Common salt is a mineral composed primarily of sodium chloride (NaCl), a chemical compound belonging to the larger class of salts; salt in its natural form as a crystalline mineral is known as rock salt or halite. Salt is present in vast quantities in seawater, where it is the main mineral constituent; the open ocean has about 35 grams (1.2 oz) of solids per litre, a salinity of 3.5%. Salt is essential for animal life, and saltiness is one of the basic human tastes. The tissues of animals contain larger quantities of salt than do plant tissues; therefore the typical diets of nomads who subsist on their flocks and herds require little or no added salt, whereas cereal-based diets require supplementation. Salt is one of the oldest and most ubiquitous of food seasonings, and salting is an important method of food preservation.
Some of the earliest evidence of salt processing dates to around 8,000 years ago, when people living in Romania were boiling spring water to extract the salts; a salt-works in China has been found which dates to approximately the same period. Salt was prized by the ancient Hebrews, the Greeks, the Romans, the Byzantines, the Hittites and the Egyptians. Salt became an important article of trade and was transported by boat across the Mediterranean Sea, along specially built salt roads, and across the Sahara in camel caravans. The scarcity and universal need for salt has led nations to go to war over salt and use it to raise tax revenues. Salt is also used in religious ceremonies and has other cultural significance.
Salt is processed from salt mines, or by the evaporation of seawater (sea salt) or mineral-rich spring water in shallow pools. Its major industrial products are caustic soda and chlorine, and it is used in many industrial processes and in the manufacture of polyvinyl chloride, plastics, paper pulp and many other products. Of the annual production of around two hundred million tonnes of salt, only about 6% is used for human consumption; other uses include water conditioning processes, de-icing highways and agricultural use. Edible salt is sold in forms such as sea salt and table salt which usually contains an anti-caking agent and may be iodised to prevent iodine deficiency. As well as its use in cooking and at the table, salt is present in many processed foods.
Salt is an essential nutrient and the amount of salt in the diet influences health. Too much salt can raise blood pressure and may increase the risk of heart attacks and strokes in susceptible populations. The World Health Organization recommends that adults should consume less than 2,000 mg of sodium, equivalent to 5 grams of salt per day.
Humans have always tended to build communities either around sources of salt, or where they can trade for it.
All through history the availability of salt has been pivotal to civilization. The word “salary” comes from the Latin word for salt because the Roman Legions were sometimes paid in salt, which was quite literally worth its weight ingold. In Britain, the suffix “-wich” in a placename means it was once a source of salt, as in Sandwich and Norwich. The Natron Valley was a key region that supported the Egyptian Empire to its north, because it supplied it with a kind of salt that came to be called by its name, natron.
Even before this, what is now thought to have been the first city in Europe is Solnitsata, in Bulgaria, which was a salt mine, providing the area now known as the Balkans with salt since 5400 BC. Even the name Solnisata means “salt works”.
While people have used canning and artificial refrigeration to preserve food for the last hundred years or so, salt has been the best-known food preservative, especially for meat, for many thousands of years. A very ancient salt-works operation has been discovered at the Poiana Slatinei archaeological site next to a salt spring in Lunca, Neamț County, Romania. Evidence indicates that Neolithic people of the Precucuteni Culture were boiling the salt-laden spring water through the process of briquetage to extract the salt as far back as 6050 BC. The salt extracted from this operation may have had a direct correlation to the rapid growth of this society’s population soon after its initial production began. The harvest of salt from the surface of Xiechi Lake near Yuncheng in Shanxi, China, dates back to at least 6000 BC, making it one of the oldest verifiable saltworks.
There is more salt in animal tissues such as meat, blood and milk, than there is in plant tissues. Nomads who subsist on their flocks and herds do not eat salt with their food, but agriculturalists, feeding mainly on cereals and vegetable matter, need to supplement their diet with salt. With the spread of civilization, salt became one of the world’s main trading commodities. It was of high value to the ancient Hebrews, the Greeks, the Romans, the Byzantines, the Hittites and other peoples of antiquity. In the Middle East, salt was used to ceremonially seal an agreement, and the ancient Hebrews made a “covenant of salt” with God and sprinkled salt on their offerings to show their trust in him. An ancient practice in time of war was salting the earth: scattering salt around in a defeated city in order to prevent plant growth. Abimelech was ordered by God to do this at Shechem, and various texts claim that the Roman general Scipio Aemilianus Africanus ploughed over and sowed the city of Carthage with salt after it was defeated in the Third Punic War(146 BC).
Ponds near Maras, Peru, fed from a mineral spring and used for salt production since the time of the Incas.
Salt may have been used for barter in connection with the obsidian trade in Anatolia in the Neolithic Era. Herodotus described salt trading routes across Libya back in the 5th century BC. In the early years of the Roman Empire, roads such as the Via Salaria were built for the transportation of salt from the salt pans of Ostia to the capital. Salt was included among funeral offerings found in ancient Egyptian tombs from the third millennium BC, as were salted birds, and salt fish. From about 2800 BC, the Egyptians began exporting salt fish to the Phoenicians in return for Lebanon cedar, glass and the dye Tyrian purple; the Phoenicians traded Egyptian salt fish and salt from North Africa throughout their Mediterranean trade empire.
