Thursday, May 1, 2008

Anglo America
Anglo-America is a term used to describe those parts of the Americas in which English is the main language, or having significant historical, ethnic, linguistic, and cultural links to England/United Kingdom or the British Isles in general. Alternatively, Anglo-America is the American portion of the Anglosphere. Anglo-America is distinct from Latin America, a region of the Americas where Romance languages derived from Latin (namely, French, Spanish and Portuguese) are prevalent.
Anglo-America includes the United States and Canada in North America, and the term is frequently used in reference to the two countries together. In Middle and South America, Belize, Guyana, Jamaica, and several other Caribbean territories may also be included, as is Bermuda (a British possession 1000 kilometres east of the American mainland); when referring to this broader group, the term Anglophone America is sometimes used. Suriname is not a part of Anglo-America because Dutch is the official language there, like in the Netherlands Antilles and Aruba. English is also the official language of the Falkland Islands.
The adjective Anglo-American is used in the following ways:
As a noun, Anglo-American can refer to an English speaking European American, sometimes shortened to Anglo. This usage occurs most frequently in the discussion of the history of English-speaking people of the United States and the Spanish-speaking people residing in the western U.S. during the Mexican-American War. This usage generally ignores the distinctions between English Americans, German Americans, Irish Americans, and other northern European descent peoples, comprising the majority of English-speaking Europeans in the United States.

to denote the cultural sphere shared by the United Kingdom, the United States, and sometimes English Canada. For example, "Anglo-American culture is different from French culture." Political leaders including Sir Winston Churchill, Franklin Roosevelt, and Ronald Reagan have utilized the term to discuss the "special relationship" between the United States and the United Kingdom.
to describe relations between the United Kingdom on one hand and the Americas, in particular the United States, on the other. For example, "Anglo-American relations were tense before the War of 1812." Sources

Wednesday, April 30, 2008

Bas C. van Fraassen
Bastiaan Cornelis van Fraassen (born Goes, the Netherlands, 5 April 1941) is a member of the Princeton University Philosophy department, currently in phased retirement. He will finish his phased retirement at the end of the 2007-08 academic year and will then take up a tenured post at San Francisco State University . He previously taught at Yale University, the University of Southern California (USC), and the University of Toronto. He coined the term constructive empiricism in his 1980 book The Scientific Image. Van Fraassen earned his B.A. (1963) from the University of Alberta and his M.A. (1964) and Ph.D. (1966, under the direction of Adolf Grünbaum) from the University of Pittsburgh.
A philosopher of science, van Fraassen's 1989 book Laws and Symmetry attempted to lay the ground-work for explaining physical phenomena without using the assumption that such phenomena are caused by rules or laws which can be said to cause or govern their behavior. Van Fraassen has also done work on the philosophy of quantum mechanics, philosophical logic, and epistemology.
Paul M. Churchland is a vocal critic of van Fraassen, who in his essay "The Anti-Realist Epistemology of Bas van Fraassen's The Scientific Image ", contrasted van Fraassen's idea of unobservable phenomena with the idea of merely unobserved phenomena, among other theories.
Van Fraassen is also known for his pioneering work in philosophical logic.
He is the laureate of the 1986 Lakatos Award for his contributions to the philosophy of science.
Van Fraassen is an adult convert to the Roman Catholic Church. [in: New Blackfriars Vol. 80, No. 938, 1999]

Published books

The Empirical Stance, Yale University Press, 2002.
Quantum Mechanics: An Empiricist View, Oxford University Press, 1991.
Laws and Symmetry, Oxford University Press 1989.

  • French translation and introduction by C. Chevalley. Paris: Vrin, 1994.
    The Scientific Image, Oxford University Press 1980.

    • Co-winner, Franklin J. Matchette Prize for Philosophical Books, 1982.
      Co-winner, Imre Lakatos Award for 1986.
      Italian Edition, with new preface, Bologna 1985.
      Japanese Edition, with new preface, Tokyo 1987.
      Spanish Edition, Mexico, 1995.
      Chinese Edition, Shanghai, 2002
      Derivation and Counterexample: An Introduction to Philosophical Logic (with Karel Lambert), Dickenson Publishing Company, Inc. 1972.
      Formal Semantics and Logic, Macmillan, New York 1971

      • Spanish Translation, Mexico (Universitat Nacional Autonoma de Mexico), tr. J.A. Robles, 1987.
        An Introduction to the Philosophy of Time and Space, Random House, New York 1970.

        • Spanish Translation, Barcelona (Editorial Labor, S.A.), tr. J-P.A. Goicoechea, 1978.
          Second edition, with new preface and postscript. Columbia University Press, 1985.

Tuesday, April 29, 2008

Morris Canal
The Morris Canal was an anthracite-carrying canal that incorporated a series of water-driven inclined planes in its course across northern New Jersey in the United States. It was in existence for about a century -- from the late 1820s to the 1920s.
The Morris Canal stretched from Phillipsburg on the Delaware River at its western end to Jersey City on the Hudson River at its eastern end. Completed to Newark in 1831, the canal was extended eastward to Jersey City between 1834 and 1836. It greatly facilitated the transportation of anthracite coal from Pennsylvania's Lehigh Valley to northern New Jersey's growing iron industry and other developing industries in New Jersey and the New York City area. It also carried iron ore westward through New Jersey to iron furnaces in western New Jersey and eastern Pennsylvania, until the development of Great Lakes iron ore caused them to decline. By the 1850s, the canal began to be eclipsed by the construction of railroads, although it remained in heavy use throughout the 1860s. It was leased to the Lehigh Valley Railroad in 1871, taken over by the state of New Jersey late in 1922, and formally abandoned in 1924. Although it was largely dismantled in the following five years, portions of the canal and its accompanying feeders and ponds are preserved in places across northern New Jersey. It was considered a technical marvel because of its extensive use of inclined planes to overcome the large elevation changes necessary to cross the northern New Jersey hills.

