세계 식량 사정이 악화될 것이라는 보고와 함께 이것을 타개할 방법에 대해 이야기 하고 있습니다.

VOA에서 초급자용으로 특별 제작한 것으로 속도가 아주 느리므로
이해하는 데 별 어려움이 없을 것입니다.

스크립트는 아래에 있습니다만 가급적 보지 마시기 바랍니다.
그냥 음성만으로 이해하시기 바랍니다.

공부는 가급적 편하게 해야합니다.
복잡하면 오래하기 힘듭니다.
듣기공부가 좋은 것은 바로 이런 점입니다.
그냥 가만히 듣고만 있으면 되니 얼마나 편합니까.
최고로 편하게 해야 가장 오래 공부할 수 있고
안전하게 고수의 자리까지 갈 수 있습니다.

한 번에 이해가 안되면 반복해 들으시기 바랍니다.
얼마나 좋습니까. 듣기 공부되죠. 발음 좋아지죠.
이해하려고 반복하다보면 어떤 것은 저절로 암기가 되니
영작문이나 회화에까지 도움이 되죠.
1 석 4 조 인가요??

 

UN Says Food Production Must Rise; How 'Fertilizer Trees' Could Help

Maize growing under Faidherbia albida
Photo: World Agroforestry Center
Maize growing under Faidherbia albida
 

This is the VOA Special English Agriculture Report.

The United Nations estimates that world food production will have to increase by seventy percent by twenty-fifty. A world population growing in number and wealth will require one billion tons more grain each year, and two hundred million tons more meat.

The Food and Agriculture Organization says those gains will have to happen largely on existing land through "sustainable intensification."

Download this story as a PDF

Officials say the new report provides the first "global assessment of the state of the planet's land resources." It says large parts of all continents are experiencing damage. One-fourth of all land is described as "highly degraded." The greatest threats are losses of soil quality, biodiversity and water resources.

New agricultural methods and technology increased food production in many countries during the Green Revolution. Cropland increased by twelve percent from nineteen sixty-one to two thousand nine -- yet production grew by one hundred fifty percent.

But the new report warns that production rates have been slowing in many areas. In too many places, it says, practices that have increased production have also harmed the land and water. It calls for greater use of ways that can expand production while limiting damage to ecosystems.

One such practice might be the use of "fertilizer trees." These are fast-growing trees and shrubs whose leaves and roots help improve soil. A recent study found that about four hundred thousand farmers in southern Africa are using them.

The study appeared in the International Journal of Agricultural Sustainability. Lead author Oluyede Ajayi is senior scientist at the World Agroforestry Center in Nairobi, Kenya.

OLUYEDE AJAYI: "Basically these are trees that can fix nitrogen from the atmosphere and convert them into nitrates for fertilizer, for organic fertilizer, for the soil."

Farmers who planted fertilizer trees reported double the maize production of other farmers. In Zambia, the fertilized fields provided up to one hundred fourteen additional days of food.

Farmers say they need less rainwater if they use fertilizer trees. The trees reduce water runoff and soil erosion.

Mr. Ajayi says the project began when scientists were trying to identify the main threats to food security.

OLUYEDE AJAYI: "We actually got started by about twenty years ago trying to diagnose, to look at, the chief problems within the country, within the region."

The farmers themselves designed and managed part of the testing in the field, and spread the word of their successes.

And that's the VOA Special English Agriculture Report, written by Jerilyn Watson. I’m Bob Doughty.


출처:
http://www.voanews.com/learningenglish/home/agriculture/UN-Says-Food-Production-Must-Rise-How-Fertilizer-Trees-Could-Help-134635353.html

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미국에서는 은퇴한 과학자나 공학자들이 초등학생들의 과학교육에
도움을 주고 있다는 기사입니다.

스크립트는 아래에 있습니다만 가급적 보지 마시기 바랍니다.
그냥 음성만으로 이해하시기 바랍니다.

공부는 가급적 편하게 해야합니다.
복잡하면 오래하기 힘듭니다.
듣기공부가 좋은 것은 바로 이런 점입니다.
그냥 가만히 듣고만 있으면 되니 얼마나 편합니까.
최고로 편하게 해야 가장 오래 공부할 수 있고
안전하게 고수의 자리까지 갈 수 있습니다.

