Algae on Lake Erie

The point of this article is to inform the reader that, all of a sudden, algae has been forming everywhere in Lake Erie. Scientist and researchers think that algae are suddenly showing up because it is fed by rich and plentiful phosphorus, which means water loving. The phosphorus comes into the lakes by neighboring towns. Algae really has not been a concern to the shores since the 1960’s and 70’s when it was really bad.
The algae are toxic to both swimmers and the fish in the water. One fish already has shone up dead. On September 3rd around West Sister Island eleven samples were taken of the algae, and nine of them showed that they were more toxic than the guidelines set by the World Health Organization. The algae will give people a bad rash, but it is not fatal. The algae are also “poisonous” to the environment as well. When the algae dies it takes up oxygen to decompose, and that creates oxygen free zones in the water.
The algae will never go away! Thousands of dollars are spent to exterminate the algae, but it does not do any good. Officials are working hard to get rid of it.
As one can see algae is a serious problem to bodies of water, it is hazardous, and it doest go away too quickly. It puts up on heck of a fight!

Opinion
I never really understood the dangers of algae until I read this article. I know now more than I ever did about the subject, and I know the dangers of algae. Me, a water loving person now knows more about algae, and why I should not go in it. It was highly educational.


By: T.L.


Source:
http://news.yahoo.com/s/ap/20080921/ap_on_sc/booming_algae_bloom;_ylt=AmHSD0pQgz19XDUhyrG272sPLBIF

Waves Made by Ships Threaten the Survival of Marine Life

When you go to a river or a beach, and get in the water, you normally see a beautiful array of marine life. You may see crabs scuttling along, or little snails going at their own pace, or maybe even insect larva. Did you know that these animals, or macrozoobenthos as scientists call them, are in danger? There are as many as 10,000 organisms living in only one sq feet of water, and most of them are insect larva. They help clean the water by eating the leaves and other things that fall in the water. These are the macrozoobenthos, and they are all invertebrates that are visible without the use of a microscope. Researchers have been conducting many experiments to prove this hypothesis. For example they monitored the larva of Calopteryx splendens, a dragonfly, and then they drove a small speedboat along the shore. The waves caused by the speedboat cause the larva to lose its grip on the rock, and it got detached. It had to paddle around helplessly, before it found solid ground. If they stay suspended in the water for a long time they have a risk of being eaten. Also since they spend a lot of energy to fix this, it may result in damaging their growth process. The researchers found that the more complex the habitat was, the less damage would occur. For example, if the shore has many trees, they hold it together so they waves cannot detach the macrozoobenthos. Dense reed belts which can help these animals by breaking the waves, and they are posing as one solution. Research still goes on as scientists collect specimens to see long term effects on the survival of these animals. To protect these animals simple measures can be taken, such as boats going farther away from the shore, or slowing down as they get nearer.

Source: http://www.sciencedaily.com/releases/2008/09/080915083723.htm

By: A.S.

Osteoporosis

What is osteoporosis?
Osteoporosis is a disease in which bone mass and density decrease and bone tissue get a lot thinner. Those that have osteoporosis, are very prone to fracturing bones. Any bone may be affected, but the most commonly fractured bones are the wrist, spine, and hip. Fractures in the hip and spine are the most dangerous out of all fractures for many reasons. Hip fractures can impair one's walking and may require assistance for the rest of their life. Not to mention, it may cause a permanent disability and can be fatal. Fractures on the spine can create loss of height, terrible back pain, and deformity.



How common is osteoporosis?
Women are four times more likely to get osteoporosis than men and 80% of those with the disease are women. Scientists have proven that age increases the probability of getting osteoporosis. There was a study done on Caucasian women in the United States. The results showed that 14% of those that were 50-59 years old had osteoporosis, 22% that were 60 to 69 had the disease, 39% of those aged 70-79 years had it, and 70% of the women who were 80 years and older had it. This shows that with osteoporosis, age really does make a huge difference.



How can I prevent getting this disease?
Loss of calcium results in bone mass and density decrease, which makes bones weak and frail. This is the most common symptom of osteoporosis. One way to prevent getting this disease is by having a diet rich in calcium. Not only is calcium essential for having strong bones, but also strong teeth and proper body functions on the heart and brain. Another leading cause for osteoporosis is loss of Vitamin D. Some products rich in Vitamin D are dairy products, many types of fish, and green leafy vegetables. Dairy products and orange juice, are actually rich in both Vitamin D and calcium. Vitamin D isn't always consumed; sunlight is also a great source of this vitamin. Another main cause of osteoporosis is lack of certain hormones. For men this hormone is called is androgen and for females it is estrogen. For women, estrogen levels decrease after menopause causing an increase in risk for osteoporosis. This is one of the main reasons why women's age increases the risk for this disease.



Diagnosis and treatment for osteoporosis
Osteoporosis is diagnosed by measuring the bone mineral density, otherwise known as the BMD. X-ray absorptiometry (DXA or DEXA) is the most common way to measure a person's BMD. Whether or not one has the disease, is determined by the following. If a person's BMD is between -1.0 and -2.5, they are diagnosed with osteopenia. Osteopenia is when bone mineral density is lower than normal and is said to be a precursor to osteoporosis. If a person's BMD is under -2.5, they are diagnosed with osteoporosis. One treatment for osteoporosis is exercise, for healthier bones. Another is nutrition supplementation, calcium in particular, which strengthen your bones. The last type of treatment for osteoporosis is medication. The four most common medications for this disease are Fosamax, Miacalcin, Raloxifene, and Estrogen.



