Math Is Fun Forum

Potassium Iodide

Gist

Potassium iodide (KI) is an inorganic compound used to protect the thyroid gland from radiation, treat iodine deficiency, and manage specific skin conditions. Primarily taken as a tablet, it blocks the absorption of radioactive iodine during emergencies and serves as a supplement to combat hyperthyroidism and goiter.

Potassium iodide (KI) is a medication used to protect the thyroid gland from radiation during emergencies, treat hyperthyroidism and thyroid storm, and act as an expectorant to loosen mucus in the lungs. It is also used to treat certain fungal infections (sporotrichosis) and chronic skin conditions like erythema nodosum.

Summary

Potassium iodide (KI) is a chemical compound, medication, and dietary supplement. It is a medication used for treating hyperthyroidism, in radiation emergencies, and for protecting the thyroid gland when certain types of radiopharmaceuticals are used. It is also used for treating skin sporotrichosis and phycomycosis. It is a supplement used by people with low dietary intake of iodine. It is administered orally.

Common side effects include vomiting, diarrhea, abdominal pain, rash, and swelling of the salivary glands. Other side effects include allergic reactions, headache, goitre, and depression. While use during pregnancy may harm the baby, its use is still recommended in radiation emergencies. Potassium iodide has the chemical formula KI. Commercially it is made by mixing potassium hydroxide with iodine.

Potassium iodide has been used medically since at least 1820. It is on the World Health Organization's List of Essential Medicines. Potassium iodide is available as a generic medication and over the counter. Potassium iodide is also used for the iodization of salt.

Details

Potassium iodide (KI) is a medication that treats certain medical conditions — including some thyroid conditions — and protects your thyroid from radiation exposure. Never take KI without talking to a healthcare provider first. They’ll make sure it’s safe for you and explain proper dosing.

Overview:

What is potassium iodide?

Potassium iodide is a salt that healthcare providers sometimes use as a medication to treat certain thyroid conditions or protect your thyroid from radiation exposure.

Potassium iodide acts as a thyroid blocker, which means it stops your thyroid from releasing thyroid hormone. This can be useful in certain situations, like if your thyroid is producing high levels of thyroid hormone (hyperthyroidism). Potassium iodide can also help protect your thyroid from absorbing radioactive iodine that accidentally enters your body.

Healthcare providers intentionally use radioactive iodine — in controlled, safe amounts — for certain imaging tests and treatments. Nuclear weapon detonations and nuclear power plant accidents release unsafe amounts of radioactive iodine (radioiodine) into the air, water and soil. Potassium iodide can protect you from such unintended environmental exposure.

Potassium iodide comes in pill (tablet) and liquid forms. Some forms require a prescription, while others you can get over the counter (OTC). You should only take potassium iodide in any form if your healthcare provider or public health officials tell you to do so. Remember that just because you can buy something over the counter doesn’t mean it’s safe or appropriate for you to take.

What conditions are treated with potassium iodide?

Healthcare providers sometimes use potassium iodide to treat:

* Hyperthyroidism, particularly when associated with Graves’ disease.
* Thyroid storm.
* Some skin conditions, including cutaneous sporotrichosis (a fungal infection).
* Iodine deficiency.

Potassium iodide is also a prescription-strength expectorant. If you have a chronic lung disease, your healthcare provider may prescribe potassium iodide to loosen mucus and make it easier for you to cough.

Potassium iodide can also help protect your thyroid:

* During radiation emergencies (like a nuclear power plant meltdown).
* During medical testing (like MIBG scans) or treatments that expose your thyroid to radiation.

Potassium iodide for radiation

Potassium iodide is best known for protecting people during a radiation emergency. But it’s important to know there are limitations. Potassium iodide only protects your thyroid from radioactive iodine (one specific radioactive material). It doesn’t protect other parts of your body, and it doesn’t protect you from all the other radioactive materials you might be exposed to that could cause radiation sickness.

Healthcare providers and public health officials only recommend using potassium iodide in certain types of radiation emergencies. These typically include nuclear power plant accidents.

Potassium iodide won’t completely protect you if a nuclear bomb goes off because the greatest threat in that situation isn’t radioactive iodine. You’d be exposed to hundreds of other types of radioactive materials, and potassium iodide has no effect on those. If a bomb goes off, don’t worry about trying to find potassium iodide. Instead, seek shelter indoors and follow local officials’ guidance.

Thyroid protection after a nuclear power plant accident

Potassium iodide can help protect your thyroid from radioactive iodine released in a nuclear power plant accident. Here’s why. Your thyroid needs iodine to function normally and produce thyroid hormone. But it doesn’t know the difference between normal iodine (like what you get from your food) and radioactive iodine. This means your thyroid grabs iodine from wherever it can.

Nuclear power plant accidents may release radioactive iodine into the nearby environment. If you breathe in contaminated air or eat contaminated food, the radioactive iodine can enter your body. Your thyroid then absorbs it. Depending on the amount that gets into your body, radioactive iodine can damage your thyroid and potentially lead to thyroid cancer down the road.