In Africa, salt was used as currency south of the Sahara, and slabs of rock salt were used as coins in Abyssinia. Moorish merchants in the 6th century traded salt for gold, weight for weight. The Tuareg have traditionally maintained routes across the Sahara especially for the transportation of salt by Azalai (salt caravans). The caravans still cross the desert from southern Niger to Bilma, although much of the trade now takes place by truck. Each camel takes two bales of fodder and two of trade goods northwards and returns laden with salt pillars and dates.
Salzburg, Hallstatt, and Hallein lie within 17 km (11 mi) of each other on the river Salzach in central Austria in an area with extensive salt deposits. Salzach literally means “salt river” and Salzburg “salt castle”, both taking their names from the German word Salz meaning salt and Hallstatt was the site of the world’s first salt mine. The town gave its name to the Hallstatt culture that began mining for salt in the area in about 800 BC. Around 400 BC, the townsfolk, who had previously used pickaxes and shovels, began open pan salt making. During the first millennium BC, Celtic communities grew rich trading salt and salted meat to Ancient Greece and Ancient Rome in exchange for wine and other luxuries. The word salary originates from Latin: salarium which referred to the money paid to the Roman Army‘s soldiers for the purchase of salt. The word salad literally means “salted”, and comes from the ancient Roman practice of salting leaf vegetables.
Wars have been fought over salt. Venice fought and won a war with Genoa over the product, and it played an important part in the American Revolution. Cities on overland trade routes grew rich by levying duties, and towns like Liverpool flourished on the export of salt extracted from the salt mines of Cheshire. Various governments have at different times imposed salt taxes on their peoples. The voyages of Christopher Columbus are said to have been financed from salt production in southern Spain, and the oppressivesalt tax in France was one of the causes of the French Revolution. After being repealed, this tax was reimposed by Napoleon when he became emperor to pay for his foreign wars, and was not finally abolished until 1945. In 1930, Mahatma Gandhi led at least 100,000 people on the “Dandi March” or “Salt Satyagraha“, in which protesters made their own salt from the sea thus defying British rule and avoiding paying the salt tax. This civil disobedience inspired millions of common people, and elevated the Indian independence movement from an elitist movement to a national struggle.
SEM image of a grain of table salt
Salt is mostly sodium chloride, the ionic compound with the formula NaCl, representing equal proportions of sodium and chlorine. Sea salt and freshly mined salt (much of which is sea salt from prehistoric seas) also contain small amounts of trace elements (which in these small amounts are generally good for plant and animal health). Mined salt is often refined in the production of table salt; it is dissolved in water, purified via precipitation of other minerals out of solution, and re-evaporated. During this same refining process it is often also iodized. Salt crystals are translucent and cubic in shape; they normally appear white but impurities may give them a blue or purple tinge. The molar mass of salt is 58.443 g/mol, its melting point is 801 °C (1,474 °F) and its boiling point 1,465 °C (2,669 °F). Its density is 2.17 grams per cubic centimetre and it is readily soluble in water. When dissolved in water it separates into Na+ and Cl− ions and the solubility is 359 grams per litre. From cold solutions, salt crystallises as the dihydrate NaCl·2H2O. Solutions of sodium chloride have very different properties from those of pure water; the freezing point is −21.12 °C (−6.02 °F) for 23.31 wt% of salt, and the boiling point of saturated salt solution is around 108.7 °C (227.7 °F).
Salt is essential to the health of people and animals and is used universally as a seasoning. It is used in cooking, is added to manufactured foodstuffs and is often present on the table at mealtimes for individuals to sprinkle on their own food. Saltiness is one of thefive basic taste sensations.
In many cuisines around the world, salt is used in cooking, and is often found in salt shakers on diners’ eating tables for their personal use on food. Table salt is a refined salt containing about 97 to 99 percent sodium chloride. Usually, anticaking agents such as sodium aluminosilicate or magnesium carbonate are added to make it free-flowing. Iodized salt, containing potassium iodide, is widely available. Some people put adesiccant, such as a few grains of uncooked rice or a saltine cracker, in their salt shakers to absorb extra moisture and help break up salt clumps that may otherwise form.
Fortified table salt
Some table salt sold for consumption contain additives which address a variety of health concerns, especially in the developing world. The identities and amounts of additives vary widely from country to country. Iodine is an important micronutrient for humans, and a deficiency of the element can cause lowered production of thyroxine (hypothyroidism) and enlargement of the thyroid gland (endemic goitre) in adults or cretinism in children.Iodized salt has been used to correct these conditions since 1924 and consists of table salt mixed with a minute amount of potassium iodide, sodium iodide or sodium iodate. A small amount of dextrose may also be added to stabilize the iodine. Iodine deficiency affects about two billion people around the world and is the leading preventable cause of mental retardation. Iodized table salt has significantly reduced disorders of iodine deficiency in countries where it is used.
The amount of iodine and the specific iodine compound added to salt varies from country to country. In the United States, the Food and Drug Administration (FDA) recommends [21 CFR 101.9 (c)(8)(iv)] 150 micrograms of iodine per day for both men and women. US iodized salt contains 46–77 ppm (parts per million), whereas in the UK the iodine content of iodized salt is recommended to be 10–22 ppm.