References:
http://www.emedicinehealth.com/osteoporosis/article_em.htm
http://en.wikipedia.org/wiki/Osteoporosis
http://www.mise.org/mise/index.jsp?p=glossary
http://www.nof.org/osteoporosis/index.htm
http://www.online-vitamins-guide.com/vitamins/vitamin-d.htm
http://orthopedics.about.com/cs/osteoporosis/a/osteoporosis_2.htm


By A.

Maternal Depression Affects Teens

Based on recent studies, researchers found that teens with depressed mothers are more likely to battle depression themselves. Researchers found that teen depression is not only linked to genes but it mostly occurs when a teenager is living with or around a mother who is depressed. They also found that teens with depressed fathers do not usually become depressed because of their surroundings but if they do develop depression it is probably due to genes. They said that this is because mothers usually take most of the responsibility for nurturing their children.

When a mother is depressed, it usually negatively affects her parenting skills, she has difficulties interacting with her children, and can cause problems with her marriage if she is married. Researchers say that this may cause problems with their children and can affect how they do in school and how they do socially. This causes the depression to spread from the mother to the child. When a mother is depressed this also causes her children to develop behavioral problems.

When psychologists did a study with depressed moms and began giving them antidepressants and other treatments to aid their depression, there was a noticeable difference in the mothers and teens. Children improved most when their moms responded to treatment within three months. In the study 70 out of 123 mothers improved within a year. When the teen's moms began to come out of their depression so did they and this greatly improved the teen's emotional health. The study proved that mother's changes can greatly improved their kids'mental health and depression.

sources:

URL=http://www.sciencenews.org/view/generic/id/36386/title/Teen_depression_No_genes_required

by A.M.

Visual Test predicts Math Scores

Number Sense

Are you good at estimating numbers of things? Well, if you are this special skill could help you get higher test scores in math. Studies done at John Hopkins University of Baltimore showed that people that have a good sense of estimation have had better math scores on standardized tests than people who didn't have good estimation skills. All humans have this estimation, but it depends on how high the skill is in your body.

Researchers from the University of Baltimore tested 64 fourteen-year-olds. They told them to look at a picture of blue and yellow dots. Each picture had 10 to 32 dots on it. Some pictures had more blue dots than yellow and others had more yellow than blue. Then the students had to pick the picture with the most dots of one color. The trick was that the students only had a fraction of a second to look at the picture. The researchers found a wide variety of how well the students could pick out which picture had more of one color dots. Some kids could clearly distinguish which picture had more of the same color dots, but others couldn't. Then, the researchers looked at the fourteen-year-old's test scores all the way from kindergarten to 8^th grade. The kids who did well on the dot test also did very well on their standardized math tests. In addition, the kids who didn't do that well on the dot test also had lower test scores on their standardized test scores.

This study shows that there could be a link between low test scores and how people can estimate in their head. Scientists still are continuing to look at this possible resolution and are still researching if a person's number sense is linked to their overall math education.

By: M.B.

http://www.sciencenews.org/view/generic/id/36601/title/FOR_KIDS_Math_and_our_number_sense

Ringworm: NOT an exotic creature from a Harry Potter Novel

Although the term ringworm sounds like just a worm and a ring, it is very far from that. Ringworm is a serious skin disease that can also affect the nails and scalp too.
Ringworm first starts out as a red rough patch or a bump. It becomes very itchy and uncomfortable, and over time it may start forming into a ring shape with itchy, red bumps surrounding it. But, not every person who is infected develops the rings.
Ringworm can also be known as athlete's foot, once it affects the feet. Athlete's foot usually doesn't involve the rings like in ringworm on other areas of the body, instead, usually there are scaly, itchy patches between the toes. Ringworm can also be found on the scalp, in this case, it begins resembling a pimple, before becoming patchy, flaky, or scaly. This can cause the hair on the infected area to fall out, or cause the scalp to become tender or swollen. Ringworm can also affect the nails on the the hands or feet. The nails might become very thick and become a deep yellow or white color. It is also very common that the nails become very brittle.

Ringworm is very difficult to prevent. The fungi that cause it are extremely contagious, they easily spread from one person to another, you can also become infected from contact with animals.
The best you can do to protect yourself from the infection, is to just basically cover areas of your body that come in contact with public areas. Such as wearing flip flops in public showers and locker rooms, and to wash sports clothing very regularly. It is also important to shower and wash your hands every day, and especially after touching animals.

Ringworm is fortunately very easily treated. If ringworm is ever a problem for you, your doctor will recommend an anti fungal medication. Also, an ointment or cream will do the job for a skin infection but if the nails or scalp are infected the anti fungal medicine is the way to go.

by LT

Sources:

http://kidshealth.org/teen/infections/fungal/ringworm.html

Make an Interactive White Board out of a Wii Remote

Watch this video!

Johnny Lee gives a demonstration about how to use a Wii remote in some amazing ways.

Take a look!

I'd like to encourage some of you to try this project.





Click here: Johnny Lee Profile on TED.com

be good,
Mr. Hazen

Ice Cream is an Igneous Rock

Summary

The article I read stated ice cream was like an igneous rock. The author or authors believe this because of two qualities that both have. The first is how they are made, and second, what the particles look like under a microscope.

