog ridden air mass beneath it.  There are wide spread cleanup efforts and efforts to reduce pollution emissions that have been very effective.  Cities that used to be constantly blanketed by smog now have clean air due to their efforts.   
Pollution Jeopardizes Scarce Water Supplies
Humans have had detrimental effects on the quality and availability of water.  There are three main reasons why humans have had this effect.  One reason is because we use so much water and don’t think about the depletion it causes.  Another reason is that when roads and cities are built in natural vegetation it prevents the ground from soaking up water.  The last reason is that we pollute our water sources. 

(http://www.valdosta.edu/~vjfranks/, accessed 7 May 2012)
Water is a renewable resource because of the evaporation of the oceans and then returning it in the form of rain or snow.  Over 97% of water found on earth is on ocean form.  Another 2% of water is in glacier and polar ice cap form.  Lastly only 1% of all fresh water that humans require is in aquifers and freshwater lakes and streams.  There isn’t an endless supply of water the way people think there is.  Sadly people who lie in industrialized countries use 10-100 times more water than those who don’t live in industrialized countries. 
When roads and buildings are put up in places where vegetation once stood the result is problems with storm water run-off.  In older cities especially on the east coast have problems with storm water and sewage overflow into oceans and polluting freshwater streams.  An astonishing 28 billion gallons of sewage overflow caused by storm water runoff flow into New York Harbor every year.  This then causes many pathogens like gastroenteritis, ear and eye infections, rashes, respiratory problems, and hepatitis in people who swim or kayak in those areas. 
Natural and negligent causes precious freshwater to become polluted.  Things like chemicals from factories, pesticides, fertilizers, sewage, oil, and rubber have to go somewhere.  There things usually run off into fresh water.  Toxic pollutants can’t be broken down naturally and remain in the environment for a long time.  Some toxic pollutants include oil, gasoline, pesticides, herbicides, and heavy metals.  Another problem with toxic pollutants is they remain in the animals that eat or drink food tainted with these chemicals.  When another animal then eats the animal tainted with these chemicals they now contain a higher concentration of the chemical.   This is known as biological magnification.  A great example of how this happens is with sea animals.  Many worry about mercury levels in the fish they are eating.  As animals eat other animals that contain mercury over time mercury builds up to extremely toxic levels.   People who have consumed food that contains mercury are at risk of problems with nervous system development in pregnant women and young children.  Other water pollutants cause disease causing organisms, excess nitrogen fertilizers, and even heat pollution.  Heat pollution decreases the amount of oxygen water carries and also makes marine animals require more oxygen than usually needed.  Heat pollution has the ability to suffocate and kill many types of marine life. 
Many chemicals that pollute surface waters also affect ground water.  When ground water is polluted it can immediately affect humans and once polluted ground water stays polluted for a long time.  The US Environments Protection Agency estimated 50% of all water systems contain some pollution.  Although the extent of damage caused by consuming polluted water isn’t known many speculate it causes many problems.  These problems include miscarriages, skin rashes, nervous disorders, and birth defects.  When ground water is contaminated with radioactive waste the water stays radioactive for thousands of years. 
Oil in oceans causes another great threat.  In the past several years many million tons of oil has ended up in oceans.  Approximately 50% of the oil is due to natural causes but the remaining 50% is due from negligence.  Oil that is improperly disposed of on land washes oil into streams and rivers then dumping into oceans and accounts for 30% of oil in the ocean.  The remaining 20% of ocean oil is due to accidental oil spills.  When oil spills into the ocean approximately ¼ evaporates, ½ is broken down by bacteria, and the last ¼ sinks to the ocean floor.  This then coats all the living organisms making their ability to function hard and usually results in their death.  Oil that reaches the shoreline effect breeding grounds and shows signs of damage many years after the spill.  With effective human effort ecosystems can recover faster than they do without human involvement. 
Pollution and Overuse Damage the Land
Many believe it isn’t all about how humans destructively pollute the land and eater.  Rather some blame people believe should also be directed to the amount humans consume.  The United States alone consumes 22 tons of fuel, metal, minerals, food, and forests for every person every year.  This number doesn’t include what it took to build the materials transported to us and the use of natural resources.  The real number that one person consumes yearly is 88 tons.  Humans have almost cleared half of the Earths forests and have changed one third of the Earths land mass.  Half of the people in the world live in poverty.  These people rely on their local environment have also taken the means necessary to survive.  They cut down trees for fuel, shelter, and overgrazing livestock.  This leads to desertification which changes land to a desert form and makes it impossible to grow anything in that area for some time.  Every year approximately 15 million acres become desert by people stripping the land.  War also causes damage to environments.  In Iraq during the 1980’s- 1990’s valuable farmland was lost due to war.  How people decide to dispose of their garbage also makes an impact.  Recycling any product you can is very important.  Even after recycling for years I find there are more things I didn’t realize I could recycle.  The other way of disposing of trash is by landfills that when done correctly is very effective.  The best thing to do is to consume less and recycle everything you can. 