Sodium ferrocyanide, also known as yellow prussiate of soda, is sometimes added to salt as an anticaking agent. The additive is considered safe for human consumption. Such anti-caking agents have been added since at least 1911 when magnesium carbonate was first added to salt to make it flow more freely. The safety of sodium ferrocyanide as a food additive was found to be provisionally acceptable by the Committee on Toxicity in 1988. Other anticaking agents sometimes used include tricalcium phosphate, calcium or magnesium carbonates, fatty acid salts (acid salts), magnesium oxide, silicon dioxide, calcium silicate, sodium aluminosilicate and calcium aluminosilicate. Both the European Union and the United States Food and Drug Administration permitted the use of aluminium in the latter two compounds.
In “doubly fortified salt”, both iodide and iron salts are added. The latter alleviates iron deficiency anaemia, which interferes with the mental development of an estimated 40% of infants in the developing world. A typical iron source is ferrous fumarate. Another additive, especially important for pregnant women, is folic acid (vitamin B9), which gives the table salt a yellow color. Folic acid helps prevent neural tube defects and anaemia, which affect young mothers, especially in developing countries.
A lack of fluorine in the diet is the cause of a greatly increased incidence of dental caries. Fluoride salts can be added to table salt with the goal of reducing tooth decay, especially in countries that have not benefited from fluoridated toothpastes and fluoridated water. The practice is more common in some European countries where water fluoridation is not carried out. In France, 35% of the table salt sold contains added sodium fluoride.
Irregular crystals of sea salt
Unrefined sea salt contains small amounts of magnesium and calcium halides and sulphates, traces of algal products, salt-resistant bacteria and sediment particles. The calcium and magnesium salts confer a faintly bitter overtone, and they make unrefined sea salt hygroscopic (i.e., it gradually absorbs moisture from air if stored uncovered). Algal products contribute a mildly “fishy” or “sea-air” odour, the latter from organobromine compounds. Sediments, the proportion of which varies with the source, give the salt a dull grey appearance. Since taste and aroma compounds are often detectable by humans in minute concentrations, sea salt may have a more complex flavor than pure sodium chloride when sprinkled on top of food. When salt is added during cooking however, these flavors would likely be overwhelmed by those of the food ingredients. The refined salt industry cites scientific studies saying that raw sea and rock salts do not contain enough iodine salts to prevent iodine deficiency diseases.
Different natural salts have different mineralities depending on their source, giving each one a unique flavour. Fleur de sel, a natural sea salt from the surface of evaporating brine in salt pans, has a unique flavour varying with the region from which it is produced. In traditional Korean cuisine, so-called “bamboo salt” is prepared by roasting salt in a bamboo container plugged with mud at both ends. This product absorbs minerals from the bamboo and the mud, and has been claimed to increase the anticlastogenic and antimutagenic properties of doenjang (a fermented bean paste).
Kosher salt, though refined, contains no iodine and has a much larger grain size than most refined salts. This can give it different properties when used in cooking, and can be useful for preparing kosher meat. Some kosher salt has been certified to meet kosher requirements by a hechsher, but this is not true for all products labelled as kosher salt.
Pickling salt is ultrafine to speed dissolving to make brine. Gourmet salts may be used for specific tastes.
Salt in food
Salt is present in most foods, but in naturally occurring foodstuffs such as meats, vegetables and fruit, it is present in very small quantities. It is often added to processed foods (such as canned foods and especially salted foods, pickled foods, and snack foods or other convenience foods), where it functions as both a preservative and a flavoring. Dairy salt is used in the preparation of butter and cheese products. Before the advent of electrically powered refrigeration, salting was one of the main methods of food preservation. Thus, herring contains 67 mg sodium per 100 g, while kipper, its preserved form, contains 990 mg. Similarly, pork typically contains 63 mg while bacon contains 1,480 mg, and potatoes contain 7 mg but potato crisps 800 mg per 100 g. The main sources of salt in the diet, apart from direct use of sodium chloride, are bread and cereal products, meat products and milk and dairy products.
In many East Asian cultures, salt is not traditionally used as a condiment. In its place, condiments such as soy sauce, fish sauce and oyster sauce tend to have a high sodium content and fill a similar role to table salt in western cultures. They are most often used for cooking rather than as table condiments.
Diet and health
Table salt is made up of just under 40% sodium by weight, so a 6 g serving (1 teaspoon) contains about 2,300 mg of sodium. Sodium serves a vital purpose in the human body: it helps nerves and muscles to function correctly, and it is one of the factors involved in the regulation of water content (fluid balance). Most of the sodium in the Western diet comes from salt. The habitual salt intake in many Western countries is about 10 g per day, and it is higher than that in many countries in Eastern Europe and Asia. The high level of sodium in many processed foods has a major impact on the total amount consumed. In the United States, 77% of the sodium eaten comes from processed and restaurant foods, 11% from cooking and table use and the rest from what is found naturally in foodstuffs.