Both ice cream and igneous rocks are made somewhat alike. Ice cream is made by collecting chemicals and putting them all together. You freeze the mixture below its freezing point. While the mixture is freezing you want it stirred so it is smooth. But you must freeze it quickly to eliminate the possibilities of ice crystals growing large and ruining the ice cream. An igneous rock comes from a volcano; it is made of lava, so as it cools down it becomes a solid just like freezing ice cream makes it almost a solid.

Then it says in the article that a scanning electron image shows ice cream particles are like igneous rocks. In between the ice cream particles, ice crystals and air bubbles, is a sugar solution that separates the particles. In the article it also says that an igneous rock has separated mineral crystals in a glassy groundmass. So their make up looks similar.

Opinion

I found this article very educational, yet interesting. Without reading this article I would have never given any thought to that ice cream may be some kind of igneous rock. The writer's opinion was backed up with sufficient evidence, which made me really believe that ice cream could be some type of igneous rock, and I would love to learn more about the subject.

By: TL

http://www.boingboing.net/208/08/21/ice-cream-is-an-igne.html

Picture

http://library.thinkquest.org/05aug/00461/images/igneous.jpg

http://i5.photobucket.com/albums/y152/boo_licious/misc4/BlueCheeseIceCream.jpg

Icy Discovery on Mars

An Icy Discovery on Mars, but Where's the Water?

A couple of years ago the Mars Odyssey spacecraft had discovered signs of water ice several inches below the surface. In a follow up experiment about two months ago water ice was discovered on Mars by NASA! However, since then NASA's Phoenix Mars lander has not found any more water.

Bits of water vapor were detected in the Martian air by Phoenix's weather station. Scientists expected that as the nighttime temperature got colder with the capacity of moisture Martian air can hold, this would result in minuscule specks of moisture falling to the ground, landing on dust particles. Then a probe would pick up the presence of water. But Mars has not cooperated.

The first time it worked, but since then it has not worked. On Earth, when this happens it results in morning dew. Scientists are currently troubleshooting why it worked the first time but has not since. They might try to stick the probe deeper into the soil closer to the ice layer.

This ice discovery was huge in the search to find life on Mars, but another step won't happen unless they find more water!

http://www.nytimes.com/2008/09/09/science/09mars.html?ref=todayspaper

EO

Record-Breaking Ice Shelves Seperate

What Happened?

Over the course of the summer, there were two giant icebergs that were broken off of Ellesmere Island in Arctic Canada; one in late July, and one in August.

July, 2008

In late July, two giant pieces of ice, one 5.4 square miles and the other 1.9 square miles, broke off of the Ward Hunt Shelf on Ellesmere Island. It has been said that it was the largest break off on an ice shelf since the break from Ayles Ice Shelf, with a size of 25 square miles. Before the major breakaway, scientists already discovered deep cracks in the ice shelf.

The Ward Hunt Ice Shelf

The Ward Hunt Shelf, at a size of about 170 square miles, has been said by scientists that it began about 4,000 years ago. Ice shelves are thick layers of ancient ice and snow that build up over the years. Ellesmere Island used to be surrounded by one large ice shelf, but in the early 1900s, it split into five smaller ice shelves, with the Ward Hunt Shelf being the largest of them.

August, 2008

In early September, a similar incident happened, except larger. The Markham Ice Shelf separated and the 19-square-mile shelf is now floating in the Arctic Ocean. Scientists were surprised by this, being that they were studying the shelf, but the harsh weather paused their research, and when they started again, the shelf was gone. One scientist, David Mueller, said that two blocks separated from the Serson Ice Shelf and smaller blocks detached from the Ward Hunt Shelf as well.

What Made The Breaking Happen?

One scientist, Luke Copland, said that "reduced sea ice conditions and unusually high air temperatures have facilitated the ice shelf losses this summer". He also said that because of other cracks that were found, especially in the Ward Hunt Shelf, the shelves are going to continue to disintegrate. All of the breaks over the summer were caused somewhat by global warming. The high air temperatures were caused by global warming, and the reduced underwater ice conditions were most likely from global warming as well. A long time ago, shelves that would break off would have ice eventually grow back in its place, but because of the global warming issues, there isn't any hope for regrowth, which means that the ice will eventually die off and will melt completely if no action is done to save the planet. If we can solve global warming, then the ice in the Arctic and the Antarctic won't melt, and the world will be a happier place.

Who and What Global Warming Affects

Global warming affects everything, especially the animals and plants that live in the regions that global warming is affected most. In the Arctic and Antarctic regions, the polar bears and the penguins are affected the most. They live and survive on the ice and in the icy water, so with melting ice and warming waters, both the polar bears and the penguins can't survive. Many underwater animals are also affected by the increasing temperatures from global warming. If we don't act fast, the world will never be the same.

by GG

How Mice Smell Fear

All in all, one can see that the ganglion in a mouse's nose is a very special feature, enabling the mouse to smell fear. The following paragraphs provide a closer look at the physical structure of the ganglion and how the danger signals are sent from the ganglion to the brain.
The Grueneberg ganglion is an arrow-shaped structure at the end of the nasal cavity. It lines both sides of the nasal septum, which is also located at the end of the nose. The neurons in the Grueneberg ganglion are covered with skin, and have cilia — fingerlike projections often found on scent-detecting cells — and are wrapped with support cells called glia.
Approximately five hundred neurons are located in the ganglion which, when alerted, send danger signals that travel through the axons to the section of the brain that identifies smells. The brain then processes these signals and sends messages throughout the mouse's body causing it to freeze or run away.