On the canal's western end, at Phillipsburg, a cable ferry allowed Morris Canal boats to cross the Delaware River westward to Easton, Pennsylvania, and travel up the Lehigh Canal to Mauch Chunk, in the anthracite coal regions, to receive their cargoes from the mines. From Phillipsburg, the Morris Canal ran eastward through the valley of the Musconetcong River, which it roughly paralleled upstream to its source at Lake Hopatcong, New Jersey's largest lake. From the lake the canal descended through the valley of the Rockaway River to Boonton, eventually around the northern end of Paterson's Garret Mountain, and south to its 1831 terminus at Newark, on the Passaic River. From there it continued eastward across Kearny Point and through Jersey City to the Hudson River. The extension through Jersey City was at sea level and was supplied with water from the lower Hackensack River.
With its two navigable feeders, the canal was 107 mi (172 km) long. Its ascent eastward from Phillipsburg to its feeder from Lake Hopatcong was 760 ft (232 m), and the descent from there to tidewater was 914 ft (279 m). The surmounting of the height difference was considered a major engineering feat of its day, accomplished through 23 locks and 23 inclined planes. The planes were essentially short railways that allowed canal boats to be carried in open cars uphill and downhill, the plane cars being driven by a water-powered winch. The use of such devices had advantages over locks for large elevation changes in that they did not require the large amount of water needed by a "staircase" of locks and required less time to travel the vertical distance.

Sunday, April 27, 2008

Burning of Washington
The Burning of Washington is the name given to the burning of Washington, D.C., by British forces in 1814, during the War of 1812. Strict discipline and the British commander's orders to burn only public buildings are credited with preserving most residences, and as a result the facilities of the U.S. government, including the White House, were largely destroyed. The attack was in retaliation for the U.S. invasion of York, Upper Canada (now Toronto, Ontario, Canada), at the Battle of York in 1813, in which U.S. forces looted and burned the city, including the Parliament Buildings of Upper Canada.
Only the exterior walls remained, and they had to be torn down and mostly reconstructed due to weakening from the fire and subsequent exposure to the elements, except for portions of the south wall. A legend emerged that during the rebuilding of the structure white paint was applied to mask the burn damage it had suffered, giving the building its namesake hue. This is unfounded as the building had been painted white since its construction in 1798. Of the numerous spoils taken from the White House when it was ransacked by British troops, only two have been recovered — a painting of George Washington, rescued by then-first lady Dolley Madison, and a jewelry box returned to President Franklin Delano Roosevelt in 1939 by a Canadian man who said his grandfather had taken it from Washington. Most of the spoils were lost when a convoy of British ships led by HMS Fantome sank en route to Halifax off Prospect during a storm on the night of November 24, 1814.

The thick sandstone walls of the White House survived, although scarred with smoke and scorch marks. Reconstruction of the Capitol did not begin until 1815, and it was completed in 1864. Of Britain's four objectives in its retaliatory invasion of the United States—Lake Champlain, New Orleans, Baltimore, and Washington, D.C.—this was the only successful attack. The British had successfully diverted the attention of Washington away from the war and prevented further American incursions into Canada, and had landed a humiliating blow to the Americans. The attack was not as demoralizing as Cockburn intended, but it did contribute to the signing of the Treaty of Ghent next year.

Saturday, April 26, 2008

Hawaiian dollar
The dollar or dala was the currency of Hawaii between 1847 and 1898. It was equal to the US dollar and was divided into 100 cents or keneta. Only sporadic issues were made which circulated alongside US currency.
Hawaii's first coins were issued in 1847. They were copper cents bearing the portrait of King Kamehameha III. The coins proved unpopular due to the poor quality portrait of the king and the misspelling of the denomination (hapa haneri instead of hapa heneli).
In 1883, silver coins were issued in denominations of one dime (umi keneta in Hawaiian), quarter dollar (hapaha), half dollar (hapalua) and one dollar (akahi dala). These coins, which pictured the then-King David Kalakaua, were minted in San Francisco to the same specifications as the US coins and circulated beyond the US annexation in 1898. Eventually, many of these coins were melted down and they are consequently rare today.
In 1895, the newly formed Republic of Hawaii issued both gold and silver coin deposit certificates for $5, $10, $20, $50 and $100. These were the last Hawaiian notes and all are extremely rare today.

Friday, April 25, 2008

Mohammed Atef
Mohammed Atef (Arabic: محمد عاطف ) (also transliterated as Muhammad Atef, Muhammed Atef, Muhammad 'Āṭif and several other ways) (1944-2001) was the alleged military chief of the international terrorist organization al-Qaida.
Among his known aliases are Abu Hafez, Abu Hafs, Abu Hafs al-Masri, Abu Hafs El-Masry El-Khabir, Taysir, Sheikh Taysir Abdullah, and Abu Khadijah.
Atef was a police officer in his native Egypt and a member of the group Egyptian Islamic Jihad before he joined Al-Qaeda.
U.S. prosecutors claim that he instigated the attacks on U.S. forces in Somalia in 1993. However, he first became wanted by the U.S. government after the 1998 U.S. embassy bombings, when he was indicted for having directly planned that attack. The FBI offered a five million dollar bounty for his capture.
In January, 2001 in Kandahar, Afghanistan, Atef's daughter married Mohammed bin Laden, son of Osama bin Laden.
Following the September 11, 2001 attacks, and still a fugitive from his U.S. indictment in the 1998 Embassy bombings, Atef appeared on the initial list of the FBI's top 22 Most Wanted Terrorists, which was released to the public by President Bush on October 10, 2001.
Atef was killed when a U.S. air-strike struck his home near Kabul during the U.S. invasion of Afghanistan on November 16, 2001. His death was confirmed when the ambassador of the Taliban, Abd Al-Salam Dhaif said three days later, "Abu Hafs al-Masri died from injuries he suffered after US warplanes bombed his house near Kabul."
He appeared in a video released in September 2006, that showed the planning of the September 11th attacks.[1]

Thursday, April 24, 2008

Host desecration is a form of sacrilege in Christianity, involving the mistreatment or malicious use of a consecrated Host, or communion wafer. Throughout history, a number of groups have been accused of desecrating hosts; because of the religious importance of the consecrated wafer, the accusation is one of metaphysical evil and hostility towards God.
Accusations against Jews were a common pretext for massacres and expulsions throughout the Middle Ages in Europe. Similar accusations were made in witchcraft trials; the witch-hunter's guide Malleus Maleficarum mentions the desecration of hosts by witches a number of times. It is part of many descriptions of the Black Mass, both in ostensibly historical works and in fiction.