Too much salt appears to be bad for health and health organizations generally recommend that people reduce their dietary intake of salt. High salt intake is associated with a greater risk of stroke and total cardiovascular disease (CVD). A reduction in sodium intake by 1,000 mg per day may reduce CVD disease by about 30 percent. In adults and children with no acute illness, a decrease in the intake of sodium from the typical high levels reduces blood pressure. A low salt diet results in a greater improvement in blood pressure in those with hypertension than in those without. However, the effects of recommending decreasing sodium intake are not entirely clear.
The World Health Organization recommends that all adults should consume less than 2,000 mg of sodium (which is contained in 5 g of salt) per day. Guidelines by the United States in 2010 recommend that people with hypertension, African Americans, and middle-aged and older adults should limit consumption to no more than 1,500 mg of sodium per day and meet the potassium recommendation of (4,700 mg/day) with a healthy diet of fruits and vegetables.
Whether greater reduction is beneficial is disputed. A 2013 review recommended no less than 1,200 mg of sodium (contained in 3 g of salt) per day. While a 2013 and 2015 review found insufficient evidence that lowering sodium intake to less than 2,300 mg per day is beneficial. In those with heart failure a very low sodium diet may be worse than a diet with slightly more salt. Others have also questioned the relation between salt-intake and CVD in the general population.
Cow and calf licking a mineral block
Only about 6% of the salt manufactured in the world is used in food. Of the remainder, 12% is used in water conditioning processes, 8% goes for de-icing highways and 6% is used in agriculture. The rest (68%) is used for manufacturing and other industrial processes, and sodium chloride is one of the largest inorganic raw materials used by volume. Its major chemical products are caustic soda and chlorine, which are separated by theelectrolysis of a pure brine solution. These are used in the manufacture of PVC, plastics, paper pulp and many other inorganic and organic compounds. Salt is also used as a flux in the production of aluminium. For this purpose, a layer of melted salt floats on top of the molten metal and removes iron and other metal contaminants. It is also used in the manufacture of soaps and glycerine, where it is added to the vat to precipitate out thesaponified products. As an emulsifier, salt is used in the manufacture of synthetic rubber, and another use is in the firing of pottery, when salt added to the furnace vaporises before condensing onto the surface of the ceramic material, forming a strong glaze.
When drilling through loose materials such as sand or gravel, salt may be added to the drilling fluid to provide a stable “wall” to prevent the hole collapsing. There are many other processes in which salt is involved. These include its use as a mordant in textile dying, to regenerate resins in water softening, for the tanning of hides, the preservation of meat and fish and the canning of meat and vegetables.
The manufacture of salt is one of the oldest chemical industries. A major source of salt is seawater, which has a salinity of approximately 3.5%. This means that there are about 35 grams (1.2 oz) of dissolved salts, predominantly sodium (Na+
) and chloride (Cl−
) ions, per kilogram (2.2 lbs) of water. The world’s oceans are a virtually inexhaustible source of salt, and this abundance of supply means that reserves have not been calculated. The evaporation of seawater is the production method of choice in marine countries with high evaporation and low precipitation rates. Salt evaporation ponds are filled from the ocean and salt crystals can be harvested as the water dries up. Sometimes these ponds have vivid colours, as some species of algae and other micro-organisms thrive in conditions of high salinity.
Elsewhere, salt is extracted from the vast sedimentary deposits which have been laid down over the millennia from the evaporation of seas and lakes. These are eithermined directly, producing rock salt, or are extracted in solution by pumping water into the deposit. In either case, the salt may be purified by mechanical evaporation of brine. Traditionally, this was done in shallow open pans which were heated to increase the rate of evaporation. More recently, the process is performed in pans undervacuum. The raw salt is refined to purify it and improve its storage and handling characteristics. This usually involves recrystallization during which a brine solution is treated with chemicals that precipitate most impurities (largely magnesium and calcium salts). Multiple stages of evaporation are then used to collect pure sodium chloride crystals, which are kiln-dried. Some salt is produced using the Alberger process, which involves vacuum pan evaporation combined with the seeding of the solution with cubic crystals, and produces a grainy-type flake. The Ayoreo, an indigenous group from the Paraguayan Chaco, obtain their salt from the ash produced by burning the timber of the Indian salt tree (Maytenus vitis-idaea) and other trees.
One of the largest salt mining operations in the world is at the Khewra Salt Mine in Pakistan. The mine has nineteen storeys, eleven of which are underground, and 400 km (250 mi) of passages. The salt is dug out by the room and pillar method, where about half the material is left in place to support the upper levels. Extraction of Himalayan salt is expected to last 350 years at the present rate of extraction of around 385,000 tons per annum.
In 2002, total world production (of sodium chloride in general, not just table salt) was estimated at 210 million tonnes, the top five producers being the United States (40.3 million tonnes), China (32.9), Germany (17.7), India (14.5) and Canada (12.3). During the period 2003 to 2008, global production of salt increased by 12% per year, and China took over as the largest producing nation as its chemical industry expanded. Food grade salt accounts for only a small part of salt production in industrialized countries (7% in Europe), although worldwide, food uses account for 17.5% of salt production.