The younger you are, the more vulnerable you are to the harmful effects of radioactive iodine. Babies and children face the greatest threat. If you’re pregnant, radioactive iodine is more dangerous for you compared to other adults because your thyroid is more active during pregnancy.

That’s where potassium iodide comes into play. It fills up your thyroid with enough iodine to keep it busy for a while. So, instead of absorbing the radioactive iodine, your thyroid ignores it, and the radioactive iodine passes out of your body in your pee.

Treatment Details:

How should I use potassium iodide?

Depending on your diagnosis, your healthcare provider may prescribe potassium iodide in tablet or liquid form. Your provider or local public health officials will tell you:

* How to take potassium iodide.
* When to take it.
* The appropriate dosage.

The dosage can vary widely according to the condition you’re treating. In the context of radiation emergencies, the recommended dosage varies according to a person’s age.

How long should I take potassium iodide?

It depends on the reason you’re taking it. Follow your healthcare provider’s guidance. In radiation emergencies, one dose typically protects you for about 24 hours. So, most people should take one dose per day until local officials say it’s safe to stop taking it.

Pregnant women and newborns should only take one dose (no repeat doses) unless told otherwise. That’s because potassium iodide may impact thyroid function in fetuses and newborns.

Risks / Benefits:

What are the potential benefits of potassium iodide?

When used during a radiation emergency, potassium iodide can lower a person’s risk of developing thyroid cancer down the road. This is especially important in children and adults under age 40, who face a greater risk of thyroid cancer from radioactive iodine exposure.

What are the side effects of potassium iodide?

Possible side effects of potassium iodide include:

* Skin rash.
* Swollen salivary glands.
* Metallic taste in your mouth.
* Burning of your mouth and throat.
* Sore teeth and gums.
* Upset stomach, nausea and diarrhea.
* Headache.
* Head cold symptoms, like a runny nose.

Newborns who are given more than a single dose of potassium iodide run the risk of developing hypothyroidism.

Can potassium iodide cause an allergic reaction?

Potassium iodide causes an allergic reaction in some people. Signs of an allergic reaction include:

* Fever.
* Joint pain.
* Swelling of your face, lips, tongue, throat, hands or feet.
* Wheezing and/or shortness of breath.
* Difficulty speaking or swallowing.

Call a healthcare provider right away if you develop signs of an allergic reaction. Call your local emergency number if you have trouble breathing, speaking or swallowing.

Taking more potassium iodide than healthcare providers or local officials recommend can make you very sick or even be fatal. That’s why it’s crucial to follow expert advice closely when taking potassium iodide or giving it to a child.

Is taking potassium iodide safe for me?

Potassium iodide isn’t safe for everyone. It’s important to check with your healthcare provider before taking potassium iodine to make sure it’s OK for you. In general, potassium iodine may not be safe to take if you:

* Have thyroid nodules as well as heart disease.
* Are taking certain medications, including those that affect how your thyroid works.
* Are sensitive or allergic to iodine.
* Have chronic kidney (renal) failure.
* Have tuberculosis or acute bronchitis.
* Have a history of adrenal insufficiency (Addison’s disease).
* Have a weakened immune system.
* Are pregnant or breastfeeding. In some situations, like radiation emergencies, the benefits of taking potassium iodide while pregnant or nursing may outweigh the risks. Follow your provider’s guidance closely.

Be sure to talk to your provider before starting potassium iodide or any other medicine. They’ll review your medical history and decide if it’s safe for you. They can tell you the benefits and risks of potassium iodide in your unique situation. They’ll also tell you if you need follow-ups or monitoring.

Recovery and Outlook:

Is there anything I can do to make this treatment easier on me?

Your provider may recommend taking potassium iodide along with milk or juice to limit stomach upset. Talk to your provider if you’re concerned about side effects or have a history of any medication allergies.

Additional Information

* In a radiation emergency, some people may be told to take potassium iodide (KI) to protect their thyroid.
* Do not take KI unless instructed by public health or emergency response officials or a healthcare provider.
* KI is recommended only for people under 40 and women who are pregnant or breastfeeding.
* KI can have harmful effects when used incorrectly. Only use KI products that are approved by the U.S. FDA.

Potassium iodide (KI) is a type of iodine that is not radioactive. It can be used to help block one type of radioactive material, radioactive iodine, from being absorbed by the thyroid.

In some radiation emergencies, radioactive iodine may be released into the environment and enter the body through breathing or eating. This is known as internal contamination.

The thyroid is a gland in the neck that plays an important role in many body functions. When the thyroid absorbs high levels of radioactive iodine, it can increase the risk of thyroid cancer many years after exposure in infants, children, and young adults.

How KI protects the thyroid

KI is the stable (non-radioactive) form of iodine. They are both absorbed by the thyroid.

The thyroid cannot distinguish between stable or radioactive iodine. To protect the thyroid from radioactive iodine, a person must take KI before or shortly after being exposed to radioactive iodine to saturate the thyroid and prevent the radioactive iodine from concentrating in the thyroid.