Thanks for reading!

-A&P

Here is the article with the links to the magazine below.

How Mice Smell Fear

Mice smell fear in other mice using a structure called the Grueneberg ganglion. The ganglion has about 500 nerve cells that carry messages between a mouse's nose and brain.

You can usually tell when a person is afraid just by the look on his face. Mice can tell when other mice are afraid too. But instead of using their beady little eyes to detect fear in their fellow mice, they use their tiny pink noses.

Scientists are beginning to understand how mice sense fear. According to a new study, the animals use a structure called the Grueneberg ganglion, which sits inside the tip of their whiskered noses. The ganglion is made up of about 500 neurons — specialized cells that carry messages between the body and the brain.

Researchers discovered the Grueneberg ganglion in 1973. Since then, they have been trying to understand what the structure is used for.

“It’s … something the field has been waiting for, to know what these cells are doing,” says Minghong Ma, a neuroscientist at the University of Pennsylvania School of Medicine in Philadelphia.

Researchers already knew that the Grueneberg ganglion sends messages to the part of the brain that figures out how things smell. But there are other structures in a mouse’s nose that also pick up odors with accuracy. So, the ganglion’s true function remained a mystery.

To investigate further, researchers from Switzerland began testing the ganglion’s response to a variety of odors and other things, including urine, temperature, pressure, and acidity as well as message-carrying chemicals called pheromones. The ganglion ignored everything the team threw at it. That only deepened the mystery of what the ganglion was actually doing.

Next, the scientists used highly detailed microscopes (called electron microscopes) to analyze the ganglion in fine detail. Below you can see what a mouse's ganglion looks like under a microscope. Based on what they saw, the Swiss scientists began to suspect that the ganglion detects a certain kind of pheromone — one that mice release when they’re afraid or in danger. These substances are called alarm pheromones.

To test their theory, the researchers collected alarm chemicals from mice that were dying of poisoning by carbon dioxide. Then, the scientists exposed living mice to these chemical warning signals. The results were revealing.

Cells in the Grueneberg ganglions of the living mice became active, for one thing. At the same time, these mice started acting fearful: They ran away from a tray of water that contained alarm pheromones and froze in the corner.

The researchers conducted the same experiment with mice whose Grueneberg ganglions had been surgically removed. When exposed to alarm pheromones, these mice continued exploring as usual. Without the ganglion, they couldn’t smell fear. Their sense of smell wasn’t completely ruined, however. Tests showed that they were able to smell a hidden Oreo cookie!

Not all experts are convinced that the Grueneberg ganglion detects alarm pheromones, or that there is even such a thing as an alarm pheromone. What’s clear, however, is that mice do have a much more fine-tuned ability to sense chemicals in the air than humans.

http://www.sciencenews.org/view/generic/id/36209/title/FOR_KIDS_Mice_sense_each_others_fear

http://www.sciencenews.org/view/generic/id/35672/title/How_mice_smell_fear

How Water Guns Work

Have you ever wondered how a Supersoaker works?

Over the summer I built one in a summer engineering camp called TARGET (The Academy at Rutgers for Girls in Engineering and Technology).

Thesuper soaker consists of two one way valves, a nozzle, and a pump. When you pump the water it goes through the first one way valve and creates pressure in the storage container. This builds up so that you can spray at large distances. To spray you have to close the first valve and open the second valve. This releases the water which shoots out because of the pressure. The picture is a simple diagram of a prototype Supersoaker.



Materials:
7 feet of PVC piping
2 one way valves
1 funnel
1 cap
water sealant glue
clear plastic tubing
1 elbow connecter
2 Y-connecters
1 dowel
2 rubber rings

you also need power tools to make the nozzles out of the caps
and a PVC cutter

~K.L.

Gene Regulation

Gene Regulation Makes The Human

Recently genetisists have been working with human and chimp DNA. They believe that they have found what gene makes us differ from the chimp. A recent experiment in which genetisist James Noonan and colleauges have taken bits of human and chinp DNA and inserted them into mice. After a while the mice with human DNA had shown growth in the thumb, toe, forelimb, and hind limb, while the mouse with the chimp DNA only showed a small ammount of change. To truely test these results the genetisists took the bits of chimp and human DNA and inserted them into mice embryo. The results came back the same with the mouse with human DNA grew the thumb, toe, and limbs, while the chimp did not.

http://www.sciencenews.org/view/generic/id/36201/description/Gene_regulation_makes_the_human
-MC