한 번에 이해가 안되면 반복해 들으시기 바랍니다.
얼마나 좋습니까. 듣기 공부되죠. 발음 좋아지죠.
이해하려고 반복하다보면 어떤 것은 저절로 암기가 되니
영작문이나 회화에까지 도움이 되죠.
1 석 4 조 인가요??

Scientists, Engineers Help Elementary School Teachers

Photo: Deborah Block
Teacher Fred Tenyke discusses science with the class at Georgian Forest Elementary school as retired engineer Dave Weiss, who helps apply his experience to help, looks on, in Silver Spring, Maryland, November 2011
 

This is the VOA Special English Education Report.

A program in the United States brings scientists and engineers into elementary schools to teach teachers more about how to teach science.

DAVE WEISS: "Welcome to science class. So good to see you guys today."

Dave Weiss is a retired engineer. One day each week he volunteers at Georgian Forest Elementary School in Silver Spring, Maryland, near Washington.

DAVE WEISS: "But the experiment we're going to do, we want to keep all of our variables constant."

He works with teacher Fred Tenyke on science projects for ten-year-olds.

DAVE WEISS: "Fred is so enthusiastic and he's so much fun with the kids. I can see that he really loves what he's doing. I get as much pleasure from helping the teachers as I do helping the students."

Student Jada Lockwood she says enjoys Mr. Weiss' visits to her classroom. She likes the drawings he uses to explain scientific ideas.

JADA LOCKWOOD: "Mr. Weiss, like, he would go in the back and draw, like, these pictures and, like, he helps us a lot."

The American Association for the Advancement of Science sponsors the Senior Scientists and Engineers program. Dave Weiss has been a volunteer in that program for many years. The scientists and engineers help teachers in elementary schools improve their skills.

Mr. Weiss says he and the other volunteers help teachers by providing hands-on expertise.

DAVE WEISS: "In this experiment, I think it might be confusing to the kids that we're dealing with two masses."

He notes that science is an area in which many elementary school teachers have limited experience.

DAVE WEISS: "In elementary school, for the most part, your regular classroom teacher is responsible for teaching science, along with reading and math, and if they don't have a strong science background, just by nature, they're going to tend to underrepresent science in the curriculum."

Fred Tenyke agrees. He just started teaching science classes a few months ago.

FRED TENYKE: "A lot of time I'll spit out information I learned in the book, or things that are part of the curriculum. Dave helps me learn how to supplement that information so that it's more relevant to them, so that it will be more relevant to their work experience later on in life."

American fifteen-year-olds scored about average in science among countries that took part in testing by the OECD in two thousand nine. The OECD is the Organization for Economic Cooperation and Development.

Dave Weiss says he is concerned about such results, but hopeful for the future for American students learning science.

DAVE WEISS: "In elementary school I try to just give them a solid foundation. I hope they'll develop a curiosity about what's going on around them."

Fred Tenkye thinks volunteers like Dave Weiss are helping students do that.

FRED TENYKE: "And if you can develop a passion for science, then eventually the grades and the test scores, then that will follow."

And that's the VOA Special English Education Report. You can read and listen to this story and watch a video version at voaspecialenglish.com.  You can also find us on Facebook, Twitter, YouTube and iTunes at VOA Learning English. We offer English teaching lessons three times a day, Monday through Friday, on our Facebook page. I'm Christopher Cruise.

출처:
http://www.voanews.com/learningenglish/home/education/Scientists-Engineers-Help-Elementary-School-Teachers-134789768.html


 

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The Story of Aspirin (아스피린 이야기)



아스피린의 유래와 효능에 관한 재미있는 기사입니다.

이런 것은 영어공부라기 보다 건강 상식을 늘린다는 마음으로 들으시기 바랍니다.
스크립트는 아래에 있습니다만 가급적 보지 마시기 바랍니다.
그냥 음성만으로 이해하시기 바랍니다.

공부는 가급적 편하게 해야합니다.
복잡하면 오래하기 힘듭니다.
듣기공부가 좋은 것은 바로 이런 점입니다.
그냥 가만히 듣고만 있으면 되니 얼마나 편합니까.
최고로 편하게 해야 가장 오래 공부할 수 있고
안전하게 고수의 자리까지 갈 수 있습니다.