History · Timeline · Resources Racial · Religious · New AS Antisemitism around the world Arabs and antisemitism Christianity and antisemitism Islam and antisemitism Nation of Islam and antisemitism Universities and antisemitismHost desecration Anti-globalization and antisemitism Allegations Deicide · Blood libel · Ritual murder Well poisoning · Host desecration Jewish lobby · Jewish Bolshevism Usury · Dreyfus affair Zionist Occupation Government Holocaust denial
Publications On the Jews and their Lies The Protocols of the Elders of Zion The International Jew
Persecutions Expulsions · Ghetto · Pogroms Judenhut · Judensau · Yellow badge Inquisition · Segregation Holocaust · Nazism · Neo-Nazism Organizations fighting AS Anti-Defamation League Community Security Trust EUMC · Stephen Roth Institute Wiener Library · SPLC · SWC · UCSJ
Categories Antisemitism · Jewish history Accusations of host desecration levelled against Jews were a common pretext for massacres and expulsions throughout the Middle Ages in Europe, and in many German cities, according to Ocker's writings in the Harvard Theological Review. According to William Nichol in Christian Antisemitism, "over 100 instances of the charge have been recorded, in many cases leading to massacres."


¿Quién robó los panes del horno?
Los perros judíos, los perros judíos.

Who has stolen the loaves from the oven?
The Jewish dogs, the Jewish dogs.
This is a riddle, or refrain, sung by Chilean schoolchildren in the 1960s. It has been noted to be sung as late as 2006.

See also

Wednesday, April 23, 2008

List of cities and towns in Saudi Arabia
This is a list of cities and towns in Saudi Arabia.

Tuesday, April 22, 2008

Humans have evolved as omnivorous hunter-gatherers over the past 250,000 years. The diet of early modern humans varied significantly depending on location and climate. The diet in the tropics tended to be based more heavily on plant foods, while the diet at higher latitudes tended more towards animal products. Analysis of postcranial and cranial remains of humans and animals from the Neolithic, along with detailed bone modification studies have shown that cannibalism was also prevalent among prehistoric humans.

Nutrition History

The first recorded nutritional experiment is found in the Bible's Book of Daniel. Daniel and his friends were captured by the king of Babylon during an invasion of Israel. Selected as court servants, they were to share in the king's fine foods and wine. But they objected, preferring vegetables (pulses) and water in accordance with their Jewish dietary restrictions. The king's chief steward reluctantly agreed to a trial. Daniel and his friends received their diet for 10 days and were then compared to the king's men. Appearing healthier, they were allowed to continue with their diet.
c. 475 BC: Anaxagoras states that food is absorbed by the human body and therefore contained "homeomerics" (generative components), thereby deducing the existence of nutrients.
c. 400 BC: Hippocrates says, "Let food be your medicine and medicine be your food."
1500s: Scientist and artist Leonardo da Vinci compared metabolism to a burning candle.
1747: Dr. James Lind, a physician in the British navy, performed the first scientific nutrition experiment, discovering that lime juice saved sailors who had been at sea for years from scurvy, a deadly and painful bleeding disorder. The discovery was ignored for forty years, after which British sailors became known as "limeys." The essential vitamin C within lime juice would not be identified by scientists until the 1930s.
1770: Antoine Lavoisier, the "Father of Nutrition and Chemistry" discovered the details of metabolism, demonstrating that the oxidation of food is the source of body heat.
1790: George Fordyce recognized calcium as necessary for fowl survival.
Early 1800s: The elements carbon, nitrogen, hydrogen and oxygen were recognized as the primary components of food, and methods to measure their proportions were developed.
1816: François Magendie discovers that dogs fed only carbohydrates and fat lost their body protein and died in a few weeks, but dogs also fed protein survived, identifying protein as an essential dietary component.
1840: Justus Liebig discovers the chemical makeup of carbohydrates (sugars), fats (fatty acids) and proteins (amino acids.)
1860s: Claude Bernard discovers that body fat can be synthesised from carbohydrate and protein, showing that the energy in blood glucose can be stored as fat or as glycogen.
Early 1880s: Kanehiro Takaki observed that Japanese sailors developed beriberi (or endemic neuritis, a disease causing heart problems and paralysis) but British sailors did not. Adding milk and meat to Japanese diets prevented the disease.
1896: Baumann observed iodine in thyroid glands.
1897: Christiaan Eijkman worked with natives of Java, who also suffered from beriberi. Eijkman observed that chickens fed the native diet of white rice developed the symptoms of beriberi, but remained healthy when fed unprocessed brown rice with the outer bran intact. Eijkman cured the natives by feeding them brown rice, discovering that food can cure disease. Over two decades later, nutritionists learned that the outer rice bran contains vitamin B1, also known as thiamine. Antiquity through 1900

Early 1900s: Carl Von Voit and Max Rubner independently measure caloric energy expenditure in different species of animals, applying principles of physics in nutrition.
1906: Wilcock and Hopkins showed that the amino acid tryptophan was necessary for the survival of mice. Gowland Hopkins recognized "accessory food factors" other than calories, protein and minerals, as organic materials essential to health but which the body cannot synthesise.
1907: Stephen M. Babcock and Edwin B. Hart conduct the Single-grain experiment. This experiment runs through 1911.
1912: Casimir Funk coined the term vitamin, a vital factor in the diet, from the words "vital" and "amine," because these unknown substances preventing scurvy, beriberi, and pellagra, were thought then to be derived from ammonia.
1913: Elmer McCollum discovered the first vitamins, fat soluble vitamin A, and water soluble vitamin B (in 1915; now known to be a complex of several water-soluble vitamins) and names vitamin C as the then-unknown substance preventing scurvy. Lafayette Mendel and Thomas Osborne also perform pioneering work on vitamin A and B.
1919: Sir Edward Mellanby incorrectly identified rickets as a vitamin A deficiency, because he could cure it in dogs with cod liver oil.
1922: McCollum destroys the vitamin A in cod liver oil but finds it still cures rickets, naming vitamin D
1922: H.M. Evans and L.S. Bishop discover vitamin E as essential for rat pregnancy, originally calling it "food factor X" until 1925.
1925: Hart discovers trace amounts of copper are necessary for iron absorption.
1927: Adolf Otto Reinhold Windaus synthesizes vitamin D, for which he won the Nobel Prize in Chemistry in 1928.
1928: Albert Szent-Gyorgyi isolates ascorbic acid, and in 1932 proves that it is vitamin C by preventing scurvy. In 1935 he synthesizes it, and in 1937 he wins a Nobel Prize for his efforts. Szent-Gyorgyi concurrently elucidates much of the citric acid cycle.
1930s: William Cumming Rose identifies essential amino acids, necessary protein components which the body cannot synthesize.
1935: Underwood and Marston independently discover the necessity of cobalt.
1936: Eugene Floyd Dubois shows that work and school performance are related to caloric intake.
1938: The chemical structure of vitamin E is discovered by Erhard Fernholz, and it is synthesised by Paul Karrer.
1940 UK institutes rationing according to nutritional principles drawn up by Elsie Widdowson and others
1941: The first Recommended Dietary Allowances (RDAs) were established by the National Research Council. 1900 through 1941

