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Sunday, May 7, 2023

Beekeeping

From Wikipedia, the free encyclopedia
 
Beekeeping, tacuinum sanitatis casanatensis (14th century)

Beekeeping (or apiculture) is the maintenance of bee colonies, commonly in man-made beehives. Honey bees in the genus Apis are the most commonly kept species but other honey producing bees such as Melipona stingless bees are also kept. Beekeepers (or apiarists) keep bees to collect honey and other products of the hive: beeswax, propolis, bee pollen, and royal jelly. Pollination of crops, raising queens, and production of package bees for sale are other sources of beekeeping income. Bee hives are kept in an apiary or "bee yard".

The keeping of bees by humans, primarily for honey production, began around 10,000 years ago. Georgia is known as the "cradle of beekeeping" and the oldest honey ever found comes from that country. The 5,500-year-old honey was unearthed from the grave of a noblewoman during archaeological excavations in 2003 near the town Borjomi. Ceramic jars found in the grave contained several types of honey, including linden and flower honey. Domestication of bees can be seen in Egyptian art from around 4,500 years ago; there is also evidence of beekeeping in ancient China, Greece, and Maya.

In the modern era, beekeeping is often used for crop pollination and the production of other products, such as wax and propolis. The largest beekeeping operations are agricultural businesses but many small beekeeping operations are run as a hobby. As beekeeping technology has advanced, beekeeping has become more accessible, and urban beekeeping was described as a growing trend as of 2010. Some studies have found city-kept bees are healthier than those in rural settings because there are fewer pesticides and greater biodiversity in cities.

History

Honey seeker depicted on 8,000-year-old cave painting near Valencia, Spain
 

Early history

At least 10,000 years ago, humans began to attempt to maintain colonies of wild bees in artificial hives made from hollow logs, wooden boxes, pottery vessels, and woven straw baskets known as skeps. Depictions of humans collecting honey from wild bees date to 10,000 years ago. Beekeeping in pottery vessels began about 9,000 years ago in North Africa. Traces of beeswax have been found in potsherds throughout the Middle East beginning about 7,000 BCE. Domestication of bees is shown in Egyptian art from around 4,500 years ago. Simple hives and smoke were used, and honey was stored in jars, some of which were found in the tombs of pharaohs such as Tutankhamun. In the 18th century, European understanding of the colonies and biology of bees allowed the construction of the movable comb hive so honey could be harvested without destroying the entire colony.

Honeybees were kept in Egypt from antiquity. On the walls of the sun temple of Nyuserre Ini from the Fifth Dynasty before 2,422 BCE, workers are depicted blowing smoke into hives as they remove honeycombs. Inscriptions detailing the production of honey are found on the tomb of Pabasa from the Twenty-sixth Dynasty c. 650 BCE, in which cylindrical hives are depicted along with people pouring honey into jars.

An inscription records the introduction of honey bees into the land of Suhum in Mesopotamia, where they were previously unknown:

I am Shamash-resh-ușur, the governor of Suhu and the land of Mari. Bees that collect honey, which none of my ancestors had ever seen or brought into the land of Suhu, I brought down from the mountain of the men of Habha, and made them settle in the orchards of the town 'Gabbari-built-it'. They collect honey and wax, and I know how to melt the honey and wax – and the gardeners know too. Whoever comes in the future, may he ask the old men of the town, (who will say) thus: "They are the buildings of Shamash-resh-ușur, the governor of Suhu, who introduced honey bees into the land of Suhu".

— translated text from Stele, (Dalley, 2002)

The oldest archaeological finds directly relating to beekeeping have been discovered at Rehov, a Bronze and Iron Age archaeological site in the Jordan Valley, Israel. Thirty intact hives made of straw and unbaked clay were discovered in the ruins of the city, dating from about 900 BCE, by archaeologist Amihai Mazar. The hives were found in orderly rows, three high, in a manner that according to Mazar could have accommodated around 100 hives, held more than one million bees and had a potential annual yield of 500 kilograms (1,100 lb) of honey and 70 kilograms (150 lb) of beeswax, and are evidence an advanced honey industry in Tel Rehov, Israel 3,000 years ago.