한 번에 이해가 안되면 반복해 들으시기 바랍니다.
얼마나 좋습니까. 듣기 공부되죠. 발음 좋아지죠.
이해하려고 반복하다보면 어떤 것은 저절로 암기가 되니
영작문이나 회화에까지 도움이 되죠.
1 석 4 조 인가요?? 
 

Aspirin
Photo: AP


MARIO RITTER: This is SCIENCE IN THE NEWS in VOA Special English. I'm Mario Ritter.

BARBARA KLEIN: And I’m Barbara Klein. Today, we will tell the story of aspirin.

MARIO RITTER: People have known since ancient times that aspirin lessens pain and lowers high body temperature. But that is not all the drug can do. It has gained important new uses in recent years. Small amounts may help prevent a stroke or heart attack. One recent study showed that some people who took two aspirin pills a day had lower rates of colorectal cancer. And, some researchers say aspirin may help patients with colon cancer live longer.

But doctors also say the acid in aspirin can cause problems like bleeding in the stomach and intestines.

BARBARA KLEIN: So, how did aspirin become so important? The story begins with a willow tree. Two thousand years ago, the Greek doctor Hippocrates advised his patients to chew on the bark and leaves of the willow.

The tree contains a chemical called salicin. In the eighteen hundreds, researchers discovered how to make salicylic acid from the chemical. In eighteen ninety-seven, a chemist named Felix Hoffmann at Friedrich Bayer and Company in Germany created acetyl salicylic acid.

Later, it became the active substance in a medicine that Bayer called aspirin. The "a" came from acetyl. The "spir" came from the spirea plant, which also produces salicin. And the "in"? That is a common way to end medicine names.

MARIO RITTER: In nineteen eighty-two, a British scientist shared the Nobel Prize in Medicine in part for discovering how aspirin works. Sir John Vane found that aspirin blocks the body from making natural substances called prostaglandins.

Prostaglandins have several effects on the body. Some cause pain and the expansion, or swelling, of damaged tissue. Others protect the lining of the stomach and small intestine.

Prostaglandins also make the heart, kidneys and blood vessels work well. But there is a problem. Aspirin works against all prostaglandins, good and bad.

BARBARA KLEIN: Scientists have also learned how aspirin interferes with an enzyme. One form of this enzyme makes the prostaglandin that causes pain and swelling. Another form of the enzyme creates a protective effect. So aspirin can reduce pain and swelling in damaged tissues. But it can also harm the inside of the stomach and small intestine. And sometimes it can cause bleeding.

But a British study released in two thousand nine suggested that taking another drug with a small amount of aspirin may help reduce the risk of bleeding. If this proves true, it would help thousands of people who are seeking to prevent life-threatening conditions.

MARIO RITTER: Many people take aspirin to reduce the risk of a heart attack or stroke from blood clots. Clots can block the flow of blood to the heart or brain and cause a heart attack or stroke. Scientists say aspirin prevents blood cells called platelets from sticking together to form clots.

A California doctor named Lawrence Craven first noted this effect sixty years ago. He observed unusual bleeding in children who chewed on an aspirin product to ease the pain after a common operation.

Doctor Craven believed the bleeding took place because aspirin prevented blood from thickening. He thought this effect might help prevent heart attacks caused by blood clots.

He examined the medical records of eight thousand aspirin users and found no heart attacks in this group. He invited other scientists to test his ideas. But it was years before large studies took place.

BARBARA KLEIN: Charles Hennekens of Harvard Medical School led one of the studies. In nineteen eighty-three, he began to study more than twenty-two thousand healthy male doctors over forty years of age. Half took an aspirin every other day. The others took what they thought was aspirin. But it was only a placebo, a harmless substance.

Five years later, Doctor Hennekens reported that people who took aspirin reduced their risk of a heart attack. But they had a higher risk of bleeding in the brain than the other doctors.

MARIO RITTER: In two thousand nine, a group of experts examined studies of aspirin at the request of federal health officials in the United States. The experts said people with an increased risk of a heart attack should take a low-strength aspirin every day.

Aspirin may help someone who is having a heart attack caused by a blockage in a blood vessel. Aspirin thins the blood, so it may be able to flow past the blockage. But heart experts say people should seek emergency help immediately. And they say an aspirin is no substitute treatment, only a temporary help.