1992 The U.S. Department of Agriculture Introduces Food Guide Pyramid
2002 Study shows relation between nutrition and violent behavior
2005 Obesity may be caused by adenovirus in addition to bad nutrition Recent
There are six main classes of nutrients that the body needs: carbohydrates, proteins, fats, vitamins, minerals, and water. It is important to consume these six nutrients on a daily basis to build and maintain healthy bodily function.
Poor health can be caused by an imbalance of nutrients, either an excess or deficiency, which, in turn, affects bodily functions cumulatively. Moreover, because most nutrients are involved in cell-to-cell signalling (e.g. as building blocks or as part of a hormone or signalling cascades), deficiency or excess of various nutrients affects hormonal function indirectly. Thus, because they largely regulate the expression of genes, hormones represent a link between nutrition and how our genes are expressed, i.e. our phenotype. The strength and nature of this link are continually under investigation, but recent observations have demonstrated a pivotal role for nutrition in hormonal activity and function and therefore in health.
According to the United Nations World Health Organization (WHO: 1996), more than starvation the real challenge today is malnutrition-the deficiency of micronutrients (vitamins, minerals and essential amino acids) that no longer allows the body to ensure growth and maintain its vital functions.
Recognising the inherent potential of the micro-alage Spirulina (Spirulina Platensis) to counter malnutrition and its severe negative impacts at multiple levels of the society especially in the developing and Least Developed Countries (LDC), the international community affirmed its conviction by joining hands to form the Intergovernmental Institution for the use of Micro-algae Spirulina Against Malnutrition, IIMSAM.

Nutrition and health
The body requires amino acids to produce new body protein (protein retention) and to replace damaged proteins (maintenance) that are lost in the urine. In animals amino acid requirements are classified in terms of essential (an animal cannot produce them) and non-essential (the animal can produce them from other nitrogen containing compounds) amino acids. Consuming a diet that contains adequate amounts of essential (but also non-essential) amino acids is particularly important for growing animals, who have a particularly high requirement.

Essential and non-essential amino acids
Mineral and/or vitamin deficiency or excess may yield symptoms of diminishing health such as goitre, scurvy, osteoporosis, weak immune system, disorders of cell metabolism, certain forms of cancer, symptoms of premature aging, and poor psychological health (including eating disorders), among many others.
As of 2005, twelve vitamins and about the same number of minerals are recognized as "essential nutrients", meaning that they must be consumed and absorbed - or, in the case of vitamin D, alternatively synthesized via UVB radiation - to prevent deficiency symptoms and death. Certain vitamin-like substances found in foods, such as carnitine, have also been found essential to survival and health, but these are not strictly "essential" to eat because the body can produce them from other compounds. Moreover, thousands of different phytochemicals have recently been discovered in food (particularly in fresh vegetables), which have many known and yet to be explored properties including antioxidant activity (see below). Other essential nutrients include essential amino acids, choline and the essential fatty acids.

In addition to sufficient intake, an appropriate balance of essential fatty acids - omega-3 and omega-6 fatty acids - has been discovered to be crucial for maintaining health. Both of these unique "omega" long-chain polyunsaturated fatty acids are substrates for a class of eicosanoids known as prostaglandins which function as hormones. The omega-3 eicosapentaenoic acid (EPA) (which can be made in the body from the omega-3 essential fatty acid alpha-linolenic acid (LNA), or taken in through marine food sources), serves as building block for series 3 prostaglandins (e.g. weakly-inflammation PGE3). The omega-6 dihomo-gamma-linolenic acid (DGLA) serves as building block for series 1 prostaglandins (e.g. anti-inflammatory PGE1), whereas arachidonic acid (AA) serves as building block for series 2 prostaglandins (e.g. pro-inflammatory PGE 2). Both DGLA and AA are made from the omega-6 linoleic acid (LA) in the body, or can be taken in directly through food. An appropriately balanced intake of omega-3 and omega-6 partly determines the relative production of different prostaglandins, which partly explains the importance of omega-3/omega-6 balance for cardiovascular health. In industrialised societies, people generally consume large amounts of processed vegetable oils that have reduced amounts of essential fatty acids along with an excessive amount of omega-6 relative to omega-3.
The rate of conversions of omega-6 DGLA to AA largely determines the production of the respective prostaglandins PGE1 and PGE2. Omega-3 EPA prevents AA from being released from membranes, thereby skewing prostaglandin balance away from pro-inflammatory PGE2 made from AA toward anti-inflammatory PGE1 made from DGLA. Moreover, the conversion (desaturation) of DGLA to AA is controlled by the enzyme delta-5-desaturase, which in turn is controlled by hormones such as insulin (up-regulation) and glucagon (down-regulation). Because different types and amounts of food eaten/absorbed affect insulin, glucagon and other hormones to varying degrees, not only the amount of omega-3 versus omega-6 eaten but also the general composition of the diet therefore determine health implications in relation to essential fatty acids, inflammation (e.g. immune function) and mitosis (i.e. cell division).