When a person takes the right amount of KI at the right time, it can help block the thyroid from absorbing radioactive iodine. This happens because the thyroid has already absorbed the KI, and there is no room to absorb the radioactive iodine. Think of filling a jar with blue marbles (KI). If you then pour green marbles (radioactive iodine) over the jar, there will not be room and they will just spill out.

Use KI only if instructed

Do not take KI unless you are instructed by public health or emergency response officials or a healthcare provider. KI can cause harmful health effects. KI is helpful only in specific situations for certain groups of people.

KI should be used only as directed.

* Do not use table salt or foods that contain iodine as a substitute for KI. They do not help prevent internal contamination, and eating large amounts could be harmful.
* Only use KI products that have been approved by the Food and Drug Administration (FDA). Dietary supplements that contain iodine may not work to protect the thyroid and can hurt you.

Important

KI can have harmful health effects and can cause allergic reactions. Only take KI if instructed by public health or emergency response officials or a healthcare provider.

Limits of KI use

KI is most effective if taken shortly before or right after internal contamination with radioactive iodine. The effectiveness of KI also depends on how much radioactive iodine gets into the body and how quickly it is absorbed in the body.

KI is only recommended for people under 40 and women who are pregnant or breastfeeding. People with certain medical conditions, including known iodine sensitivity, should not take KI or should talk to a healthcare provider about whether they can safely take KI.

KI only offers limited protection in specific situations:

* KI protects only against radioactive iodine and does not protect against other types of radioactive materials.
* KI protects only the thyroid. KI does not protect other parts of the body.
* KI must be taken within 24 hours before or 4 hours after exposure to be most effective.
* KI is not a treatment and cannot reverse damage already done to the thyroid.
* KI may not give a person 100% thyroid protection from radioactive iodine.

Most radiation emergencies will involve other types of radioactive materials and not radioactive iodine alone. Radioactive iodine is most common in nuclear power plant incidents.

How to take KI

KI is recommended as a medical countermeasure to protect the thyroid from radioactive iodine in people under 40 and women who are pregnant or breastfeeding. This is because younger people's cells are still growing and increasing in number more quickly. This puts them at risk for developing thyroid cancer after breathing in radioactive iodine.

Adults over 40 years old have a much lower risk of developing thyroid cancer. They are also more likely to have health conditions, like problems with their thyroids, that increase the risk for harmful health effects from KI. However, officials or healthcare providers may instruct adults over 40 to consume KI if the predicted exposure is high enough to cause hypothyroidism (when the thyroid does not make enough hormones).

Breastfeeding women should consider temporarily stopping breastfeeding until evacuated from the impacted area, if possible, and safely feed your baby other ways. Radioactive iodine can be passed to infants through breast milk.

There are two U.S. FDA-approved forms of KI:

* Tablets in two strengths, 130 milligram (mg) and 65 mg. The tablets may be cut into smaller pieces for lower doses.
* Oral liquid solution available in one concentration, each milliliter (mL) containing 65 mg of KI. The solution comes in a 1 oz (30 mL) bottle with a dropper marked for 1, 0.5, and 0.25 mL dosing. For reference, 5 mL of liquid is one teaspoon. One mL would be about the size of a large drop of water.

Q: Why did the orange fail his driving test?
A: He kept peeling out.
* * *
Q: How many marmalade sandwiches did Paddington bear eat?
A: None he was already stuffed.
* * *
Q: What do you call an orange that takes over the world?
A: Orange Julius Caesar.
* * *
Q: Do you now why a orange is smart?
A: Because it CONCERTRATES!
* * *
Q: What do you call the ruthless movie about building a fruit empire?
A: There Will Be Blood...Oranges.
* * *

Bone Marrow

Gist

Bone marrow is the soft, spongy, and highly vascularized tissue located in the cavities of bones—primarily the pelvis, ribs, and sternum—that serves as the body's main blood cell "factory". It produces red blood cells (oxygen transport), white blood cells (immune defense), and platelets (clotting) from hematopoietic stem cells, making it essential for life.

Bone marrow is the soft, spongy, highly vascular tissue found in the center of bones, primarily acting as the body's main blood cell factory. It contains stem cells that produce essential components: red blood cells (oxygen delivery), white blood cells (immune defense), and platelets (clotting).

Summary

Bone marrow is a semi-solid tissue found within the spongy (also known as cancellous) portions of bones. In birds and mammals, bone marrow is the primary site of new blood cell production (or haematopoiesis). It is composed of hematopoietic cells, marrow adipose tissue, and supportive stromal cells. In adult humans, bone marrow is primarily located in the ribs, vertebrae, sternum, and bones of the pelvis. Bone marrow comprises approximately 5% of total body mass in healthy adult humans, such that a person weighing 73 kg (161 lbs) will have around 3.7 kg (8 lbs) of bone marrow.

Human marrow produces approximately 500 billion blood cells per day, which join the systemic circulation via permeable vasculature sinusoids within the medullary cavity. All types of hematopoietic cells, including both myeloid and lymphoid lineages, are created in bone marrow; however, lymphoid cells must migrate to other lymphoid organs (e.g. thymus) in order to complete maturation.