BARBARA KLEIN: But what about reducing pain? Aspirin competes with other medicines for reducing pain and high body temperature. The competition includes acetaminophen, the active substance in products like Tylenol. Like the medicine ibuprofen, aspirin is an NSAID -- a non-steroidal anti-inflammatory drug.

Several studies have found that men who take aspirin and other NSAIDS have a decreased risk of prostate cancer. The prostate is part of the male reproductive system.

MARIO RITTER: Researchers at the Mayo Clinic in Minnesota wanted to see how NSAIDs might affect prostates that are enlarged but not cancerous.  They followed the health of two thousand, five hundred men for twelve years.

The researchers said these drugs may delay or stop development of an enlarged prostate. They said the risk of an enlarged prostate was fifty percent lower in the NSAID users than the other men. The risk of bladder problems was thirty-five percent lower.

BARBARA KLEIN: Other studies have suggested that aspirin can help with cancer prevention and survival.   They showed that aspirin may help prevent cancers of the stomach, intestines and colon.

Researchers reported two years ago about people who had colorectal cancer. They found that aspirin users had an almost thirty percent lower risk of dying from their cancer. That was during an average of eleven years after the cancer was discovered.

Earlier this month, The Lancet medical journal published findings from a study of aspirin and cancer. Researchers followed almost one thousand patients who had Lynch syndrome – a genetic condition that makes them likely to develop some cancers. One group of patients took six hundred milligrams of aspirin a day for at least two years. These patients had a sixty-three percent lower risk of colorectal cancer than those who took a harmless substance or placebo. The longer they took aspirin, the lower their risk of cancer.

MARIO RITTER: This study seems to confirm a study released in two thousand eight. European researchers reported that aspirin may have what they called a “long-term protective effect against colorectal cancer.” Peter Rothwell of the University of Oxford led the researchers. They examined twenty years of results from four large studies. The studies involved fourteen thousand people.

The researchers found that people who took one aspirin a day for about six years reduced their risk of colon cancer by twenty-four percent. And deaths from the disease dropped by thirty-five percent.

Last year, The Lancet published the combined results of a larger observational study, also led by Professor Rothwell. This time, he and researchers examined eight studies that involved more than twenty-five thousand individuals. They found that taking a small aspirin once a day reduced death rates from a number of common cancers.

BARBARA KLEIN: Aspirin does not help everything, however. It can cause problems, like an increased danger of internal stomach bleeding and ulcers. And it can interfere with other medicines, although this is true of many drugs. Also, some people should not take aspirin. People who take other blood thinners or have bleeding disorders are among this group. Pregnant women are usually told to avoid aspirin.

And research has shown a link between aspirin use and the disease Reye's Syndrome. Children’s doctors say patients up to age nineteen should not take anything containing salicylatic products when sick with high temperatures.

Experts say most people should not take aspirin for disease prevention without first talking to a doctor because there are risks to taking aspirin. Some researchers have even said that some people get little or no protection from aspirin. So research continues on one of the oldest and most widely used drugs in the world.

MARIO RITTER: This SCIENCE IN THE NEWS was written by Christopher Cruise. Our producer was June Simms. I’m Mario Ritter.

BARBARA KLEIN: And I’m Barbara Klein. Join us again next week for more news about science in Special English on the Voice of America.



출처: http://www.voanews.com/learningenglish/home/science-technology/New-Study-Suggests-that-Aspirin-Sharply-Reduces-Bowel-Cancer-Risk-134621268.html

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Blue Holes: Some of the Least Explored Areas on Earth



지구상에서 가장 미지의 세상, 블루홀.

우주의 블랙홀 만큼이나 신비로운 블루홀에 관한 기사입니다.
이런 것은 영어공부를 한다고 생각지 마시고 지구의 신비에 관한
좋은 상식을 얻는다는 생각으로 들으시기 바랍니다.
영어보다는 과학 상식이 더 중요할 수 있지용^^

스크립트는 아래에 있습니다만 가급적 보지 마시기 바랍니다.

그냥 음성만으로 이해하시기 바랍니다.

공부는 가급적 편하게 해야합니다.
복잡하면 오래하기 힘듭니다.
듣기공부가 좋은 것은 바로 이런 점입니다.
그냥 가만히 듣고만 있으면 되니 얼마나 편합니까.
최고로 편하게 해야 가장 오래 공부할 수 있고
안전하게 고수의 자리까지 갈 수 있습니다.