Usage in religion
Salt has long held an important place in religion and culture. At the time of Brahmanic sacrifices, in Hittite rituals and during festivals held by Semites and Greeks at the time of the new moon, salt was thrown into a fire where it produced crackling noises. The ancient Egyptians, Greeks and Romans invoked their gods with offerings of salt and water and some people think this to be the origin of Holy Water in the Christian faith. In Aztecmythology, Huixtocihuatl was a fertility goddess who presided over salt and salt water.
In one of the hadiths recorded in Sunan Ibn Majah, the Islamic Prophet Muhammad is reported to have said that: “Salt is the master of your food. God sent down four blessings from the sky – fire, water, iron and salt”. Salt is considered to be a very auspicious substance in Hinduism and is used in particular religious ceremonies like house-warmings and weddings. In Jainism, devotees lay an offering of raw rice with a pinch of salt before a deity to signify their devotion and salt is sprinkled on a person’s cremated remains before the ashes are buried. Salt is believed to ward off evil spirits in Mahayana Buddhist tradition, and when returning home from a funeral, a pinch of salt is thrown over the left shoulder as this prevents evil spirits from entering the house. In Shinto, salt is used for ritual purification of locations and people (harae, specifically shubatsu), and small piles of salt are placed in dishes by the entrance of establishments for the two-fold purposes of warding off evil and attracting patrons.
In the Hebrew Bible, there are thirty-five verses which mention salt. One of these is the story of Lot‘s wife, who was turned into a pillar of salt when she looked back at the cities of Sodom and Gomorrah (Genesis 19:26) as they were destroyed. When the judge Abimelech destroyed the city of Shechem, he is said to have “sown salt on it,” probably as a curse on anyone who would re-inhabit it (Judges 9:45). The Book of Job contains the first mention of salt as a condiment. “Can that which is unsavoury be eaten without salt? or is there any taste in the white of an egg?” (Job 6:6). In the New Testament, six verses mention salt. In the Sermon on the Mount, Jesus referred to his followers as the “salt of the earth“. The apostle Paul also encouraged Christians to “let your conversation be always full of grace, seasoned with salt” (Colossians 4:6). Salt is mandatory in the rite of the Tridentine Mass. Salt is used in the third item (which includes an Exorcism) of the Celtic Consecration (cf. Gallican Rite) that is employed in the consecration of a church. Salt may be added to the water “where it is customary” in the Roman Catholic rite of Holy water.
In Judaism, it is recommended to have either a salty bread or to add salt to the bread if this bread is unsalted when doing Kiddush for Shabbat. It is customary to spread some salt over the bread or to dip the bread in a little salt when passing the bread around the table after the Kiddush. To preserve the covenant between their people and God, Jews dip the Sabbath bread in salt. In Wicca, salt is symbolic of the element Earth. It is also believed to cleanse an area of harmful or negative energies. A dish of salt and a dish of water are almost always present on an altar, and salt is used in a wide variety of rituals and ceremonies.
- ^ Jump up to:a b “6”. Scientific Report of the 2015 Dietary Guidelines Advisory Committee (PDF). USDA. 2015. p. 7.
- Jump up^ “WHO issues new guidance on dietary salt and potassium”.WHO. 31 January 2013.
- Jump up^ LA Times
Bulgarians find oldest European town, a salt production center
- Jump up^ Weller, Brigand & Nuninger 2008, pp. 225-230.
- ^ Jump up to:a b c Buss, David; Robertson, Jean (1973). Manual of Nutrition. Her Majesty’s Stationery Office. pp. 37–38. ISBN 0112411126.
- ^ Jump up to:a b Wood, Frank Osborne. “Salt (NaCl)”. Encyclopædia Britannica online. Retrieved 9 October 2013.
- Jump up^ Suitt, Chris. “Covenant of salt”. Rediscovering the Old Testament. Seed of Abraham Ministries. Retrieved 12 October2013.
- Jump up^ Gevirtz, Stanley (1963). “Jericho and Shechem: A Religio-Literary Aspect of City Destruction”. Vetus Testamentum 13 (1): 52–62. doi:10.2307/1516752. JSTOR 1516752.
- Jump up^ Ripley, George; Dana, Charles Anderson (1863). The New American Cyclopædia: a Popular Dictionary of General Knowledge 4. p. 497.
- Jump up^ Golbas, Alper; Basobuyuk, Zeynel (2012). “The role of salt in the formation of the Anatolian culture”. Batman University: Journal of Life Sciences 1 (1): 45–54.
- Jump up^ “A brief history of salt”. Time Magazine. 15 March 1982. Retrieved 11 October 2013.
- Jump up^ Paolinelli, Franco. “Tuareg Salt Caravans of Niger, Africa”. Bradshaw Foundation. Retrieved 11 October 2013.
- Jump up^ Lopez, Billie Ann. “Hallstatt’s White Gold: Salt”. Virtual Vienna Net. Retrieved 3 March 2013.
- Jump up^ See, for example, the following dictionary entries:
- ^ Jump up to:a b Cowen, Richard (1 May 1999). “The Importance of Salt”. Retrieved 15 October 2013.
- Jump up^ Smith, Mike (2003). “Salt”. Goods & Not So Goods: Lineside Industries. Retrieved 15 October 2013.