The Beekeepers, 1568, by Pieter Bruegel the Elder

In ancient Greece, in Crete and Mycenae, there existed a system of high-status apiculture that is evidenced by the finds of hives, smoking pots, honey extractors and other beekeeping paraphernalia in Knossos. Beekeeping was considered a highly valued industry controlled by beekeeping overseers—owners of gold rings depicting apiculture scenes rather than religious ones as they have been reinterpreted recently, contra Sir Arthur Evans. Aspects of the lives of bees and beekeeping are discussed at length by Aristotle. Beekeeping was also documented by the Roman writers Virgil, Gaius Julius Hyginus, Varro, and Columella.

Beekeeping has been practiced in ancient China since antiquity. In a book written by Fan Li (or Tao Zhu Gong) during the Spring and Autumn period are sections describing beekeeping, stressing the importance of the quality of the wooden box used and its effects on the quality of the honey. The Chinese word for honey ( , reconstructed Old Chinese pronunciation *mjit) was borrowed from proto-Tocharian *ḿət(ə) (where *ḿ is palatalized; cf. Tocharian B mit), cognate with English mead.

The ancient Maya domesticated a species of stingless bee, which they used for several purposes, including making balché, a mead-like alcoholic drink. By 300 BCE they had achieved the highest levels of stingless beekeeping practices in the world. The use of stingless bees is referred to as meliponiculture, which is named after bees of the tribe Meliponini such as Melipona quadrifasciata in Brazil. This variation of beekeeping still occurs today. For instance, in Australia, the stingless bee Tetragonula carbonaria is kept for the production of honey.

Scientific study of honey bees

European natural philosophers began to scientifically study bee colonies in the 18th century. Eminent among these scientists were Swammerdam, René Antoine Ferchault de Réaumur, Charles Bonnet and François Huber. Swammerdam and Réaumur were among the first to use a microscope and dissection to understand the internal biology of honey bees. Réaumur was among the first to construct a glass-walled observation hive to better observe activities inside hives. He observed queens laying eggs in open cells but did not know how queens were fertilized; the mating of a queen and drone had not yet been observed and many theories held queens were "self-fertile" while others believed a vapor or "miasma" emanating from the drones fertilized queens without physical contact. Huber was the first to prove by observation and experiment that drones physically inseminate queens outside the confines of the hive, usually a great distance away.

Following Réaumur's design, Huber built improved glass-walled observation hives and sectional hives that could be opened like the leaves of a book. This allowed the inspection of individual wax combs and greatly improved direct observation of hive activity. Although he went blind before he was twenty, Huber employed a secretary named François Burnens to make daily observations, conduct experiments, and keep accurate notes for more than twenty years. Huber confirmed a hive consists of one queen, who is the mother of every female worker and male drone in the colony. He was also the first to confirm mating with drones takes place outside hives and that queens are inseminated in successive matings with male drones, which occur high in the air at a great distance from the hive. Together, Huber and Burnens dissected bees under the microscope, and were among the first to describe the ovaries and spermatheca (sperm store) of queens, as well as the penis of male drones. Huber is regarded as "the father of modern bee-science" and his work Nouvelles Observations sur Les Abeilles (New Observations on Bees) revealed all of the basic scientific facts of the biology and ecology of honeybees.

Hive designs

Before the invention of the movable comb hive, the harvesting of honey frequently resulted in the destruction of the whole colony. The wild hive was broken into using smoke to quiet the bees. The honeycombs were pulled out and either immediately eaten whole or crushed, along with the eggs, larvae, and honey they held. A sieve or basket was used to separate the liquid honey from the demolished brood nest. In medieval times in northern Europe, although skeps and other containers were made to house bees, the honey and wax were still extracted after the bee colony was killed. It was impossible to replace old, dark-brown brood comb in which larval bees are constricted by layers of shed pupal skins.