Fatty acids
Several lines of evidence indicate lifestyle-induced hyperinsulinemia and reduced insulin function (i.e. insulin resistance) as a decisive factor in many disease states. For example, hyperinsulinemia and insulin resistance are strongly linked to chronic inflammation, which in turn is strongly linked to a variety of adverse developments such as arterial microinjuries and clot formation (i.e. heart disease) and exaggerated cell division (i.e. cancer). Hyperinsulinemia and insulin resistance (the so-called metabolic syndrome) are characterized by a combination of abdominal obesity, elevated blood sugar, elevated blood pressure, elevated blood triglycerides, and reduced HDL cholesterol. The negative impact of hyperinsulinemia on prostaglandin PGE1/PGE2 balance may be significant.
The state of obesity clearly contributes to insulin resistance, which in turn can cause type 2 diabetes. Virtually all obese and most type 2 diabetic individuals have marked insulin resistance. Although the association between overfatness and insulin resistance is clear, the exact (likely multifarious) causes of insulin resistance remain less clear. Importantly, it has been demonstrated that appropriate exercise, more regular food intake and reducing glycemic load (see below) all can reverse insulin resistance in overweight individuals (and thereby lower blood sugar levels in those who have type 2 diabetes).
Obesity can unfavourably alter hormonal and metabolic status via resistance to the hormone leptin, and a vicious cycle may occur in which insulin/leptin resistance and obesity aggravate one another. The vicious cycle is putatively fuelled by continuously high insulin/leptin stimulation and fat storage, as a result of high intake of strongly insulin/leptin stimulating foods and energy. Both insulin and leptin normally function as satiety signals to the hypothalamus in the brain; however, insulin/leptin resistance may reduce this signal and therefore allow continued overfeeding despite large body fat stores. In addition, reduced leptin signalling to the brain may reduce leptin's normal effect to maintain an appropriately high metabolic rate.
There is debate about how and to what extent different dietary factors -- e.g. intake of processed carbohydrates, total protein, fat, and carbohydrate intake, intake of saturated and trans fatty acids, and low intake of vitamins/minerals -- contribute to the development of insulin- and leptin resistance. In any case, analogous to the way modern man-made pollution may potentially overwhelm the environment's ability to maintain 'homeostasis', the recent explosive introduction of high Glycemic Index- and processed foods into the human diet may potentially overwhelm the body's ability to maintain homeostasis and health (as evidenced by the metabolic syndrome epidemic).
Antioxidants are another recent discovery. As cellular metabolism/energy production requires oxygen, potentially damaging (e.g. mutation causing) compounds known as radical oxygen species or free radicals form as a result. For normal cellular maintenance, growth, and division, these free radicals must be sufficiently neutralized by antioxidant compounds, some produced by the body with adequate precursors (glutathione, Vitamin C in most animals) and those that the body cannot produce may only be obtained through the diet through direct sources (Vitamin C in humans, Vitamin A, Vitamin K) or produced by the body from other compounds (Beta-carotene converted to Vitamin A by the body, Vitamin D synthesized from cholesterol by sunlight). Different antioxidants are now known to function in a cooperative network, e.g. vitamin C can reactivate free radical-containing glutathione or vitamin E by accepting the free radical itself, and so on. Some antioxidants are more effective than others at neutralizing different free radicals. Some cannot neutralize certain free radicals. Some cannot be present in certain areas of free radical development (Vitamin A is fat-soluble and protects fat areas, Vitamin C is water soluble and protects those areas). When interacting with a free radical, some antioxidants produce a different free radical compound that is less dangerous or more dangerous than the previous compound. Having a variety of antioxidants allows any byproducts to be safely dealt with by more efficient antioxidants in neutralizing a free radical's butterfly effect.

Nutrition Sugars

Main article: Gut flora Intestinal bacterial flora
A growing area of interest is the effect upon human health of trace chemicals, collectively called phytochemicals, nutrients typically found in edible plants, especially colorful fruits and vegetables (see Whole Foods Diet, below). The effects of phytochemicals increasingly survive rigorous testing by prominent health organizations. One of the principal classes of phytochemicals are polyphenol antioxidants, chemicals which are known to provide certain health benefits to the cardiovascular system and immune system. These chemicals are known to down-regulate the formation of reactive oxygen species, key chemicals in cardiovascular disease.
Perhaps the most rigorously tested phytochemical is zeaxanthin, a yellow-pigmented carotenoid present in many yellow and orange fruits and vegetables. Repeated studies have shown a strong correlation between ingestion of zeaxanthin and the prevention and treatment of age-related macular degeneration (AMD). At the most basic level, the question "should you eat eggs?" is complex to the point of dismay, including misperceptions about the health effects of cholesterol in egg yolk, and its saturated fat content.
As another example, lycopene is prevalent in tomatoes (and actually is the chemical that gives tomatoes their red color). It is more highly concentrated, however, in processed tomato products such as commercial pasta sauce, or tomato soup, than in fresh "healthy" tomatoes. Yet, such sauces tend to have high amounts of salt, sugar, other substances a person may wish or even need to avoid.
The following table of phytochemical groups and common sources, arranged by family, is taken in part from the Wikipedia article on phytochemicals.



Nutrition and sports
The protein requirements of athletes, once the source of great controversy, has settled into a current consensus. Sedentary people and recreational athletes

Maintaining hydration during periods of physical exertion is key to good performance. While drinking too much water during activities can lead to physical discomfort, dehydration in excess of 2% of body mass (by weight) markedly hinders athletic performance. It is recommended that an athlete drink about 400-600 mL 2-3 hours before activity, during exercise he or she should drink 150-350mL every 15 to 20 minutes and after exercise that he or she replace sweat loss by drinking 450-675 mL for every 0.5 kg body weight loss during activity. More usually, the condition occurs in long-distance endurance events (such as marathon or triathlon competition and training) and causes gradual mental dulling, headache, drowsiness, weakness, and confusion; extreme cases may result in coma, convulsions, and death. The primary damage comes from swelling of the brain, caused by increased osmosis as blood salinity decreases. Effective fluid replacement techniques include Water aid stations during running/cycling races, trainers providing water during team games such as Soccer and devices such as Camel Baks which can provide water for a person without making it too hard to drink the water.