- Jump up^ Wood, Frank Osborne; Ralston, Robert H. “Salt (NaCl)”.Encyclopædia Britannica. Retrieved 16 October 2013.
- Jump up^ Elvers, B. et al. (ed.) (1991) Ullmann’s Encyclopedia of Industrial Chemistry, 5th ed. Vol. A24, Wiley, p. 319, ISBN 978-3-527-20124-2.
- Jump up^ “The sense of taste”. 16 March 2013. Retrieved 16 October2013.
- Jump up^ “Tesco Table Salt 750g”. Tesco. Retrieved 5 December2010.
Nutritional analysis provided with Tesco Table Salt states 38.9 percent sodium by weight which equals 97.3 percent sodium chloride
- Jump up^ Table Salt. Wasalt.com.au. Retrieved 7 July 2011.
- Jump up^ The international Codex Alimentarius Standard for Food Grade Salt. (PDF). Retrieved 7 July 2011.
- Jump up^ “Rice in Salt Shakers”. Ask a Scientist. Retrieved 29 July2008.
- Jump up^ “Food Freshness”. KOMO News. Retrieved 8 July 2011.
- Jump up^ “Canning and Pickling salt”. Penn State University.;“FAQs”. Morton Salt.
- Jump up^ McNeil, Donald G. Jr (16 December 2006). “In Raising the World’s I.Q., the Secret’s in the Salt”. The New York Times. Retrieved 4 December 2008.
- Jump up^ “Iodized salt”. Salt Institute. 2009. Retrieved 5 December2010.
- Jump up^ “Discussion Paper on the setting of maximum and minimum amounts for vitamins and minerals in foodstuffs” (PDF). Directorate-General Health & Consumers. Retrieved 5 December2010.
- ^ Jump up to:a b Discussions of the safety of sodium hexaferrocyanate in table salt. Hansard.millbanksystems.com (5 May 1993). Retrieved 7 July 2011.
- Jump up^ “Morton Salt FAQ”. Retrieved 12 May 2007.
- Jump up^ Burgess, Wilella Daniels; Mason, April C. “What Are All Those Chemicals in My Food?”. School of Consumer and Family Sciences, Purdue University. Retrieved 27 February 2011.
- Jump up^ “References on food salt & health issues”. Salt Institute. 2009. Retrieved 5 December 2010.
- Jump up^ “Kosher Salt Guide”. SaltWorks. 2010.
- Jump up^ Pieters, A.J.; Flint, D.; Garriott, E.B.; Wickson, E.J.; Lamson-Scribner, F.; Brackett, G.B.; Atwater, H.W.; Alvord, H.E.; Withcombe, J.; Howard, L.O. (1899). Experiment Station Work. Bread and the Principles of Bread Making. U.S. Department of Agriculture. pp. 28–30. Retrieved November 17,2015.
- Jump up^ “The Salt of Southeast Asia”. The Seattle Times. 2001. Retrieved 7 July 2011.
- Jump up^ “Asian diet”. Diet.com. Retrieved 7 July 2013.
- Jump up^ “National Nutrient Database for Standard Reference, Basic Report: 02047, Salt, table”. Agricultural Research Service, National Nutrient Database for Standard Reference, Release 27. United States Department of Agriculture. Retrieved 8 January2015.
- Jump up^ “Dietary sodium”. MedLinePlus. Retrieved 17 October 2013.
- Jump up^ “Most Americans should consume less sodium”. Salt. Centers for Disease Control and Prevention. Retrieved 17 October 2013.
- ^ Jump up to:a b Strazzullo, Pasquale; D’Elia, Lanfranco; Kandala, Ngianga-Bakwin; Cappuccio, Francesco P. (2009). “Salt intake, stroke, and cardiovascular disease: meta-analysis of prospective studies”. British Medical Journal 339 (b4567).doi:10.1136/bmj.b4567. PMC 2782060. PMID 19934192.
- Jump up^ “Prevention of cardiovascular disease”. National Institute for Health and Clinical Excellence. 1 June 2010. Retrieved 5 May2015.
- Jump up^ “Sodium and food sources”. Salt. Centers for Disease Control and Prevention. Retrieved 17 October 2013.
- ^ Jump up to:a b c He, FJ; Li, J; Macgregor, GA (3 April 2013). “Effect of longer term modest salt reduction on blood pressure: Cochrane systematic review and meta-analysis of randomised trials.”. BMJ (Clinical research ed.) 346: f1325. doi:10.1136/bmj.f1325.PMID 23558162.
- ^ Jump up to:a b “WHO issues new guidance on dietary salt and potassium”. World Health Organization. 31 January 2013. Retrieved 17 October 2013.
- ^ Jump up to:a b Strom, Brian L.; Yaktine, Ann L.; Oria, Maria, eds. (2013).“Sodium intake in populations: assessment of evidence”. Institute of Medicine of the National Academies. Retrieved17 October 2013.
- Jump up^ =Aburto, Nancy J.; Ziolkovska, Anna; Hooper, Lee; et al. (2013). “Effect of lower sodium intake on health: systematic review and meta-analyses”. British Medical Journal 346 (f1326).doi:10.1136/bmj.f1326.