The movable frames of modern hives are considered to have been developed from the traditional basket top bar (movable comb) hives of Greece, which allowed the beekeeper to avoid killing the bees. The oldest evidence of their use dates to 1669, although it is probable their use is more than 3,000 years old.

A beekeeper inspecting a hive frame from a Langstroth hive.

Intermediate stages in the transition from older methods of beekeeping were recorded in 1768 by Thomas Wildman, who described advances over the destructive, skep-based method so bees no longer had to be killed to harvest their honey. Wildman fixed an array of parallel wooden bars across the top of a straw hive 10 inches (25 cm) in diameter "so that there are in all seven bars of deal to which the bees fix their combs", foreshadowing future uses of movable-comb hives. He also described using such hives in a multi-story configuration, foreshadowing the modern use of supers: he added successive straw hives below and later removed the ones above when free of brood and filled with honey so the bees could be separately preserved at the harvest the following season. Wildman also described the use of hives with "sliding frames" in which the bees would build their comb.

Wildman's book acknowledges the advances in knowledge of bees made by Swammerdam, Maraldi, and de Réaumur—he includes a lengthy translation of Réaumur's account of the natural history of bees. Wildman also describes the initiatives of others in designing hives for the preservation of bees when taking the harvest, citing reports from Brittany in the 1750s due to the Comte de la Bourdonnaye. Another hive design was invented by Rev. John Thorley in 1744; the hive was placed in a bell jar that was screwed onto a wicker basket. The bees were free to move from the basket to the jar, and honey was produced and stored in the jar. The hive was designed to keep the bees from swarming as much as they would have in other hive designs.

In the 19th century, changes in beekeeping practice were completed through the development of the movable comb hive by the American Lorenzo Lorraine Langstroth, who was the first person to make practical use of Huber's earlier discovery of a specific spatial distance between the wax combs, later called the bee space, which bees do not block with wax but keep as a free passage. Having determined this bee space, which is commonly given as between 6 and 9 mm (0.24 and 0.35 in), though up to 15 mm (0.59 in) has been found in populations in Ethiopia. Langstroth then designed a series of wooden frames within a rectangular hive box, carefully maintaining the correct space between successive frames. He found the bees would build parallel honeycombs in the box without bonding them to each other or to the hive walls. This enables the beekeeper to slide any frame out of the hive for inspection without harming the bees or the comb; and protecting the eggs, larvae and pupae in the cells. It also meant combs containing honey could be gently removed and the honey extracted without destroying the comb. The emptied honeycombs could then be returned intact to the bees for refilling. Langstroth's book The Hive and Honey-bee (1853), describes his rediscovery of the bee space and the development of his patent movable comb hive. The invention and development of the movable comb hive enabled the growth of large-scale, commercial honey production in both Europe and the U.S.

20th and 21st century hive designs

Langstroth's design of movable comb hives was adopted by apiarists and inventors in both North America and Europe, and a wide range of moveable comb hives were developed in England, France, Germany and the United States. Classic designs evolved in each country; Dadant hives and Langstroth hives are still dominant in the U.S.; in France the De-Layens trough hive became popular, in the UK a British National hive became standard by the 1930s, although in Scotland the smaller Smith hive is still popular. In some Scandinavian countries and in Russia, the traditional trough hive persisted until late in the 20th century and is still kept in some areas. The Langstroth and Dadant designs, however, remain ubiquitous in the U.S. and in many parts of Europe, though Sweden, Denmark, Germany, France and Italy all have their own national hive designs. Regional variations of hive were developed according to climate, floral productivity and reproductive characteristics of the subspecies of native honey bees in each bio-region.

Honey-laden honeycomb in a wooden frame

The differences in hive dimensions are insignificant in comparison to the common factors in these hives: they are all square or rectangular; they all use movable wooden frames; and they all consist of a floor, brood-box, honey super, crown-board and roof. Hives have traditionally been constructed from cedar, pine or cypress wood but in recent years, hives made from injection-molded, dense polystyrene have become increasingly common. Hives also use queen excluders between the brood-box and honey supers to keep the queen from laying eggs in cells next to those containing honey intended for consumption. With the 20th-century advent of mite pests, hive floors are often replaced, either temporarily or permanently, with a wire mesh and a removable tray.