Solar Expansion

http://www.sciam.com/article.cfm?id=the-sun-will-eventually-engulf-earth-maybe
The future looks bright—maybe too bright. The sun is slowly expanding and brightening, and over the next few billion years it will eventually desiccate Earth, leaving it hot, brown and uninhabitable. About 7.6 billion years from now, the sun will reach its maximum size as a red giant: its surface will extend beyond Earth’s orbit today by 20 percent and will shine 3,000 times brighter. In its final stage, the sun will collapse into a white dwarf.
Although scientists agree on the sun’s future, they disagree about what will happen to Earth. Since 1924, when British mathematician James Jeans first considered Earth’s fate during the sun’s red giant phase, a bevy of scientists have reached oscillating conclusions. In some scenarios, our planet escapes vaporization; in the latest analyses, however, it does not.
The answer is not straightforward, because although the sun will expand beyond Earth’s orbit, or one astronomical unit (AU), it will lose mass along the way. As a result, Earth should drift outward as the gravitational tug lessens over time. (At its maximum radius of 1.2 AU, the sun will have lost about one third of its mass, compared with its current heft.) In this way, Earth could escape solar envelopment.
But other factors complicate the analysis. Drag on the planet from the sun’s outermost, tenuous layers will cause Earth to drift inward. Smaller forces from the other planets—all in turn reacting to the same reducing, expanding sun—are even more difficult to account for completely.
Earlier this year two teams reported different kinds of calculations indicating that Earth will be swallowed up by the sun. In a calculation that would thrill any college junior studying classical mechanics, Lorenzo Iorio of Italy’s National Institute of Nuclear Physics used perturbation theory. It simplifies analyses by dropping relatively small factors, thereby making complex equations of motions that describe the interactions between the sun and Earth mathematically manageable. Assuming that the sun’s yearly mass loss (currently about one part in 100 trillion) remains small for the duration of its evolution to the red giant phase, Iorio calculates that Earth will move outward at about three millimeters a year, or only 0.0002 AU by the sun’s red giant phase. But at that point the sun will balloon up, in only a million years, to 1.2 AU in radius, thus vaporizing Earth.
Iorio’s paper, submitted to Astrophysics and Space Science, has not yet been peer-reviewed. Several scientists question whether quantities that Iorio assumes are small will indeed remain small throughout the sun’s evolution.
Even if Iorio got his number crunching wrong, he may have the right answer. In an analysis published in the May Monthly Notices of the Royal Astronomical Society, Klaus-Peter Schröder of the University of Guanajuato in Mexico and Robert Smith of the University of Sussex in England also conclude that Earth is doomed, by using more exact solar models and by considering tidal interactions. As the sun loses mass and expands, its rotation rate must also slow down—physics students learn this relation as the conservation of angular momentum. The slowed rotation causes a tidal bulge on the sun’s surface. The gravity exerted by this bulge pulls Earth inward. With such a consideration, the researchers find that any planet with a present-day orbital radius of less than 1.15 AU will ultimately perish.
Could Earth be saved if someone is still left at home? In a bold piece of astronomical engineering, Don Korycansky of the University of California, Santa Cruz, and his colleagues have proposed nudging Earth with a large asteroid arranged to pass nearby periodically. It could take one billion years to move our planet out to somewhere safe, like the orbit of Mars. Our moon, though, might have to be left behind, and any miscalculation could mean extinction. Needless to say, more study is required.
If the sun ever reaches the size to be a red giant, it may exterminate all life that we know about on earth. However, if the life on earth is destroyed, new life would eventually form on earth creating a new form of species. If the sun gets bigger, its gravitational pulls towards earth changes. If the gravity pulls increases, earth would be sucked into the sun and would be incinerated. If the gravity pulls decreases though, the earth will drift out of orbit and be lost in the galaxy.



by A.D.

Male Toads turn Female

Male Toads Turned Female

Frogs and toads are very sensitive to the environment. They are sometimes called environmental indicators. This is because they breathe through their skin. Therefore, if something is wrong in the air or the ground they will still inhale or consume it.

Biologists in the University of Florida analyzed many cane toads (Bufo marinus). Some were in the city suburbs while others were near a little to heavy agriculture areas. They found many males exhibiting serious feminization. They think that the cause of this is because of the chemicals used in farming.

In areas with heavy agriculture only 40% of the toads were males. An equal number were intersex males with both males and female parts. In two other sites 20% appeared to be male, yet these males had a Bidder's organ. A toad's Bidder's tissue originally doesn't have a function, yet if the males lose their testicular function, their Bidder's organ may mature into an ovary.

To figure out which toad is both male and female, you have to look at its appearance. In the picture above, the toad on the left is a female because of its mottled skin. The toad on the right is a male because it has plain skin. The toad in the center is both because it has mottled skin like that of a females, and it has nuptial pads like the males. The nuptial pads are the dark stains on its fingers, females do not have these. You can also figure out if the toad is both female and male by looking inside of it and finding some reproduction deformities.

Tyron Hayes of the University of California has investigated changes in frogs. He thinks that the weed-killer altrazine is the cause of the feminization in frogs. Feminine appearance and malformed organs aren't the only obstacle in mating, it's their behavior. In a test, only a few toads seemed to be interested in mating while others were not. This article just goes to show what chemicals and the environment can do to helpless animals.

http://www.sciencenews.org/view/generic/id/33865/title/Farm_life_turns_male_toads_female

- Edianys

Water Bears in Space

This article was about an animal that could survive in open space, which is extremely cold, where there is an incredible amount of dangerous radiation, and no oxygen. These animals are called Tardigrades, but they are also known as "Water Bears". This was the first time that scientists ever tested if an animal could survive the extreme conditions of open space with no protection, so scientist chose their test subjects very carefully. Tardigrades are very small invertebrates, about one to one and a half millimeters long, and they usually live in wet lichens and mosses. "Water Bears" are very resistant to dryness, due to their homes often being dry, and they can still live after years of dryness. This is not the only adaptation they possess, they are incredibly resistant to a high range of temperatures, hot and cold, and they also are resistant to radiation. Their adaptations were several of the adaptations needed to survive in open space.