한 번에 이해가 안되면 반복해 들으시기 바랍니다.
얼마나 좋습니까. 듣기 공부되죠. 발음 좋아지죠.
이해하려고 반복하다보면 어떤 것은 저절로 암기가 되니
영작문이나 회화에까지 도움이 되죠.
1 석 4 조 인가요??


Diving deep in a blue hole
Photo: ngs.org
Diving deep in a blue hole



BARBARA KLEIN: I’m Barbara Klein.

STEVE EMBER: And I’m Steve Ember with EXPLORATIONS in VOA Special English. A blue hole is a flooded sea cave with a hole that opens up at the land’s surface. These cave systems form in carbonate rock, often on islands. Some blue holes have very special rock formations and water chemistry. Far below sea level, they contain some of the harshest environments on Earth, with no oxygen and no light. Yet these areas are filled with life forms that have adapted to the extreme conditions.

Information gathered from these blue holes is helping scientists to increase their understanding of biology, archaeology and geology. But exploring these blue hole environments brings danger as well as discovery.

BARBARA KLEIN: Blue holes get their name from the color some have when seen from the air. The color is usually a reflection of the sky on the water. But not all of these cave systems have blue surfaces. Some contain dark or muddy water.

Blue holes are the result of erosion in which water breaks down rock. Rain falling thousands of years ago contained chemicals which slowly wore away at the limestone landmass. These holes later filled with sea water as the sea level changed. The rising and falling of sea levels and the mixture of salt and fresh water further wore away at these cave formations. Blue holes are vertical caves. But they can also have horizontal cave formations that may be hundreds of meters long.

A blue hole in the Bahamas
bahamacaves.com
A blue hole in the Bahamas

STEVE EMBER: These flooded cave systems can be found in the ocean, or they can be found inland. Ocean caves are affected by tides, so they always have water movement. But blue holes on land are very still. They have several layers of water, chemicals, and bacteria. The top layer of fresh water comes from rainfall. This layer acts like a cap on top of the layered mixture, and keeps out oxygen from the atmosphere. The fresh water floats on a denser layer of saltwater. Underneath this is a layer of poisonous hydrogen sulfide, produced by bacteria living in the water. Underneath this layer is anoxic seawater -- water that does not contain any oxygen.

BARBARA KLEIN: Kenny Broad is an anthropologist at the University of Miami in Florida. He studies the effects of climate change and human understanding of its risks. He has spent several years exploring underwater caves in the Bahamas. Here Mr. Broad discusses his many cave explorations during a talk at the National Geographic Society in Washington, D.C.

KENNY BROAD: “Underwater caves are probably, I would argue, one of the least understood ecosystems on the planet. One of the reasons they are one of the least understood, they are one of the least explored. And they are one of the last places where you still physically have to go there, you can’t send in a submarine or a mode operated vehicle, some autonomous machine. You need to go there.”

STEVE EMBER: Kenny Broad helped organize the Bahamas Blue Hole Expedition. In two thousand nine, a team of scientists spent two months researching blue holes on Bahamian islands including Andros and Abaco. The trip received financial support from the National Geographic Society.

BARBARA KLEIN: One reason blue holes have not been fully explored is that they can be extremely dangerous. There are many safety rules that divers must follow to help ensure their survival. First, divers must have training and experience to swim in these caves.

Divers who explore a cave for the first time must establish a thin rope called a guideline. This line helps them to safely enter and exit the cave without getting lost.

Divers must also bring several light sources in case one fails. They also must bring more than one set of breathing equipment in case one device fails. And, they must pay careful attention to their air supply. The rule they follow is to use a third of their air to enter the cave, a third to exit, and a third for emergencies.

STEVE EMBER: There are many difficulties involved in diving in blue holes. In some blue holes divers must quickly swim through a layer of hydrogen sulfide to reach the horizontal caves further down. This gas causes itchy skin, dizziness, and in high enough quantities, death. Or, divers might face extremely strong currents that can suck them into an opening. If they are not careful with their movements they can disrupt an area of a cave, creating explosions of silt which makes it impossible to see clearly. Kenny Broad shows a video of a diver forcing his body through a very narrow rocky opening.

KENNY BROAD: “It’s a mental game, it is not a physical game. This isn’t macho, and it’s not thrill-seeking. It’s more about keeping your breath rate under control.”