Western honey bee on a honeycomb

In 2015, the Flow Hive system was invented in Australia by Cedar Anderson and his father Stuart Anderson, whose design allows honey to be extracted without cumbersome centrifuge equipment.

Pioneers of practical and commercial beekeeping

In the 19th century, improvements were made in the design and production of beehives, systems of management and husbandry, stock improvement by selective breeding, honey extraction and marketing. Notable innovators of modern beekeeping include:

Prokopovych's beehive system

Petro Prokopovych used frames with channels in the side of the woodwork; these were packed side-by-side in stacked boxes. Bees traveled between frames and boxes via these channels, which were similar to the cutouts in the sides of modern wooden sections.

Jan Dzierżon' beehive design has influenced modern beehives.

François Huber made significant discoveries about the bee life cycle and communication between bees. Despite being blind, Huber discovered a large amount of information about the queen bee's mating habits and her contact with the rest of the hive. His work was published as New Observations on the Natural History of Bees.

L. L. Langstroth has influenced modern beekeeping practice more than anyone else. His book The Hive and Honey-bee was published in 1853.

Moses Quinby, author of Mysteries of Bee-Keeping Explained, invented the bee smoker in 1873.

Amos Root, author of the A B C of Bee Culture, which has been continuously revised and remains in print, pioneered the manufacture of hives and the distribution of bee packages in the United States.

A. J. Cook author of The Bee-Keepers' Guide; or Manual of the Apiary, 1876.

Dr. C.C. Miller was one of the first entrepreneurs to make a living from apiculture. By 1878, he made beekeeping his sole business activity. His book, Fifty Years Among the Bees, remains a classic and his influence on bee management persists into the 21st century.

Honey Extractor

Franz Hruschka was an Austrian/Italian military officer who in 1865 invented a simple machine for extracting honey from the comb by means of centrifugal force. His original idea was to support combs in a metal framework and then spin them within a container to collect honey that was thrown out by centrifugal force. This meant honeycombs could be returned to a hive empty and undamaged, saving the bees a vast amount of work, time and materials. This invention significantly improved the efficiency of honey harvesting and catalyzed the modern honey industry.

Walter T. Kelley was an American pioneer of modern beekeeping in the early-and mid-20th century. He greatly improved upon beekeeping equipment and clothing, and went on to manufacture these items and other equipment. His company sold products worldwide and his book How to Keep Bees & Sell Honey, encouraged a boom in beekeeping following World War II.

In the UK, practical beekeeping was led in the early 20th century by a few men, pre-eminently Brother Adam and his Buckfast bee, and R.O.B. Manley, author of books including Honey Production in the British Isles and inventor of the Manley frame, which is still universally popular in the UK. Other notable British pioneers include William Herrod-Hempsall and Gale.

Ahmed Zaky Abushady (1892–1955) was an Egyptian poet, medical doctor, bacteriologist, and bee scientist, who was active in England and Egypt in the early twentieth century. In 1919, Abushady patented a removable, standardized aluminum honeycomb. In the same year, he founded The Apis Club in Benson, Oxfordshire, which later became the International Bee Research Association (IBRA). In Egypt in the 1930s, Abushady established The Bee Kingdom League and its organ The Bee Kingdom.

Hives and other equipment

Horizontal hives

Modern top bar hive

A Horizontal top-bar hive is a single-story, frameless beehive in which the comb hangs from removable bars that form a continuous roof over the comb, whereas the frames in most current hives allow space for bees to move between boxes. Hives that have frames or that use honey chambers in summer and use management principles similar to those of regular top-bar hives are sometimes also referred to as top-bar hives. Top-bar hives are rectangular and are typically more than twice as wide as multi-story framed hives commonly found in English-speaking countries. Top-bar hives usually include one box and allow for beekeeping methods that interfere very little with the colony. While conventional advice often recommends inspecting each colony each week during the warmer months, some beekeepers fully inspect top-bar hives only once a year, and only one comb needs to be lifted at a time.