Bone marrow transplants can be conducted to treat severe diseases of the bone marrow, including certain forms of cancer such as leukemia. Several types of stem cells are related to bone marrow. Hematopoietic stem cells in the bone marrow can give rise to hematopoietic lineage cells, and mesenchymal stem cells, which can be isolated from the primary culture of bone marrow stroma, can give rise to bone, adipose, and cartilage tissue.

Details

Bone marrow is the soft, fatty tissue inside of the bones in your body. Bone marrow contains cells that produce blood cells and platelets and it is responsible for making billions of new blood cells each day.

Overview:

What is bone marrow?

Bone marrow is the soft, fatty tissue inside of bone cavities. Components of your blood including red and white blood cells and platelets form inside of your bone marrow.

Function:

What does bone marrow do?

Bone marrow makes nearly all the components of your blood. It's responsible for creating billions of red blood cells daily, along with white blood cells and platelets. Bone marrow also stores fat that turns into energy as needed.

Can you live without bone marrow?

Bone marrow makes the components of your blood that you need to survive. Bone marrow produces red blood cells that carry oxygen, white blood cells that prevent infection and platelets that control bleeding. The absence of bone marrow can be fatal since it's an essential part of your body.

Can I donate bone marrow?

Yes, bone marrow and the healthy cells it produces are necessary for humans to live. Often, cell mutations harm healthy bone marrow cells, and a bone marrow transplant would be a treatment option for people diagnosed with blood cancers like leukemia.

A bone marrow transplant takes healthy cells from a donor and puts them into your bloodstream. The donor’s cells help your body grow healthy red and white blood cells and platelets.

Anatomy:

Where is bone marrow located?

There are three parts to the anatomy of your bones: compact bone, spongy bone and bone marrow. Compact bone is the strong, outer layer of your bones. Spongy bone makes up the ends of your bones. Bone marrow is in the center of most bones and in the end of spongy bones in your body. Bone marrow and blood vessels fill cavities in your bones, where they store fat and stem cells and produce blood cells that make your whole blood.

What does bone marrow look like?

Bone marrow is a spongy, soft tissue that resembles a jelly or jam that you would spread on toast. It comes in two colors, red and yellow. Bone marrow fills the cavities of your bones and holds cells that create red and white blood cells and platelets, which make whole blood. The color of red bone marrow is the result of red blood cell production.

What are the two types of bone marrow?

There are two types of bone marrow in your body, which are characterized by their color. Your body holds just under 6 lbs. (about 2.5 kg.) of red and yellow bone marrow.

* Red: Red bone marrow produces blood cells (hematopoiesis). Stem cells in your red bone marrow (hematopoietic stem cells) create red and white blood cells and platelets, all of which are components of your whole blood.
* Yellow: Yellow bone marrow stores fat. There are two types of stem cells in yellow bone marrow (adipocytes and mesenchymal stem cells). These cells preserve fat for energy production and develop bone, cartilage, muscles and fat cells for your body.

Red bone marrow makes up all of your bone marrow until about age seven. Yellow bone marrow gradually replaces red bone marrow as you age.

What is bone marrow made of?

Bone marrow is made of stem cells. These stem cells make red bone marrow, which creates blood cells and platelets for your blood. Yellow bone marrow consists mostly of fat and stem cells that produce bone and cartilage in your body.

Conditions and Disorders:

What are common conditions and disorders that affect bone marrow?

Directly targeting bone marrow is leukemia, which is a blood and bone marrow cancer. Leukemia forms when a cell mutation occurs in your bone marrow and mutated cells multiply out of control, reducing the production of healthy, normal cells.

Since bone marrow is the foundation for the creation of blood cells, blood-related conditions often are the result of abnormally functioning bone marrow. These conditions include:

* Multiple myeloma: Your body produces cancerous plasma cells in your bone marrow.
* Aplastic anemia: Your bone marrow doesn’t produce enough blood cells.
* Polycythemia vera: Your body makes too many red blood cells, which causes your blood to thicken.
* Myelodysplastic syndromes: A group of diseases characterized by your bone marrow not producing enough healthy blood cells (anemia).

What are common symptoms of bone marrow conditions?

Common symptoms of bone marrow conditions include:

* Bleeding easily,
* Bruising.
* Fatigue.
* Frequent infections.
* Muscle weakness.

What are common tests to check the health of my bone marrow?

There are two tests to check the health of your bone marrow and/or blood cells:

* Bone marrow aspiration: A needle removes fluid and cells from your bone marrow (bone marrow concentrate). The aspirate test identifies what cells are present in your bone marrow, verifies whether or not those cells are normal or abnormal and gives other information about the characteristics of your cells.
* Bone marrow biopsy: A large needle removes a piece of your bone marrow. The biopsy shows where, how many and the types of cells are present in your bone marrow.

Is it painful to remove my bone marrow?

For a bone marrow test or donation, you’ll receive an anesthetic, so you won't feel any pain during the procedure. After the procedure, you may feel side effects, which include aches and pain at the site of the incision. Each individual experiences pain differently, so the severity could vary from person to person. The pain may last for a few days or up to several weeks.

What are common treatments for bone marrow conditions?