BARBARA KLEIN: For most explorers, though, the possibility of discovery in these cave environments makes the experience worth the risk.

KENNY BROAD: “You can jump into what looks like an insignificant little hole in the ground, and come out with information that’s of value to many different disciplines, from a scientific-academic perspective.”

Scientists are interested in these caves because oxygen-free conditions there are similar to those on Earth long ago, before oxygen existed on our planet.

KENNY BROAD: “What was life like? And when I say the ancient oceans, maybe a more dramatic way to phrase this question is ‘How did life form?’ I’m talking about life three point five billion years ago.”

He says the microbes that were present then did not leave a clear fossil record for scientists to study. So studying the organisms in these oxygen-free caves gives clues about the past.

KENNY BROAD: “So what happens here is we have a modern day analogy for what the oceans were like in terms of both the chemistry and the biology.”

A diver explores a blue hole
ngs.org
Kenny Broad dives in Dan's Cave on Abaco

STEVE EMBER: Experts are not only interested in life on our planet. Astrobiologists can compare information about these organisms and their environment to other oxygen-free environments, like those in space. They study these extreme conditions to understand how and where life might exist on other planets.

Larger organisms are equally interesting to scientists. Most are colorless and cannot see. For example, the Agostocaris cave shrimp is only about two and a half centimeters long. It has no color except an area of its digestive system. Then there is the remipede. Some scientists describe it as a living fossil. It has changed very little over the past three hundred million years. Remipedes are less than five centimeters long, but they are fierce. They use their poisonous teeth-like fangs to kill shrimp and other creatures.

BARBARA KLEIN: Blue holes also permit scientists to study climate change over thousands of years. They want to understand what those changes could mean in the future.

Some of the horizontal caves have calcite formations called stalagmites and stalactites. They formed little by little tens of thousands of years ago when sea levels dropped. Scientists can study these formations and map out the climate conditions present during every year of their growth.

(MUSIC)

STEVE EMBER: Because blue holes contain no oxygen, they also protect ancient objects from the destruction of time. For example, divers in Sanctuary Blue Hole on the island of Andros in the Bahamas found the ancient bones of native Lucayan tribe members. Experts are not sure whether this tribe placed bodies in caves as part of burial ceremonies or for other reasons.

Animal remains are also preserved in excellent condition. Divers in Sawmill Sink on Abaco Island found the three-thousand-year-old remains of a Cuban crocodile. This kind of crocodile has long disappeared from the Bahamas. They also found some ancient turtle skeletons. They were so well preserved they still had pieces of soft tissue.

BARBARA KLEIN: The Bahamas may have more than a thousand blue holes. But only about two hundred have been discovered. This includes the world’s deepest known blue hole, called Dean’s Blue Hole on Long Island. It measures two hundred two meters in depth.

Kenny Broad and his team spent time talking with native Bahamians to ask them if they knew where the team could find other blue holes. He says younger generations are generally not aware of such caves. But their parents know about them and once used them.

KENNY BROAD: “What’s interesting, though, is that when you talk to these folks’ parents, they were keenly aware of these holes because they used them as their source for drinking water. They used them for all sorts of medicinal reasons. And now they are ignored, and in fact in lots of places we can’t even drink the water because of what goes into these holes.”

STEVE EMBER: Many blue holes have become areas where people throw away waste. But these actions are polluting an important source of fresh water. Part of Kenny Broad’s goal is to raise awareness about these underground areas so local communities will take better care in protecting them.

He says these caves and fresh water sources are not given much attention because they are hard to see.

Another threat these cave systems face is rising sea levels. As sea levels rise, the careful balance of chemistry and nature in these caves could be destroyed.

BARBARA KLEIN: Kenny Broad says these blue holes must be protected for several reasons. They are important for environmental and scientific discoveries. These caves also give a few explorers an extraordinary chance to see life in a beautiful and strange environment that is like no other on Earth.

STEVE EMBER: This program was written and produced by Dana Demange. I’m Steve Ember.

BARBARA KLEIN: And I’m Barbara Klein. You can see pictures of blue holes at voaspecialenglish.com. Join us again next week for EXPLORATIONS in VOA Special English.

출처:
http://www.voanews.com/learningenglish/home/science-technology/Blue-Holes-Some-of-the-Least-Explored-Areas-on-Earth-134628763.html

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