Vertical stackable hives

There are three types of vertical stackable hives: hanging or top-access frame, sliding or side-access frame, and top bar.

Hanging-frame hive designs include Langstroth, the British National, Dadant, Layens, and Rose, which differ in size and number of frames. The Langstroth was the first successful top-opened hive with movable frames. Many other hive designs are based on the principle of bee space that was first described by Langstroth, and is a descendant of Jan Dzierzon's Polish hive designs. Langstroth hives are the most-common size in the United States and much of the world; the British National is the most common size in the United Kingdom; Dadant and Modified Dadant hives are widely used in France and Italy, and Layens by some beekeepers, where their large size is an advantage. Square Dadant hives–often called 12-frame Dadant or Brother Adam hives–are used in large parts of Germany and other parts of Europe by commercial beekeepers.

Any hanging-frame hive design can be built as a sliding frame design. The AZ Hive, the original sliding frame design, integrates hives using Langstroth-sized frames into a honey house to streamline the workflow of honey harvest by localization of labor, similar to cellular manufacturing. The honey house can be a portable trailer, allowing the beekeeper to move hives to a site and provide pollination services.

Top-bar stackable hives use top bars instead of full frames. The most common type is the Warre hive, although any hive with hanging frames can be converted into a top-bar stackable hive by using only the top bar rather than the whole frame. This may work less well with larger frames, where crosscomb and attachment can occur more readily.

Protective clothing

Beekeepers often wear protective clothing to protect themselves from stings

Most beekeepers wear some protective clothing. Novice beekeepers usually wear gloves and a hooded suit or hat and veil. Experienced beekeepers sometimes chose not to use gloves because they inhibit delicate manipulations. The face and neck are the most important areas to protect, so most beekeepers wear at least a veil. Defensive bees are attracted to the breath; a sting on the face can lead to much more pain and swelling than a sting elsewhere, while a sting on a bare hand can usually be quickly removed by fingernail scrape to reduce the amount of venom injected.

Traditionally, beekeeping clothing is pale-colored because of the natural color of cotton and the cost of coloring is an expense not warranted for workwear, though some consider this is to provide better differentiation from the colony's natural predators such as bears and skunks, which tend to be dark-colored. It is now known bees see in ultraviolet wavelengths and are also attracted to scent. The type of fabric conditioner used has more impact than the color of the fabric.

Stings that are retained in clothing fabric continue to pump out an alarm pheromone that attracts aggressive action and further stinging attacks. Attraction can be minimized with regular washing.

Smoker

Bee smoker with heat shield and hook

Most beekeepers use a smoker, a device that generates smoke from the incomplete combustion of fuels. Although the exact mechanism is disputed, it is said smoke calms bees. Some claim it initiates a feeding response in anticipation of possible hive abandonment due to fire. It is also thought smoke masks alarm pheromones released by guard bees or bees that are squashed in an inspection. The ensuing confusion creates an opportunity for the beekeeper to open the hive and work without triggering a defensive reaction.

Many types of fuel can be used in a smoker as long as it is natural and not contaminated with harmful substances. Common fuels include hessian, twine, pine needles, corrugated cardboard, and rotten or punky wood. Indian beekeepers, especially in Kerala, often use coconut fibers, which are readily available, safe, and cheap. Some beekeeping supply sources also sell commercial fuels like pulped paper, compressed cotton and aerosol cans of smoke. Other beekeepers use sumac as fuel because it ejects much smoke and lacks an odor.

Some beekeepers use "liquid smoke" as a safer, more convenient alternative. It is a water-based solution that is sprayed onto the bees from a plastic spray bottle. A spray of clean water can also be used to encourage bees to move on. Torpor may also be induced by the introduction of chilled air into the hive, while chilled carbon dioxide may have harmful, long-term effects.