Water and Salts
The main fuel used by the body during exercise is carbohydrates, which is stored in muscle as glycogen- a form of sugar. During exercise, muscle glycogen reserves can be used up, especially when activities last longer than 90 min. Because the amount of glycogen stored in the body is limited, it is important for athletes to replace glycogen by consuming a diet high in carbohydrates. Meeting energy needs can help improve performance during the sport, as well as improve overall strength and endurance.


Nutrition and longevity
Heart disease, cancer, obesity, and diabetes are commonly called "Western" diseases because these maladies were once rarely seen in developing countries. One study in China found some regions had essentially no cancer or heart disease, while in other areas they reflected "up to a 100-fold increase" coincident with diets that were found to be entirely plant-based to heavily animal-based, respectively.

Whole Plant Food Diet

Main article: French paradox The French "paradox"
Since the Industrial Revolution some two hundred years ago, the food processing industry has invented many technologies that both help keep foods fresh longer and alter the fresh state of food as they appear in nature. Cooling is the primary technology used to maintain freshness, whereas many more technologies have been invented to allow foods to last longer without becoming spoiled. These latter technologies include pasteurisation, autoclavation, drying, salting, and separation of various components, and all appear to alter the original nutritional contents of food. Pasteurisation and autoclavation (heating techniques) have no doubt improved the safety of many common foods, preventing epidemics of bacterial infection. But some of the (new) food processing technologies undoubtedly have downfalls as well.
Modern separation techniques such as milling, centrifugation, and pressing have enabled upconcentration of particular components of food, yielding flour, oils, juices and so on, and even separate fatty acids, amino acids, vitamins, and minerals. Inevitably, such large scale upconcentration changes the nutritional content of food, saving certain nutrients while removing others. Heating techniques may also reduce food's content of many heat-labile nutrients such as certain vitamins and phytochemicals, and possibly other yet to be discovered substances. Because of reduced nutritional value, processed foods are often 'enriched' or 'fortified' with some of the most critical nutrients (usually certain vitamins) that were lost during processing. Nonetheless, processed foods tend to have an inferior nutritional profile than do whole, fresh foods, regarding content of both sugar and high GI starches, potassium/sodium, vitamins, fibre, and of intact, unoxidized (essential) fatty acids. In addition, processed foods often contain potentially harmful substances such as oxidized fats and trans fatty acids.
A dramatic example of the effect of food processing on a population's health is the history of epidemics of beri-beri in people subsisting on polished rice. Removing the outer layer of rice by polishing it removes with it the essential vitamin thiamine, causing beri-beri. Another example is the development of scurvy among infants in the late 1800s in the United States. It turned out that the vast majority of sufferers were being fed milk that had been heat-treated (as suggested by Pasteur) to control bacterial disease. Pasteurisation was effective against bacteria, but it destroyed the vitamin C.
As mentioned, lifestyle- and obesity-related diseases are becoming increasingly prevalent all around the world. There is little doubt that the increasingly widespread application of some modern food processing technologies has contributed to this development. The food processing industry is a major part of modern economy, and as such it is influential in political decisions (e.g. nutritional recommendations, agricultural subsidising). In any known profit-driven economy, health considerations are hardly a priority; effective production of cheap foods with a long shelf-life is more the trend. In general, whole, fresh foods have a relatively short shelf-life and are less profitable to produce and sell than are more processed foods. Thus the consumer is left with the choice between more expensive but nutritionally superior whole, fresh foods, and cheap, usually nutritionally inferior processed foods. Because processed foods are often cheaper, more convenient (in both purchasing, storage, and preparation), and more available, the consumption of nutritionally inferior foods has been increasing throughout the world along with many nutrition-related health complications.

Nutrition, industry and food processing

Nutrition and Learning
In the U.S., Dietitians are registered with the American Dietetic Association and are only able to use the label "Dietitian" when they have met strict, specific educational and experiential prerequisites and passed a national registration examination. Anyone may call themselves a Nutritionist,including unqualified personnel, as this term is unregulated. Most governments provide guidance on nutrition, and some also impose mandatory disclosure/labeling requirements for processed food manufacturers and restaurants to assist consumers in complying with such guidance.
In the US, nutritional standards and recommendations are currently controlled by the US Department of Agriculture. Dietary and exercise guidelines from the USDA are presented in the concept of a food pyramid, which superseded the Four Food Groups. The Senate committee currently responsible for oversight of the USDA is the Agriculture, Nutrition and Forestry Committee. Committee hearings are often televised on C-SPAN as seen here.
Canada's Food Guide is another governmental recommendation.

Governmental policies
Nutrition is taught in schools in many countries. In England and Wales the Personal and Social Education and Food Technology curricula nutrition included, stressing the importance of a balanced diet and teaching how to read nutrition labels on packaging. However, in developing countries it is a distant dream; misconceptions, gender bias, ignorance of hygienic conditions, etcetera, are still existing in their full strength.

Research indicates that improving the awareness of nutritious meal choices and establishing long-term habits of healthy eating has a positive effect on a cognitive and spatial memory capacity, potentially increasing a student's potential to process and retain academic information.
Some organizations have begun working with teachers, policymakers, and managed foodservice contractors to mandate improved nutritional content and increased nutritional resources in school cafeterias from primary to university level institutions. Health and nutrition have been proven to have close links with overall educational success (Behrman, 1996). Currently less than 10% of American college students report that they ate the recommended five servings of fruit and vegetables daily. .
There is limited research available that directly links a student's Grade Point Average (G.P.A.) to their overall nutritional health. Additional substantive data is needed to prove beyond a shadow of a doubt that overall intellectual health is closely linked to a person's diet.

Nutrition and its effects on the learning process
Challenging issues in modern nutrition include:
"Artificial" interventions in food production and supply:
Sociological issues:
Research Issues:
Practising Nutrition The roles and qualifications of practitioners in the area of nutrition is an area frequently up for discussion. In both the USA and UK the term dietitian is protected by law and may only be used by persons attaining specific criteria. The term nutritionist however is not protected and as such may be used by anyone offering food and dietary advice. This is being addressed by a register of nutritionists held by the Nutrition Society in order to protect the public.