Treatments for bone marrow conditions vary based on the severity and progress of the diagnosis. Treatment options include:

* Antibiotics.
* Blood transfusions.
* Bone marrow transplant.
* Chemotherapy.
* Supportive care to relieve symptoms.
* Stem cell transplant.

Care:

How do I keep my bone marrow healthy?

Bone marrow is the foundation of your bones, blood and muscles. Keeping your bone marrow healthy focuses on supporting components of your body that grow from bone marrow cells. You can keep your bone marrow healthy by:

* Eating a diet rich in protein (lean meats, fish, beans, nuts, milk, eggs).
* Taking vitamins (iron, B9, B12).
* Treating medical conditions where bone marrow abnormalities are a side effect.

Additional Information

Bone marrow is a soft, gelatinous tissue that fills the cavities of the bones. Bone marrow is either red or yellow, depending upon the preponderance of hematopoietic (red) or fatty (yellow) tissue. In humans the red bone marrow forms all of the blood cells with the exception of the lymphocytes, which are produced in the marrow and reach their mature form in the lymphoid organs. Red bone marrow also contributes, along with the liver and spleen, to the destruction of old red blood cells. Yellow bone marrow serves primarily as a storehouse for fats but may be converted to red marrow under certain conditions, such as severe blood loss or fever. At birth and until about the age of seven, all human marrow is red, as the need for new blood formation is high. Thereafter, fat tissue gradually replaces the red marrow, which in adults is found only in the vertebrae, hips, breastbone, ribs, and skull and at the ends of the long bones of the arm and leg; other cancellous, or spongy, bones and the central cavities of the long bones are filled with yellow marrow.

Red marrow consists of a delicate, highly vascular fibrous tissue containing stem cells, which differentiate into various blood cells. Stem cells first become precursors, or blast cells, of various kinds; normoblasts give rise to the red blood cells (erythrocytes), and myeloblasts become the granulocytes, a type of white blood cell (leukocyte). Platelets, small blood cell fragments involved in clotting, form from giant marrow cells called megakaryocytes. The new blood cells are released into the sinusoids, large thin-walled vessels that drain into the veins of the bone. In mammals, blood formation in adults takes place predominantly in the marrow. In lower vertebrates a number of other tissues may also produce blood cells, including the liver and the spleen.

Because the white blood cells produced in the bone marrow are involved in the body’s immune defenses, marrow transplants have been used to treat certain types of immune deficiency and hematological disorders, especially leukemia. The sensitivity of marrow to damage by radiation therapy and some anticancer drugs accounts for the tendency of these treatments to impair immunity and blood production.

Examination of the bone marrow is helpful in diagnosing certain diseases, especially those related to blood and blood-forming organs, because it provides information on iron stores and blood production. Bone marrow aspiration, the direct removal of a small amount (about 1 ml) of bone marrow, is accomplished by suction through a hollow needle. The needle is usually inserted into the hip or sternum (breastbone) in adults and into the upper part of the tibia (the larger bone of the lower leg) in children. The necessity for a bone marrow aspiration is ordinarily based on previous blood studies and is particularly useful in providing information on various stages of immature blood cells. Disorders in which bone marrow examination is of special diagnostic value include leukemia, multiple myeloma, Gaucher disease, unusual cases of anemia, and other hematological diseases.

Gist

Iguazu Falls is the world's largest waterfall system, featuring 275 individual cascades stretching nearly 3 kilometers along the Argentina-Brazil border. As a UNESCO World Heritage site and one of the new seven natural wonders, it features the dramatic 80-meter-tall "Devil's Throat" (Garganta del Diablo).

Iguazu Falls exists within a protected UNESCO World Heritage site that's home to over 2,000 species of vascular plants and countless animal species, including jaguars, ocelots, and over 400 bird species.

Iguazu Falls is one of the new seven natural wonders of the world. At over 1.5 miles wide it is wider than Niagara Falls and is 60% taller than Niagara Falls.

Summary

“My poor Niagara …”

That is what Eleonor Roosevelt said when she saw Iguazu Falls.

Welcome to Iguazu Falls! One of the most important destinations in Argentina, Brazil and South America!

Every year, millions of people come to visit this beautiful natural attraction that Argentina and Brazil have to offer. During 2019, the park received 1,640,000 visitors, both local and foreign.

And everyone is amazed with this destination!

The Iguazu Falls consists of two national parks, one in Foz de Iguazu (Brazil) and the other one in Puerto Iguazu (Argentina). The curious thing is that although one only sees the falls as the main attraction, the park has a size of 252,982 hectares (67,720 on the Argentine side and 185,262 on the Brazilian side).

These falls in Argentina and Brazil managed to attract so much attention that almost at the same time they were declared National Parks (1934 in Argentina and 1939 in Brazil). And after some years and millions of visitors fascinated by the landscape and the sound of this natural attraction, UNESCO declared them as World Heritage Site in 1984, and reaffirmed as Exceptional Universal Value (their cultural and nature it’s so important that it’s conservation should be of worldwide interest) in 2013.