Hive tool

American hive tool

Most beekeepers use a hive tool when working on their hives. The two main types are the American hive tool; and the Australian hive tool often called a 'frame lifter'. They are used to scrape off burr-comb from around the hive, especially on top of the frames. They are also used to separate the frames before lifting out of the hive.

Safety and husbandry

Stings

Some beekeepers believe pain and irritation from stings decreases if a beekeeper receives more stings, and they consider it important for safety of the beekeeper to be stung a few times a season. Beekeepers have high levels of antibodies, mainly Immunoglobulin G, caused by a reaction to the major antigen of bee venom, phospholipase A2 (PLA). Antibodies correlate with the frequency of bee stings.

The entry of venom into the body from bee stings may be hindered and reduced by protective clothing that allows the wearer to remove stings and venom sacs with a simple tug on the clothing. Although the stinger is barbed, a worker bee's stinger is less likely to become lodged into clothing than human skin.

Symptoms of being stung include redness, swelling and itching around the site of the sting. In mild cases, pain and swelling subside in two hours. In moderate cases, the red welt at the sting site will become slightly larger for one or two days before beginning to heal. A severe reaction, which is rare among beekeepers, results in anaphylactic shock.

If a beekeeper is stung by a bee, the sting should be removed without squeezing the attached venom glands. A quick scrape with a fingernail is effective and intuitive, and ensures the venom injected does not spread so the side effects of the sting will go away sooner. Washing the affected area with soap and water can also stop the spread of venom. Ice or a cold compress can be applied to the sting area.

Internal temperature of a hive

Tunnel entrance with baffle
 
Hive with a second skin of polystyrene

Bees maintain the internal temperature of their hive at about 35 °C (95 °F). Their ability to do this is known as social homeostasis and was first described by Gates in 1914. During hot weather, bees cool the hive by circulating cool air from the entrance through the hive and out again; and if necessary by placing water, which they fetch, throughout the hive to create evaporative cooling. In cold weather, packing and insulation of the bee hive is believed to be beneficial. The extra insulation is believed to reduce the amount of honey the bees consume and makes it easier for them to maintain the hive's temperature. The desire for insulation encouraged the use of double-walled hives with an outer wall of timber or polystyrene; and hives constructed from a ceramic.

Location of hives

There has been considerable debate about the best location for hives. Virgil thought they should be located near clear springs, ponds or shallow brooks. Wildman thought they should face to the south or west. All writers agree hives should be sheltered from strong winds. In hot climates, hives are often placed under the shade of trees in summer. Researchers in the U.S. found domestic honey bees placed in national parks compete with native bee species for resources. A further review of the literature concluded large concentrations of beehives on continents where they are not native, such as North and South America, could compete against the native bees; this, however, was not as strongly observed in areas where domestic bees are native such as Europe and Africa, where the different bee species have adapted to have a narrower overlapping of forage preferences.

Natural beekeeping

The natural beekeeping movement believes bee hives are weakened by modern beekeeping and agricultural practices, such as crop spraying, hive movement, frequent hive inspections, artificial insemination of queens, routine medication, and sugar water feeding. Practitioners of "natural beekeeping" tend to use variations of the top-bar hive, which is a simple design that retains the concept of having a movable comb without the use of frames or a foundation. The horizontal top-bar hive, as promoted by many writers, can be seen as a modernization of hollow log hives, with the addition of wooden bars of specific width from which bees hang their combs. Its widespread adoption in recent years can be attributed to the 2007 publication of The Barefoot Beekeeper by Philip Chandler, which challenges many aspects of modern beekeeping and offers the horizontal top-bar hive as a viable alternative to the ubiquitous Langstroth-style movable-frame hive.

A vertical top-bar hive is the Warré hive, based on a design by the French priest Abbé Émile Warré (1867–1951) and popularized by David Heaf in his English translation of Warré's book L'Apiculture pour Tous as Beekeeping For All.