Should genetic engineering be used in the production of food crops and animals?
Are the use of pesticides, and fertilizers damaging to the foods produced by use of these methods (see also organic farming)?
Are the use of antibiotics and hormones in animal farming ethical and/or safe?
Is it possible to eat correctly on a low income? Is proper nutrition economically skewed? How do we increase access to whole foods in impoverished neighborhoods?
How do we minimise the current disparity in food availability between first and third world populations (see famine and poverty)?
How can public advice agencies, policy making and food supply companies be coordinated to promote healthy eating and make wholesome foods more convenient and available?
Should food stamps be distributed to obese families?
Do we need nutritional supplements in the form of pills, powders, liquids, etc.?
Does the developed world promote good worldwide nutrition by minimizing import tariffs and export subsidies on food transfers?
How do different nutrients affect appetite and metabolism, and what are the molecular mechanisms?
Can a whole plant food diet, replete with diversity and colors, be instituted and implemented to improve health and reduce medical costs?
What yet to be discovered important roles do vitamins, minerals, and other nutrients play in metabolism and health?
Are the current recommendations for intake of vitamins and minerals appropriate?
How and why do different cell types respond differently to chronically elevated circulating levels of insulin, leptin, and other hormones?
What does it take for insulin resistance to develop?
What other molecular mechanisms may explain the link between nutrition and lifestyle-related diseases?
What role does the intestinal bacterial flora play in digestion and health?
How essential to proper digestion are the enzymes contained in food itself, which are usually destroyed in cooking (see Living foods diet)?
What more can we discover through what has been called the phytochemical revolution? Issues
Main list: List of basic nutrition topics
Dangers of poor nutrition
Food (portal)
Healthy diet:
Related topics

Main article: Health Bibliography

Monday, April 21, 2008

Seneca nation
The Seneca are a group of indigenous people native to North America. They are the westernmost nation within the Six Nations or Iroquois League. While unknown for sure, approximately 15,000 to 25,000 Seneca live in the United States and Canada, on and off reservations around Buffalo, in Oklahoma and near Brantford, Ontario.

The Seneca traditionally lived in what is now New York between the Genesee River and Canandaigua Lake, with some recent archaeological evidence indicating that they lived all the way down to the Allegheny River into what is now northwestern Pennsylvania. The Senecas were by far the most populous of the Haudenosaunee Nations, with the ability to raise over ten thousand warriors by the seventeenth century..
Notable Senecas in history include Deerfoot, Red Jacket, Sayenqueraghta, Cornplanter, Guyasuta, Handsome Lake, Ely S. Parker, Governor Blacksnake, Halftown, Half-King, Little Beard, Skunny Wundy, Mary Jemison, Arthur Parker, Isaac Newton Parker, Robert Hoag, Willam C. Hoag, Frank Patterson, Cornelius Seneca, George Heron, Lionel R. John, Martin Seneca Sr., Duwayne 'Duce' Bowen, Solomon McLane, Barry Snyder Sr., William Seneca, and Catherine Montour.

During the colonial period they became involved in the fur trade, first with the Dutch and then with the British depending on the age and gender; however, slavery and execution were also possible, though this was usually limited to captured soldiers.

Contact with Europeans
During the American Revolutionary War, some Senecas sided with the British and Loyalists and as a result, in 1779 came under attack by United States forces as part of the Sullivan Expedition. On July 8, 1788, the Senecas (along with some Mohawk, Oneida, Onondagoes, and Cayogas tribes) sold rights to land east of the Genesee River in New York to Oliver Phelps and Nathaniel Gorham of Massachusetts. On November 11, 1794, the Seneca (along with the other Haudenosaunee nations) signed the Treaty of Canandaigua with the United States agreeing to peaceful relations. On January 15, 1838, the Treaty of Buffalo Creek was signed relocating the Senecas to a tract of land west of Missouri. The Seneca formed a modern government, the Seneca Nation of Indians, in 1848, but the traditional tribal government still governs the Tonawanda Band of Seneca Indians.

Interactions with the United States
While it is unknown exactly how many Seneca people there are, approximately ten thousand Seneca live near Lake Erie.
About 7,800 Seneca people are citizens of the Seneca Nation of Indians. These enrolled members live or work on five reservations in New York: the Allegany (which contains the city of Salamanca), the Cattaraugus near Gowanda, New York, the Buffalo Creek Territory located in downtown Buffalo, NY, the Niagara Falls Territory located due east of Niagara Falls, and the Oil Springs, near Cuba, New York. Few Seneca reside at the Oil Springs, Buffalo Creek, or Niagara Territories due to the small amount of land present-- in the case of the last two, because those territories are specifically laid out for casinos.
Another 1,200 or more Seneca people are citizens of the Tonawanda Band of Seneca Indians and live on the Tonawanda Reservation near Akron, New York.
Other Seneca descendants are members of the Seneca-Cayuga Tribe of Oklahoma near Miami, Oklahoma, plus a considerable number are citizens of Six Nations and reside on the Grand River Territory near Brantford, Ontario, Canada.
Other enrolled members of the Seneca Nation live throughout the United States.

The Seneca commenced an action to reclaim land that allegedly was taken from it without the approval of the United States on August 25, 1993, in the United States District Court for the Western District of New York. The lands consisted of several islands. In November 1993, the Tonawanda Band of Seneca Indians moved to join the claim as a plaintiff which was ultimately granted. In 1998, the United States intervened in the lawsuits on behalf of the plaintiffs in the claim in order for the claim to proceed against New York in light of its assertion of it immunity from suit under the Eleventh Amendment to the United States Constitution.

Land claims

The Senecas have a diversified economy that relies on construction, recreation, tourism, retail sales, and have recently become involved in the gaming industry.
Several large construction companies are located on the Cattaraugus and Allegany Territories. There are also many smaller construction companies that are owned and operated by Seneca people. A considerable number of Seneca men work in some facet of the construction industry.
Recreation is one component of Seneca enterprises. The Highbanks Campground plays host to several thousand visitors every summer, as people take in the scenic vistas and enjoy the Allegheny Reservoir. Several thousand fishing licenses are sold each year to non-Seneca fishermen. Many of these customers are tourists to the region. Tourism in the area often comes as a direct result of several major highways adjacent or on the Seneca Nation Territories that provide ready accessiblity to local, regional and national traffic. Many tourists visit the region during the autumn for the fall foliage.
A substantial portion of the Seneca economy revolves around retail sales. From sports apparel to candles to artwork to traditional crafts, the wide range of products for sale on Seneca Nation Territories reflect the diverse interest of Seneca Nation citizens.