Why are they so famous? It is enough to just see photos and videos to be amazed by its beauty. But it is not only about tourism: the Iguazu National Park is home to many species of animals and flora that create an important natural ecosystem connected to all Latin America.

Each visitor who comes to the Iguazu Falls collaborates to continue the conservation work for the area.

And obviously, Iguazu Falls have allowed the development of local economies, making the city of Puerto Iguazu and Foz de Iguazu grow and improve the quality of life of its inhabitants.

Location of Iguazu Falls

Iguazu Falls are in the continent of South America, and as we mentioned, it is shared by two countries: Argentina and Brazil. Although Paraguay is nearby, it only shares the river that Iguazu Falls feeds, but it is quite far from the falls and cannot even be seen from there.

The city in Argentina where the Iguazu Falls are located is called Puerto Iguazu, and in Brazil it is called Foz de Iguazu. Both cities are very close to each other: only 16km from center to center.

Iguazu Falls on the Argentine side are located 18km from Puerto Iguazu and 29km from the center of Foz de Iguazu.

Iguazu Falls on the Brazilian side are 27km from Puerto Iguazu, and 29km from downtown Foz de Iguazu

Both cities are very close to each national park, that is why all the excursions that we offer on both sides of the falls can pick up from any hotel in both destinations (except in hotels far from the center such as Recanto Cataratas).

The destination is close to several major cities with direct flights. For example, going to Iguazu Falls from Buenos Aires only needs to take a plane to get there in about 2 hours. From Rio de Janeiro you can also get to Iguazu in two hours.

The Iguazu Falls on the Argentine side is at latitude -25.68352837588661 and longitude -54.4547103472097.

The Iguazu Falls on the Brazilian side is at latitude -25.61524025766296 and longitude -54.479225906855845.

Airports Near Iguazu Falls

As the Iguazu Falls are shared by Argentina and Brazil, you have two airports to choose from where to get there: Puerto Iguazu (airport code IGR) and Foz de Iguazu (airport code IGU).

Getting to one or the other airport depends on where you come from to visit the destination.

If you want to visit Iguazu from destinations in Argentina such as Buenos Aires, Cordoba, Salta or other, you should look for flights arriving in Puerto Iguazu (airport code IGR).

Now if you come from Rio de Janeiro, Sao Paulo, or even some international destination like Lima (Peru), then look for flights that arrive at Foz de Iguazu (airport code IGU).

Both airports are fairly close to Iguazu Falls, in fact it is quite normal to offer one-day tours that visit the park on flights that arrive and depart the same day – although it may seem rushed, it is an excellent option for passengers who come from cruise ships or who have very little time.

Iguazu Falls on the Argentine side are 9km (15-20 minutes by car). And the falls on the Brazilian side are 4 kilometers away (less than 10 minutes by car).

Details

Iguazú Falls or Iguaçu Falls are waterfalls of the Iguazu River on the border of the Argentine province of Misiones and the Brazilian state of Paraná. Together, they make up the largest waterfall system in the world. The falls divide the river into the upper and lower Iguazu. The Iguazu River rises near the heart of the city of Curitiba. For most of its course, the river flows through Brazil; however, most of the falls are on the Argentine side. Below its confluence with the San Antonio River, the Iguazu River forms the border between Argentina and Brazil.

The name Iguazú comes from the Guarani or Tupi words y, meaning 'water', and ûasú [waˈsu], meaning 'big'. Legend has it that a deity planned to marry a beautiful woman named Naipí, who fled with her mortal lover Tarobá in a canoe. In a rage, the deity sliced the river, creating the waterfalls and condemning the lovers to an eternal fall. The first European to record the existence of the falls was the Spanish Conquistador Álvar Núñez Cabeza de Vaca in 1541. It was inscribed into the UNESCO World Heritage List in 2013.

Geology and geography

The staircase character of the falls consists of a two-step waterfall formed by three layers of basalt. The steps are 35 and 40 metres (115 and 131 ft) in height. The columnar basalt rock sequences are part of the 1,000-metre-thick (3,300 ft) Serra Geral formation within the Paleozoic-Mesozoic Paraná Basin. The tops of these sequences are characterized by 8–10 m (26–33 ft) of highly resistant vesicular basalt and the contact between these layers controls the shape of the falls. Headwater erosion rates are estimated at 1.4–2.1 cm/year (0.55–0.83 in/year). Numerous islands along the 2.7-kilometre-long (1.7 mi) edge divide the falls into many separate waterfalls and cataracts, varying between 60 and 82 m (197 and 269 ft) high. The number of these smaller waterfalls fluctuates from 150 to 300, depending on the water level. About half of the river's flow falls into a long and narrow chasm called the Devil's Throat (Garganta del Diablo in Spanish or Garganta do Diabo in Portuguese).

The Devil's Throat canyon is 80–90 m (260–300 ft) wide and 70–80 m (230–260 ft) deep. Left of this canyon, another part of the river forms 160–200 individual falls, which merge into a single front during the flood stage. The largest falls are named San Martín, Adam and Eva, Penoni, and Bergano.