In September of last year chosen Tardigrades were dried up and put into a low, 270 km, orbit around Earth were they were all vulnerable to the harsh conditions of open space. They were sent up by a European Space Agency FOTON-M3 spacecraft.When they were returned to Earth, scientist not only found out that most of them survived the vacuum and cosmic rays, but that some even survived the solar UV radiation which is 1000 times higher than on the surface of the Earth. The Water Bear survivors were still able to reproduce fine after the experiment, meaning that all the exposure did not affect these animals. The surprising conclusion to this experiment was that the Tardigrades survived the solar UV radiation that most organisms cannot survive. Scientists who ran this experiment were baffled by the results, while they are still not sure how this happened, they suspect that it was because of these animal's adaptation to extreme dryness.



This science investigator found this experiment very interesting. This opens up whole new ideas and options to scientists wondering how they can send the first man to Mars. Humans obviously cannot stay in open space without a space suit, and other important equipment. A human cannot go to Mars at all because until now scientist have failed to invent a way to make a space suit that can withstand the extreme conditions of Mars. If scientists observed and studied this animal more, they could possibly learn how they were physically able to survive open space. Once they have learned this they could possibly apply those physical traits to make a space suit that could withstand the extremes of Mars. Even though surviving open space near Earth is not nearly as incredible of a task as of surviving Mars, if an animal could do it without equipment, then it is not very hard to believe that man could go to Mars with the equipment necessary in the near future. That is what this science investigator concluded and wondered about after reading this science current event.


-LD

http://www.sciencedaily.com/releases/2008/09/080908135906.htm- link to article



http://www.sciencedaily.com/images/2008/09/080908135906.jpg - "water bear" picture link

Granite Counters and Radon

Can granite countertops be harmful to our health? The issue is that some granite countertops can emit elevated levels of radon. Radon is a radioactive gas that can cause lung cancer and is the second leading cause of lung cancer after smoking. Granite counter tops can contain radioactive materials like thorium, uranium, and potassium (K40). These elements may release radon gas as they decays. Only highly elevated amounts of these radioactive elements can be hazardous to our health.

Our bodies are exposed to countless amounts radiation each day. The Environmental Protection Agency (EPA) and the Nuclear Regulatory Commission stated that the average person is exposed to a level of 360 millirems of radiation per year. Millirem is the measure of energy absorbed by the body. Some health physicists and radiation experts say that emissions from granite countertops are not as significant a risk to our health as the radiation that is seeping into our earth’s crust from outer space. In addition to the radiation from outer space, experts say that man-made radiation such as x-rays, luminous watches and smoke detectors are actually more detrimental to our health than the radioactive gases from granite countertops.

To test the amount of radon gas your granite countertop is emitting in your home, you can hire a certified radiation technician to test your granite countertops. If your granite countertop is emitting four picocuries per liter of air or higher, you should consider removing them. A picocurie is the measure of radioactive emissions to the air. If you are unsure about the granite in your home you should consider getting your home tested.

Source:

· http://www.nytimes.com/2008/07/24/garden/24granite.html?pagewanted=2&_r=1&em

Picture sources:

· http://images.google.com/imgres?imgurl=http://www.global-b2b-network.com/direct/dbimage/50343312/Granite.jpg&imgrefurl=http://www.global-b2b-network.com/b2b/13/16/676/granite.html&h=360&w=360&sz=38&hl=en&start=2&um=1&usg=__-04e7UKkSAJVxtAF799DehXsvBg=&tbnid=eaa5qbFkyN24tM:&tbnh=121&tbnw=121&prev=/images%3Fq%3Dgranite%26um%3D1%26hl%3Den%26rls%3Dcom.microsoft:en-us:IE-SearchBox%26rlz%3D1I7DMUS%26sa%3DN

· http://www.dreamdesignstrading.com/images/products/granite_countertops_03.jpg

· http://www.nytimes.com/2008/07/24/garden/24granite.html?pagewanted=2&_r=1&em

by: DR

Is Global Warming Worsening Hurricanes?

Hurricane Gustav and Hanna hit the United States not long ago and Hurricane Ike is scheduled to hit soon. Hurricane Gustav with maximum sustained winds of 110 m.p.h caused an estimated $20 billion of damage. Although less that Hurricane Katrina in 2005 which caused $38 billion of damage, you also have to take in the fact that we were also ready for this hurricane. With so many storms in such a short period of time, there is one question. Could global warming be strengthening hurricanes? Researchers led by a meteorologist, James Elsner, have been studying data of tropical storms since 1981. These researchers have found that the maximum wind speeds of very strong storms have been dramatically increasing.

Global warming has risen ocean temperatures. What this means is that developing hurricanes can absorb more warm air. Hurricanes are powered by the transfer of energy from the ocean to the atmosphere (evaporation). As the water's ability to evaporate increases, so do the hurricane's power. As long as a hurricane is in waters of 79°F, they will continue to grow.

Scientists have not confirmed that global warming is actually increasing the power of hurricanes, but data will improve over time with more storms coming.

by Calvin

Is Global Warming Worsening Hurricanes?
By Bryan Walsh from Time Magazine
http://www.time.com/time/health/article/0,8599,1839281,00.html

Elephants Adapting Blog

Humans are probably the greatest hazard to animals around the world. We often kill animals for fur, shell, meat, or to keep the population under control. The African Elephants have learned to distinguish friends from foes by use of smell. You might have heard that elephants also have other defense mechanisms up their sleeves. For example, the can hear vibrations through their feet, they have an excellent sense of smell, they can form protective circles etc. But you have probably never heard of the fact that elephants can distinguish certain groups of humans.