Tax free gasoline and cigarette sales
The Seneca Nation began to develop its gambling industry during the 1980s when bingo was introduced. In 2002, the Seneca Nation of Indians signed a Gaming Compact with the State of New York to cooperate in the establishment of three class III gambling facilities (casinos). Currently the Seneca Nation of Indians owns and operates two casinos: one in Niagara Falls, New York called Seneca Niagara and the other in Salamanca called Seneca Allegany. The third, the Seneca Buffalo Creek Casino, is under construction in downtown Buffalo. There are groups that are opposing the Seneca Nation's establishment of the Seneca Buffalo Creek Casino. They include Upstate Citizens for Equality and Citizens for a Better Buffalo, who recently won a lawsuit challenging the legality of the proposed casino in Buffalo.

Many Seneca people are employed in the local economy of the region as professionals, including; lawyers, professors, physicians, police officers, teachers, social workers, nurses, and managers.


Seneca language
Ganondagan State Historic Site
Seneca Trail
Seneca Rocks Notes

Dating the Iroquois Confederacy essay by Bruce E. Johansen, ND.
Anthony F.C. Wallace, The Death and Rebirth of the Seneca (New York: Vintage Books, 1969). ISBN 0-394-71699-X.
William Cronon, Changes in the Land: Indians, Colonists, and the Ecology of New England (New York: Hill and Wang, 1983). ISBN 0-8090-0158-6
Robert H. Keller & Michael F. Turek, American Indians & National Parks (Arizona: University of Arizona Press, 1998). ISBN 0-8165-2014-3

Sunday, April 20, 2008

Combatting Cult Mind Control
Combatting Cult Mind Control: The #1 Best-selling Guide to Protection, Rescue, and Recovery from Destructive Cults is a non-fiction work by Steven Hassan. The author describes theories of mind control and cults based on the research of Margaret Singer and Robert Lifton as well as the cognitive dissonance theory of Leon Festinger. The book was published by Park Street Press, in 1988.
Hassan is a licensed mental health counselor (LMHC) in the Commonwealth of Massachusetts, and is a former member of the Unification Church.

Critical viewpoints

List of cult and new religious movement researchers

Saturday, April 19, 2008

Honshū  (本州 literally "Main State") is the largest island of Japan, called the Mainland; it is south of Hokkaidō across the Tsugaru Strait, north of Shikoku across the Inland Sea, and northeast of Kyūshū across the Kanmon Strait. It is the seventh largest island, and the second most populous island in the world after Java (see the list of islands by area, population).
The island is roughly 1,300 km long and ranges from 50 to 230 km wide, and its total area is 230,500 km², around 60% of the total area of Japan. It is larger than the island of Great Britain, and slightly larger than the state of Minnesota. Honshū has 5,450 km of coastline.
Mountainous and volcanic, Honshū has frequent earthquakes (the Great Kantō earthquake heavily damaged Tokyo in September 1923); the highest peak is the active volcano Mount Fuji at 3,776 m, which makes it the world's 7th highest island. There are many rivers, including the Shinano River, Japan's longest. The climate is highly variable from the cool north to the subtropical south.
It has a population of 98,352,000 (as of 1990; in 1975 it was 89,101,702), mostly concentrated in the available lowlands, notably in the Kantō plain where 25% of the total population reside in the Greater Tokyo Area, which includes Tokyo and Yokohama, Kawasaki, Saitama and Chiba cities. Other cities include Kyoto, Osaka, Nagoya, Kobe, Hiroshima and Sendai. The island is nominally divided into five regions and contains 34 prefectures, including metropolitan Tokyo.
The regions are Chūgoku (western), Kansai (southern, east of Chūgoku), Chūbu (central), Kantō (eastern), and Tōhoku (northern).
Historical centers are also present, such as Kyoto, Nara, and Kamakura.
The island also includes important agricultural regions. Niigata is noted as an important producer of rice. The Kantō and Nōbi plains produce rice and vegetables. Yamanashi is a major fruit-growing area, and Aomori is famous for its apples.
A mountain range runs along the length of Honshū from end to end. In addition to Mt. Fuji, the Japanese Alps are features of Honshū. The mountains are responsible for a marked difference in climate between the eastern or southern (Pacific or Inland Sea coast) side, and the western or northern (Sea of Japan coast) side.
The prefectures are:
Honshū is connected to the islands of Hokkaidō, Kyūshū and Shikoku by tunnels or bridges. Three new bridge systems have been built across the islands of the Inland Sea between Honshū and Shikoku (Akashi-Kaikyo Bridge and the Ohnaruto Bridge; Shin-Onomichi Bridge, Innoshima Bridge, Ikuchi Bridge, Tatara Bridge, Ohmishima Bridge, Hakata-Ohshima Bridges, and the Kurushima-Kaikyo Bridge; Shimotsui-Seto Bridge, Hitsuishijima Bridge, Iwakurojima Bridge, Yoshima Bridge, Kita Bisan-Seto Bridge, and the Minami Bisan-Seto Bridge), and the Seikan Tunnel connects Honshū with Hokkaidō.

Chūgoku regionHiroshima-ken, Okayama-ken, Shimane-ken, Tottori-ken, Yamaguchi-ken.
KansaiHyōgo-ken, Kyoto-fu, Mie-ken, Nara-ken, Osaka-fu, Shiga-ken, Wakayama-ken.
ChūbuAichi-ken, Fukui-ken, Gifu-ken, Ishikawa-ken, Nagano-ken, Niigata-ken, Toyama-ken, Shizuoka-ken, Yamanashi-ken.
KantōChiba-ken, Gunma-ken, Ibaraki-ken, Kanagawa-ken, Saitama-ken, Tochigi-ken, Tokyo-to.
TōhokuAkita-ken, Aomori-ken, Fukushima-ken, Iwate-ken, Miyagi-ken, Yamagata-ken.