- Jump up^ Graudal, NA; Hubeck-Graudal, T; Jurgens, G (9 November 2011). “Effects of low sodium diet versus high sodium diet on blood pressure, renin, aldosterone, catecholamines, cholesterol, and triglyceride.”. The Cochrane database of systematic reviews(11): CD004022. doi:10.1002/14651858.CD004022.pub3.PMID 22071811.
- Jump up^ Adler, AJ; Taylor, F; Martin, N; Gottlieb, S; Taylor, RS; Ebrahim, S (18 December 2014). “Reduced dietary salt for the prevention of cardiovascular disease.”. The Cochrane database of systematic reviews 12: CD009217.doi:10.1002/14651858.CD009217.pub3. PMID 25519688.
Despite collating more event data than previous systematic reviews of randomised controlled trials, there is insufficient power to confirm clinically important effects of dietary advice and salt substitution on CVD mortality in normotensive or hypertensive populations.
- Jump up^ Dietary Guidelines for Americans, 2010 (PDF). U.S. Department of Agriculture and the U.S. Department of Health and Human Services. 2010. p. 24. Retrieved April 29, 2015.
African Americans, individuals with hypertension, diabetes, or chronic kidney disease and individuals ages 51 and older, comprise about half of the U.S. population ages 2 and older. While nearly everyone benefits from reducing their sodium intake, the blood pressure of these individuals tends to be even more responsive to the blood pressure-raising effects of sodium than others; therefore, they should reduce their intake to 1,500 mg per day.
- Jump up^ Taylor, RS; Ashton, KE; Moxham, T; et al. (6 July 2011). “Reduced dietary salt for the prevention of cardiovascular disease.”. The Cochrane database of systematic reviews (7): CD009217. doi:10.1002/14651858.CD009217.PMID 21735439.
- Jump up^ Stolarz-Skrzypek, K; Staessen, JA (March 2015). “Reducing salt intake for prevention of cardiovascular disease–times are changing.”. Advances in chronic kidney disease 22 (2): 108–15.doi:10.1053/j.ackd.2014.12.002. PMID 25704347.
- Jump up^ “The many uses of salt”. Maldon Salt Company. Retrieved10 October 2013.
- ^ Jump up to:a b “Salt uses”. WA Salt Group. Retrieved 10 October 2013.
- ^ Jump up to:a b c “Sodium chloride”. IHS Chemical. 1 December 2008. Retrieved 12 March 2013.
- Jump up^ “Salt made the world go round”. Salt.org.il. 1 September 1997. Retrieved 7 July 2011.
- Jump up^ “Salt Ponds, South San Francisco Bay”. NASA Visible Earth. NASA. Retrieved 5 May 2015.
- Jump up^ About salt: Production. The Salt Manufacturers Association
- Jump up^ “Alberger process”. Manufacture of salt: Uses of artificial heat. Encyclopædia Britannica online. Retrieved 9 October 2013.
- Jump up^ Pennington, Matthew (25 January 2005). “Pakistan salt mined old-fashioned way mine”. The Seattle Times. Retrieved11 October 2013.
- Jump up^ “Salt Uses”. European Salt Producers’ Association. Retrieved5 May 2015.
- Jump up^ “Roskill Information Services”. Roskill.com. 30 March 2011. Retrieved 7 July 2011.
- Jump up^ “Research article: Salt”. Encyclopedia of Religion. Retrieved13 October 2013.
- ^ Jump up to:a b “10+1 Things you may not know about Salt”. Epikouria. Fall/Winter (3). 2006.
- Jump up^ Quipoloa, J. (2007). “The Aztec Festivals: Toxcatl (Dryness)”. The Aztec Gateway. Retrieved 18 March 2013.
- ^ Jump up to:a b Gray, Steven (7 December 2010). “What Lies Beneath”.Time Magazine. Retrieved 13 March 2013.
- Jump up^ “The Final Journey: What to do when your loved one passes away”. Retrieved 12 March 2013.
- Jump up^ “Religion: Chasing away evil spirits”. History of salt. Cagill. Retrieved 13 October 2013.
- Jump up^ Can you pass the salt, please?, Robert Camara, 30 March 2009
- ^ Jump up to:a b c “Dictionary and Word Search for ‘”salt”‘ in the KJV”.Blue Letter Bible. Sowing Circle. 1996–2013. Retrieved 13 March2013.
- ^ Jump up to:a b Wikisource:Catholic Encyclopedia (1913)/Salt
- Jump up^ Naftali Silberberg Why is the Challah dipped in salt before it is eaten?, Chabad.org
- Jump up^ Cunningham, Scott (1989). Wicca: A Guide for the Solitary Practitioner. Llewellyn Worldwide. pp. 60, 63, 104, 113.ISBN 9780875421186.
- Barber, Elizabeth Wayland (1999). The Mummies of Ürümchi. New York: W.W. Norton & Co. ISBN 0-393-32019-7. OCLC 48426519.
- Carusi, Cristina (2008). Il sale nel mondo greco, VI a.C.-III d.C.: luoghi di produzione, circolazione commerciale, regimi di sfruttamento nel contesto del Mediterraneo antico [Salt in the Greek World, from the Sixth Century BC to the Third Century AD: Places of Production, Circulation, and Commercial Exploitation Schemes in the Ancient Mediterranean] (in Spanish). Edipuglia. ISBN 9788872285428.