About 900 m (2,950 ft) of the 2.7 km (1.7 mi) length does not have water flowing over it. The water of the lower Iguazu collects in a canyon that drains into the Paraná River, a short distance downstream from the Itaipu Dam. The junction of the water flows marks the border between Brazil, Argentina, and Paraguay. Some points in the cities of Foz do Iguaçu, Brazil, Puerto Iguazú, Argentina, and Ciudad del Este, Paraguay, have access to the Iguazu River, where the borders of all three nations may be seen, a popular tourist attraction for visitors to the three cities.

The layout of Iguazu Falls resembles a reversed letter "J". The Argentina–Brazil border runs through the Devil's Throat. On the right bank is the Brazilian territory, which is home to more than 95% of the Iguazu River basin but has just over 20% of the jumps of these falls, and the left side jumps are Argentine, which make up almost 80% of the falls.

Access

The falls may be reached from two main towns, with one on either side of the falls: Foz do Iguaçu in Brazil and Puerto Iguazú in Argentina, as well as from Ciudad del Este, Paraguay, on the other side of the Paraná River from Foz do Iguaçu, each of those three cities having commercial airports. The falls are shared by the Iguazú National Park (Argentina) and Iguaçu National Park (Brazil). The two parks were designated UNESCO World Heritage Sites in 1984 and 1986, respectively.

The first proposal for a Brazilian national park aimed at providing a pristine environment to "future generations", just as "it had been created by God" and endowed with "all possible preservation, from the beautiful to the sublime, from the picturesque to the awesome" and "an unmatched flora" located in the "magnificent Iguaçu waterfalls". These were the words used by André Rebouças, an engineer, in his book Provinces of Paraná, Railways to Mato Grosso and Bolivia, which started up the campaign aimed at preserving the Iguaçu Falls in 1876. At this time, Yellowstone National Park in the US, the first national park in the world, was four years old.

On the Brazilian side, a walkway along the canyon has an extension to the lower base of Devil's Throat. Helicopter rides offering aerial views of the falls have been available from Brazil, but Argentina has prohibited such helicopter tours because of the adverse environmental impact on the flora and fauna of the falls.

Aerolíneas Argentinas has direct flights from Buenos Aires to Iguazu International Airport. Azul, GOL, and LATAM Brasil offer services from main Brazilian cities to Foz do Iguaçu. From Foz do Iguaçu airport, the park may be reached by taking a taxi or bus to the entrance of the park. Their park has an entrance fee on both sides. Once inside, free and frequent buses are provided to various points within the park. The town of Foz do Iguaçu is about 20 km (12 mi) away, and the airport is between the park and the town.

The Argentine access, across the forest, is by a Rainforest Ecological Train very similar to the one in Disney's Animal Kingdom. The train brings visitors to the entrance of Devil's Throat, as well as the upper and lower trails. The Paseo Garganta del Diablo is a 1 km-long (0.6 mi) trail that brings visitors directly over the falls of Devil's Throat, the highest and deepest of the falls. Other walkways allow access to the elongated stretch of falls across the forest on the Argentine side and to the boats that connect to San Martin Island. Also on the Argentine side, inflatable boat services take visitors very close to the falls.

The Brazilian transportation system aims at allowing an increase in the number of visitors, while reducing the adverse environmental impact, through an increase in the average number of passengers per vehicle inside the park. The new transportation system has a 72-passenger capacity and panoramic-view, double-deck buses.

Comparison with other notable falls

Upon seeing Iguazu, the United States First Lady Eleanor Roosevelt reportedly exclaimed, "Poor Niagara!" (which, at 50 m or 165 feet, are a third shorter). Often, Iguazu also is compared with Victoria Falls in Southern Africa, which separates Zambia and Zimbabwe. Iguazu is wider but is split into roughly 275 distinct falls and large islands, whereas Victoria has the largest curtain of water in the world, at more than 1,600 m (5,249 ft) wide and over 100 m (328 ft) in height (in low flow, Victoria is split into five by islands but in high flow, it may be uninterrupted). The only wider falls are extremely large rapid-like falls, such as the Boyoma Falls (Stanley Falls).

With the flooding of the Guaíra Falls in 1982, Iguazu currently has the sixth-greatest average annual flow of any waterfall in the world, following number five Niagara, with an average rate of 1,746 {m}^{3}/s (61,660 cu ft/s). Its maximum recorded flow was 45,700 {m}^{3}/s (1,614,000 cu ft/s) on 9 June 2014. By comparison, the average flow of Niagara Falls is 2,400 {m}^{3}/s (85,000 cu ft/s), with a maximum recorded flow of 8,300 {m}^{3}/s (293,000 cu ft/s). The average flow at Victoria Falls is 1,088 {m}^{3}/s (38,420 cu ft/s), with a maximum recorded flow of 7,100 {m}^{3}/s (250,000 cu ft/s).

Climate

The Iguazu Falls experience a humid subtropical climate (Cfa, according to the Köppen climate classification) with abundant precipitation and high temperatures year-round. During the summer of 2006, a severe drought caused the Iguazu River to become diminished, reducing the amount of water flowing over the falls to 300 cubic metres per second (11,000 cu ft/s) until early December. This was unusual, as dry periods normally last only a few weeks. The period with the greatest volume of water flowing over the falls is usually December to February, coinciding with one of the periods of greatest rainfall.