The African elephants can tell the difference between ethnic groups by smell alone. There are two different groups of humans that live near the elephants in the Amboseli National Park, Kenya. One group that lives near the elephants is the Maasai. The Maasais' lives circulate around cattle. Their diet mainly consists of milk and the meat of cattle. They also wear distinctive bright red clothing. Sometimes the Maasai kill an elephant to show manliness.

The other group of people that live near the elephants is the Kambi. The Kambi traditionally wear white articles of clothing, and their diet consists of meat and mainly vegetables. They never have killed elephants. An experiment was conducted to see what the elephants' reaction was to the two different groups of people. First, a Maasai piece of clothing was hidden out of sight near the elephant's grazing grounds. The reactions of the elephants were astounding. They ran continuously for 0.6 miles. After stopping, they were still quite nervous, and calmed down a few minutes later. The reaction to the Kambi's piece of clothing was quite different. The herd of elephants walked about 150 feet away, and stood comfortably grazing.

Another experiment was conducted in which a person held up two pieces of clothing, one red and the other white, (neither garment had been worn). Surprisingly, the stronger reaction was to the red garment of clothing. This experiment can be very helpful in many ways. For example, nowadays many elephants are rampaging towns and destroying many crops. Because of this many elephants are being killed worthlessly. We can use odor cues as a tool to keep the elephants from destroying fields and crops. For example, we can set up those odor cues at the outskirts of towns to prevent the killing of such an amazing creature.

The elephant is one of the world's smartest creatures. It can recognize itself in a mirror, it can forms defensive circles with the young ones within, and they are one of the largest and fiercest creatures. It is amazing in every aspect. The elephant is the largest land mammal, and its trunk has close to one hundred thousand muscles in it! Elephants also help the ecosystem in many ways. For example, termites of tem depend of elephant dung for food and homes. Another example is that they often pull down trees to eat leaves. By doing so, they clear the way for new vegetation. Now many elephants are being poached, and their habitat is being destroyed day by day. We should establish a sustainable program to protect the population of elephants and their habitat. This can be achieved by looking into the conclusions reached by the experiments.

Source: http://news.nationalgeographic.com/news/2007/10/071018-elephants-smell_2.html.

AS

Blood cancer cells

Recently Australian scientists figured out a way to stop deadly blood cells from growing and hopefully put to an end asthma, rheumatoid arthritis, and leukemia. In order to find a cure to this life threatening process, scientists had to identify the protein which causes the damaged blood cancer cells to spread. Their breakthrough innovation led to the start of a medicine to stop the damaged proteins from operating.

The receptor protein is the protein that lies on the surface of the blood cells and controls the way they are spread. Scientists say that they can now invent a drug that can attach to the receptor protein and stop the protein from telling damaged cells to multiply. By using X-ray and synchrotron imaging, scientists were able to build an image of the protein and this will hopefully help them find a way to stop the process of multiplying damaged cells.

The hormone that manages the creation of blood cells attaches to receptor proteins and from there sends a message to blood cells telling them to multiply. When the blood cells are damaged, the message from the protein telling it to multiply causes the cells to over-produce and that leads to asthma, rheumatoid arthritis, and leukemia. Researchers figured out that by stopping the damaged cells from reproducing they could also stop the growth.

There is also another drug recently found that can help cells kill blood cancer. This can help fight tumor cells and help prevent tumors. German-U.S. firm Micromet, hopes to have a clinical trial next year to get this drug approved.

by Amy

sources:

news.yahoo.com/s/nm/20080814/hl_nm/cancer_micromet_dc

www.foxnews.com/story/0,2933,401303,00.html

picture- www.cancerinformation1.com/images/leukemia.jpg

Seven Senses of a Horse

The Senses, All Seven of Them, of a Horse

You know the five senses, sight, sound, taste, smell, and touch. Did you know that horses have seven senses. It has long been known that a horse is extra sensitive, but it has only recently been discovered just how sensitive they are. The sixth sense is the ability to sense all motions and emotions of any organism around them. If you are leading the horse and your head turns only slightly toward an object, the horse will follow your gaze. When you are riding, if you turn your head, the horse will actually veer toward the direction you are looking. Also, if you are afraid, the horse will automatically sense the fear through your touch, your position, even your grip on an object. They will react to any emotion. Calm is called the neutral emotion, because the horse can not sense anything through the calm. If you relax, you become neutral, or calm.

The seventh sense is a strange ability. A horse can find its way home under normal circumstances, even when a GPS cannot locate. Scientists still do not know why this happens. The only certain thing is that it is a sense that few animals in the world possess. The only known animal that has this sense is the birds. An experiment conducted in August shows that you can trailer a horse somewhere and leave it to its own devices and it will find its way home easily.

Horses have poor vision and taste, but their hearing, smelling and touch senses are very acute. It is debated that these three contribute to the sixth and seventh senses. There are no names for these senses, but there might be if scientist's can fathom the mystery of the horses seven senses. There could be more that haven't been discovered on all animals. Maybe even human's have them.

by A.S.

Skin Cancer

What is skin cancer and what causes it?