Energy: Many Options, many Choices
Everyone uses energy.  If we really looked at the energy we use in a day it would be astounding.  There is a choice in how much energy we decide to use.  Choices like turning the light off when you leave a room and riding your bike to work are choices we have.  Fossil fuels are not renewable meaning more can’t be produced.  Fossil fuels took millions of years to make but humans are consuming them at such a fast rate that they will be gone relatively soon.  Focus needs to be on renewable fuels that might include nuclear energy, biomass fuels, wind, water, geothermal energy, and solar power. 

Nuclear energy creates lots of power with little starting material.  Nuclear energy has to be safely monitored to ensure the core of the nuclear plant doesn’t overheat causing a meltdown.  If there is a meltdown the negative is the release of radioactive waste that remains in the environment for thousands of years.  Biofuels are made using plant material.  Depending if a country is poor or industrialized determines the pollution outcome.  Biofuels require crops grown well so cold climates aren’t a good place to produce biofuels.  In places where water flows, dams can be installed to provide hydroelectric power plants to produce energy.  With kinetic energy water is used to turn turbines that drive electric generators.  Many dams in the western United States are being taken down because they have negatively impacted pacific salmon.  Wind energy through wind farms harness the wind and generates power.  Geothermal power uses heat from underground sources deep within the earth.  The most abundant places are near volcanos.  In California 5% of energy is produced by geothermal sources.  Solar power is used to produce electricity in two ways.  One way is using photovoltaic panels to convert light into energy.  The panels absorb photons (light) and release electrons as a direct current.  The other way is to use mirrors to create steam.  The steam is then used to run turbines to generate electricity on a large scale.  Solar power at this time isn’t very efficient so it isn’t practical to supply a wide amount of energy for consumers.  Only 30% of solar power technology is effective at energy saving.  Something interesting I learned was how to position your house in ways that allows less energy use.  Also using building supplies with high thermal mass are helpful in storing winter heat and keeping a house cool in the summer. 
Humans are created a Biodiversity Crisis
Humans are hurting the biodiversity of the world.  Biodiversity is referring to species richness and the variety of living organisms on Earth.   There have been 1.75 million species that have been unidentified on Earth.  It is estimated that there could actually be more like 10-80 million different species.  It is said that the more diverse a place is the better ecological health the place is in.  Sadly scientists guess that we might never identify some species because the extinction rate is 50 times higher that it has been in the past 100,000 years.  Some reasons for this include pollution and overharvesting of Earth’s natural resources.  This causes natural habitats to be destroyed resulting in animal and plant extinction.  Farming directly destroys habitat and alters the variety of plants and animals within the natural ecosystem.   Farming also causes soil erosion but if done without tilling the land then soil erosion is minimal.  Lots of rainforests are being destroyed by farmers are alarming rates.  Another way natural habitats are being destroyed is by commercial logging.  Loggers are cutting down 800 year old trees in Africa and shipping them to other countries to be made into furniture, floors , and much more.  Sadly logging has increased to frightening rates.  Africa’s Ivory Coast once has 70 million acres of tropical rain forest and now has been reduced to 5-7 million acres.  People will have to recognize and possess the drive to do something about the biodiversity being lost so quickly.  Urbanization also directly effects biodiversity.  Cities cover only 3% of the Earth’s surface but produces 78% of carbon emissions, 60% of residential water usage, and 76% of all wood used.  Urbanization also reduces the number of bird and insect populations thus reducing the biodiversity in that area. 
Everything is connected and reliant on each other for the success of biodiversity.  Humans are reliant on so many other species for food, shelter, clothing, and medicines.  An astonishing 25% of prescription drugs sold in the United States are made from 50 different species of plants.  There are over 265,000 flowering plants in the world but less than 1% of these plants have been tested for medical uses.  Plants also provide the nutritious foods humans should eat for the best health.

Sustainable Development Supports Future Economic Needs
People need to come together to make changes and start creating a sustainable environment.  In 1987 the World Commission on Environment and Development, defined sustainable development by “development that meets the needs of the present without compromising the ability of future generations to meet their economic needs”.  A strategy that is used to help us reach a sustainable world is to consume less.  By consuming less people will actually gain more.  Everyone should recycle as much as possible for many reasons.  Fewer trees will be cut down and less natural resources depleted by recycling.  By using sustainable agriculture developing systems will raise crops and livestock by following rules that don’t deplete the Earth’s resources.  Another way to reach a sustainable world is by having a green roof.  A green roof is a vegetated roof system that increases energy efficiency of buildings.  Green roofs provide a water filtering system and absorb pollution, nitrogen oxides, and carbon dioxide.  An amazing one square meter of a green roof absorbs the amount of pollution produces by a vehicle driven 10,000 a yearly.  If the rate in which people are having babies doesn’t stop raising then eventually the death rate will rise to be equal with the birth rate. 
By conserving energy in many ways we can stop depleting our resources.  Simple things like unplugging items when you’re done with them and switching to florescent light bulbs all help.  By using products that are better for the environment and contain recycled material help the environment.  Protect ecosystems that are important because when they are destroyed the ecosystem is gone forever.  Important foods and medicines will be also gone forever if an ecosystem is destroyed.  Daily decisions we make will shape what type of future is in store for humans on Earth.