Additional Information

Iguazu Falls, Iguazú Falls, Iguassu Falls, or Iguaçu Falls (Spanish: Cataratas del Iguazú [kataˈɾatas ðel iɣwaˈsu]; Guarani: Chororo Yguasu [ɕoɾoɾo ɨɣʷasu]; Portuguese: Cataratas do Iguaçu [kataˈɾatɐʒ du iɡwaˈsu]) are waterfalls of the Iguazu River on the border of the Argentine province of Misiones and the Brazilian state of Paraná. They are the largest waterfalls system in the world. The falls divide the river into the upper and lower Iguazu. The Iguazu River rises near the city of Curitiba. For most of its course, the river flows through Brazil, however, most of the falls are on the Argentine side. Below its confluence with the San Antonio River, the Iguazu River forms the boundary between Argentina and Brazil.

The name “Iguazu” comes from the Guarani or Tupi words “y”, meaning “water”, and “ûasú “[waˈsu], meaning “big”. Legend has it that a deity planned to marry a beautiful woman named Naipí, who fled with her mortal lover Tarobá in a canoe. In a rage, the deity sliced the river, creating the waterfalls and condemning the lovers to an eternal fall. The first European to record the existence of the falls was the Spanish conquistador Álvar Núñez Cabeza de Vaca in 1541.

Iguaçu Falls is a series of cataracts on the Iguaçu River, 14 miles (23 km) above its confluence with the Alto (Upper) Paraná River, at the Argentina-Brazil border. The falls resemble an elongated horseshoe that extends for 1.7 miles (2.7 km)—nearly three times wider than Niagara Falls in North America and significantly greater than the width of Victoria Falls in Africa. Numerous rocky and wooded islands on the edge of the escarpment over which the Iguaçu River plunges divide the falls into some 275 separate waterfalls or cataracts, varying between 200 and 269 feet (60 and 82 metres) in height. The name of the falls, like that of the river, is derived from a Guaraní word meaning “great water.”

The rate of flow of the falls may rise to a maximum of 450,000 cubic feet (12,750 cubic metres) per second during the rainy season from November to March. Minimum flow occurs during the dry season from August to October. The mean annual rate of flow is about 62,000 cubic feet (1,756 cubic metres) per second.

The falls occur along a wide span where the Iguaçu River, flowing westward and then northward, tumbles over the edge of the Paraná Plateau before continuing its course in a canyon. Above the falls, islands and islets spread the river into numerous flows that feed the cataracts. A major portion of the river tumbles into a narrow, semicircular chasm called the Garganta do Diabo (Spanish: Garganta del Diablo [“Devil’s Throat”]); the effect has been described as that of “an ocean plunging into an abyss.” Excellent views of this section (also called Union Falls) can be obtained from both the Brazilian and Argentine sides. Many of the individual falls are broken midway by protruding ledges; the resultant deflection of the water, as well as the spray that arises, creates an array of rainbows. From the foot of the Garganta do Diabo, a curtain of mist rises some 500 feet (150 metres) into the air.

Among the many islands along the falls, the most notable is Isla Grande San Martín, which is situated downstream from the Garganta do Diabo (on the Argentine side). From this island, a fine view of many of the cataracts may be had. Individual falls to be seen from the forest paths and trails on the Argentine side include those known as Dos Hermanas (“Two Sisters”), Bozzetti, San Martín, Escondido (“Hidden”), and Rivadavia. From the Brazilian shore, an impressive panorama of falls can also be seen; among individual Brazilian falls are those known as Benjamin Constant, Deodoro, and Floriano.

The first Spanish explorer to visit the falls was Álvar Núñez Cabeza de Vaca in 1541. In 1897 Edmundo de Barros, a Brazilian army officer, envisaged the establishment of a national park at Iguaçu Falls. Following boundary rectifications between Brazil and Argentina, two separate national parks were established, one by each country—Iguaçu National Park (1939) in Brazil and Iguazú National Park (1934) in Argentina. Both parks were created to preserve the vegetation, wildlife, and scenic beauty associated with the falls. In 1984 the Argentine park was designated a UNESCO World Heritage site, and two years later the Brazilian park was also granted World Heritage status. The Iguaçu area is served by three airports, in Argentina, Brazil, and Paraguay.

The vegetation of the region is rich and varied, ranging from semi-deciduous to tropical, and has been a focus of botanical interest. Water plants include a family (Podostemaceae) that grows only in rushing water and is found on the ledges of the falls. Contrasts are also abundant, with orchids growing next to pines, bamboos next to palm trees, and mosses next to lianas and colourful begonias.

Animal life is equally varied and abundant but has been much less studied. Iguanas are a common sight. Among the mammals are several members of the cat family (ocelots and jaguars), deer, tapir, and innumerable smaller animals. Toucans and birds of many other varieties are also to be found. Fish include the dorado (golden salmon), mandi, and cascudo.

Comfortable Quotes - II

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