Skin cancer occurs when normal cells increase in size and start to multiply without normal controls. A mass called a tumor is formed as they multiply. Since these types of tumors are on the skin, they are called lesions. The tumor usually can be noticed in the early stages because it commonly develops in the outermost layer of skin, called the epidermis. This way the tumor may be treated before it even becomes cancerous. The main factor of skin cancer is excessive exposure to UV rays. It has been proven that from 10 AM until 4 PM, the sun is at its strongest and therefore most dangerous state. Not only is skin cancer a result of natural sun rays, but artificial ones too, such as tanning salons or sunbeds. Sunbeds in particular can lead to the most fatal type of skin cancer, malignant melanoma. Melanoma starts in melanocytes, a kind of skin cell. When these skin cells join together they can form a mole. If these moles change color, shape, elevation, or size, they can be a sign of malignant melanoma. Malignant melanoma alone affects more than 53,600 Americans each year. It is responsible for 75% of deaths caused by skin cancer.

How do you prevent skin cancer?

One way of reducing the risk of getting skin cancer is by diminishing exposure to UV rays and sunburn. Another way is by wearing protective clothing, such as long sleeves and hats, when outside. Using sunscreen of an SPF of about 50 that blocks UVA and UVB radiation is necessary also. Scientists say that you should reapply this sunscreen every two hours and after swimming. Recently, studies showed that sunscreen does not help prevent malignant melanoma.


How common is skin cancer?

Out of all types of cancer, skin cancer is the most common. More than 1 million Americans each year are diagnosed with this disease and at least 10,000 people die from it in just the United States alone. Studies say that this is 90% increased from the 1960s. Americans are paying more than half a billion dollars a year for medical treatment concerning skin cancer.


What treatment is offered for skin cancer:

Almost all skin cancers are treated by removing the lesion and then making sure all of the tumor cells are gone. This is done for early and high-risk types of skin cancer. Freezing off the cancer, otherwise known as cryotherapy is commonly used for low-risk disease. If the disease has spread, like melanoma can for example, surgery or even chemotherapy may be needed. Chemotherapy often shortened to "chemo", is when medical drugs are used to treat a disease. The great thing about this method is that it works on the entire body, unlike other treatments like radiation therapy or surgery that only remove cancer cells in a specific area.

References:

http://en.wikipedia.org/wiki/Skin_cancer

http://www.emedicinehealth.com/skin_cancer/article_em.htm

http://www.medicinenet.com/script/main/forum.asp?articlekey=4262

http://www.cancer.org/docroot/ETO/content/ETO_1_7X_What_Is_Chemotherapy_And_How_Does_It_Work.asp

by Andrea

Cellulitis

Cellulitis is a common infection on the skin, and deep under it in the soft tissues. The bacteria enter the skin through open wounds or scrapes. It is more uncommon, but sometimes they enter through closed normal skin too. The bacteria cause infection and inflammation. The inflammation causes the skin to look very red, like it has been severely sunburned. It also causes swelling, warmth and pain. The inflammation itself causes the skin to be in a very uncomfortable state. Then comes the blisters, and when the blisters arrive, it is obvious that the cellulitis is extremely bad. If the infection gets bad enough, and treatment doesn't cure it. Amputation may be the last hope.
Cellulitis symptoms & treatment:
Cellulitis has many terrible symptoms such as, redness, major swelling, warmth, pain, large blisters or pus forming under the skin, tender or swollen lymph nodes near the infected area, and a fever may occur if the bacteria get into the blood stream. Caring for cellulitis infections is pretty simple. It can even be done at home. Just rest the area that is involved and elevate it as much as possible. The elevation will reduce swelling and make the area a bit more comfortable. Over the counter pain-relievers, such as Tylenol or Motrin, will help keep the fever down, reduce swelling, and decrease pain. If the cellulitis gets bad enough, hospital treatments would be the last resort.
Cellulitis Causes:
The bacteria that cause cellulitis enter the body through open wounds, other infections, breaks in the skin, punctures or other foreign objects that enter the skin, or infection of the bone underneath the skin. The best way to prevent this infection would be to keep the body healthy, and clean and cover up open wounds or any breakage in the skin as soon as possible.
Sources:
http://www.emedicinehealth.com/cellulitis

Posted by Lauren

Amniotic sacs not so helpful

An amniotic sac is a two layered sac that holds a baby inside of it. This sac includes fluid called amniotic fluid that surrounds the baby and protects it. Researchers from Stanford University School of Medicine have found that the amniotic fluid inside some of the sacs carry many bacteria that can cause the mother to have a premature baby. A premature baby is considered to be a baby born under 37 weeks and 12% of all pregnancies in the United States are considered premature. The scientists found fungi and bacteria in 25 of the 166 women in the study. This is 15% of the group of women and 50% higher than in the past studies that were done.

Amniotic sacs are what all of us have been in. They protect us from all the dangerous things inside our mother's stomach. If there was no amniotic sac formed during the birthing process a baby would not live. Having an infection inside the sac means the baby gets sick and wants to come out before it dies. This means you have a premature birth because the baby pushes out of the sac and when the baby comes out of the sac it has to come out of the mother.

"We only know the names of relatively a few of all the bacteria that exist, and a lot of them are difficult to culture or can't be cultured with our current technology," physician Robert Goldenberg tells us. Doctors think that in a woman's body the trigger for these bacteria are infection-causing microorganisms that live in the amniotic fluid. Even though all this information sounds like the bacteria and infections are linked to premature birth Dr. Daniel DiGiulio says that the studies have not yet confirmed that premature birth is linked to the infections and bacteria in the amniotic fluid.

http://www.sciencenews.org/view/generic/id/35826/title/Amniotic_sac_not_so_sacrosanct

http://dictionary.reference.com/browse/amniotic%20sac

by Mel