- Dalton, Dennis (1996). “Introduction to Civil Disobedience“. Mahatma Gandhi: Selected Political Writings. Hackett Publishing Company. pp. 71–73. ISBN 0-87220-330-1.
- Kurlansky, Mark (2002). Salt: A World History. New York: Walker & Co. ISBN 0-8027-1373-4. OCLC 48573453.
- Livingston, James V. (2005). Agriculture and soil pollution: new research. Nova Publishers. ISBN 1-59454-310-0.
- McGee, Harold (2004). On Food and Cooking (2nd ed.). Scribner. ISBN 9781416556374.
- Multhauf, Robert (1996). Neptune’s Gift. The Johns Hopkins University Press. ISBN 978-0801854699.
- Shahidi, Fereidoon; Shi, John; Ho, Chi-Tang (2005). Asian functional foods. Boca Raton: CRC Press. ISBN 0-8247-5855-2.
- Other publications
- Caldwell, J. H.; Schaller, K. L.; Lasher, R. S.; Peles, E.; Levinson, S. R. (2000). “Sodium channel Nav1.6 is localized at nodes of Ranvier, dendrites, and synapses”. Proceedings of the National Academy of Sciences 97 (10): 5616–20.doi:10.1073/pnas.090034797. PMC 25877. PMID 10779552.
- Dumler, F. (2009). “Dietary Sodium Intake and Arterial Blood Pressure”. Journal of Renal Nutrition 19 (1): 57–60.doi:10.1053/j.jrn.2008.10.006. PMID 19121772.
- Feldman, S. R. (2005). “Sodium Chloride”. Kirk-Othmer Encyclopedia of Chemical Technology.doi:10.1002/0471238961.1915040902051820.a01.pub2.ISBN 0471238961.
- Kostick, Dennis S. (1 November 2011). “Salt” (PDF). 2010 Minerals Yearbook. U.S. Geological Survey. Retrieved 12 March2013.
- Markel, H. (1987). “”When it rains it pours”: Endemic goiter, iodized salt, and David Murray Cowie, MD”. American Journal of Public Health 77 (2): 219–229. doi:10.2105/AJPH.77.2.219.PMC 1646845. PMID 3541654.
- McCarron, D. A.; Geerling, J. C.; Kazaks, A. G.; Stern, J. S. (2009). “Can Dietary Sodium Intake Be Modified by Public Policy?”. Clinical Journal of the American Society of Nephrology 4 (11): 1878–1882.doi:10.2215/CJN.04660709. PMID 19833911.
- Millero, F. J.; Feistel, R.; Wright, D. G.; McDougall, T. J. (2008). “The composition of Standard Seawater and the definition of the Reference-Composition Salinity Scale”. Deep Sea Research Part I: Oceanographic Research Papers 55: 50–72.doi:10.1016/j.dsr.2007.10.001.
- Potassium- and sodium ferrocyanides (PDF) (Technical report). European Commission: Scientific Committee on Animal Nutrition. 3 December 2001.
- Schmeda-Hirschmann, G. (1994). “Tree ash as an Ayoreo salt source in the Paraguayan Chaco”. Economic Botany 48 (2): 159–162. doi:10.1007/BF02908207.
- Selwitz, R. H.; Ismail, A. I.; Pitts, N. B. (2007). “Dental caries”. The Lancet 369 (9555): 51–9. doi:10.1016/S0140-6736(07)60031-2.PMID 17208642.
- Strazzullo, P.; d’Elia, L.; Kandala, N. -B.; Cappuccio, F. P. (2009).“Salt intake, stroke, and cardiovascular disease: Meta-analysis of prospective studies”. BMJ 339: b4567. doi:10.1136/bmj.b4567.PMC 2782060. PMID 19934192.
- Vaidya, B.; Chakera; Pearce (2011). “Treatment for primary hypothyroidism: Current approaches and future possibilities”. Drug Design, Development and Therapy 6: 1–11.doi:10.2147/DDDT.S12894. PMC 3267517. PMID 22291465.
- Weller, Olivier; Dumitroaia, Gheorghe (December 2005). “The earliest salt production in the world: an early Neolithic exploitation in Poiana Slatinei-Lunca, Romania”. Antiquity 79 (306).
- Weller, Olivier; Brigand, Robin; Nuninger, Laure (2008). Spatial Analysis of Salt Springs Exploration in Moldavian Pre-Carpatic Prehistory (Romania) (PDF). Spatial dynamics of settlement and natural ressources: toward an integrated analysis over the long term from Prehistory to Middle Ages. University of Burgundy, Dijon, 23–25 June. ArchæDyn.
- Westphal, G.; Kristen, G.; Wegener, W.; Ambatiello, P.; Geyer, H.; Epron, B.; Bonal, C.; Steinhauser, G.; Götzfried, F. (2010). “Sodium Chloride”. Ullmann’s Encyclopedia of Industrial Chemistry.doi:10.1002/14356007.a24_317.pub4. ISBN 3527306730.