Urban and backyard beekeeping

Honey bee in Toronto

Related to natural beekeeping, urban beekeeping is an attempt to revert to a less-industrialized way of obtaining honey by using small-scale colonies that pollinate urban gardens. Some have found city bees are healthier than rural bees because there are fewer pesticides and greater biodiversity in urban gardens. Urban bees may fail to find forage, however, and homeowners can use their land to help feed local bee populations by planting flowers that provide nectar and pollen. An environment of year-round, uninterrupted bloom creates an ideal environment for colony reproduction.

Indoor beekeeping

Modern beekeepers have experimented with raising bees indoors in a controlled environment or in indoor observation hives. This may be done for reasons of space and monitoring, or in the cooler months, when large commercial beekeepers may move colonies to "wintering" warehouses with fixed temperature, light, and humidity. This helps bees remain healthy but relatively dormant. These relatively dormant "wintered" bees survive on stored honey, and new bees are not born.

Experiments in raising bees indoors for longer durations have looked into more precise and varying environment controls. In 2015, MIT's "Synthetic Apiary" project simulated springtime inside a closed environment for several hives throughout the winter. They provided food sources and simulated long days, and saw activity and reproduction levels comparable to the levels seen outdoors in warm weather. They concluded such an indoor apiary could be sustained year-round if needed.

Behavior of honey bees

Colony reproduction

A swarm about to land
 
New wax combs between basement joists

Honey bee colonies are dependent on their queen, who is the only egg-layer. Although queens have a three-to-four-year adult lifespan, diminished longevity of queens—less than a year—is commonly and increasingly observed. The queen can choose whether to fertilize an egg as she lays it; fertilized eggs develop into a female worker bees and unfertilized eggs become male drones. The queen's choice of egg type depends on the size of the open brood cell she encounters on the comb. In a small worker cell, she lays a fertilized egg; she lays unfertilized drone eggs in larger drone cells.

When the queen is fertile and laying eggs, she produces a variety of pheromones that control the behavior of the bees in the hive; these are commonly called queen substance. Each pheromone has a different function. As the queen ages, she begins to run out of stored sperm and her pheromones begin to fail.

As the queen's pheromones fail, the bees replace her by creating a new queen from one of her worker eggs. They may do this because she has been physically injured, because she has run out of sperm and cannot lay fertilized eggs, and has become a drone-laying queen, or because her pheromones have dwindled to the point at which they cannot control all of the bees in the hive. At this juncture, the bees produce one or more queen cells by modifying existing worker cells that contain a normal female egg. They then either supersede the queen without swarming or divide the hive into two colonies through swarm-cell production, which leads to swarming.

A swarm attached to a branch

Supersedure is a valued behavioral trait because hive that supersedes its old queen does not lose any stock; rather it creates a new queen and the old one either naturally dies or is killed when the new queen emerges. In these hives, bees produce only one or two queen cells, most often in the center of the face of a broodcomb. Swarm-cell production involves the creation of twelve or more queen cells. These are large, peanut-shaped protrusions requiring space, for which reason they are often located around the edges—commonly at the sides and the bottom—of the broodcomb.

Once either process has begun, the old queen leaves the hive when the first queen cells hatch, and is accompanied by a large number of bees—predominantly young bees called wax-secretors—which form the basis of the new hive. Scouts are sent from the swarm to find suitable hollow trees or rock crevices; when one is found, the entire swarm moves in. Within hours, the new colony's bees build new wax brood combs using honey stores with which the young bees have filled themselves before leaving the old hive. Only young bees can secrete wax from special abdominal segments, which is why swarms tend to contain more young bees. Often a number of virgin queens accompany the first swarm, known as the "prime swarm", and the old queen is replaced as soon as a daughter queen mates and begins laying. Otherwise, she is quickly superseded in the new hive.

Different sub-species of Apis mellifera exhibit differing swarming characteristics. In North America, northern black races are thought to swarm less and supersede more whereas the southern yellow-and-gray varieties are said to swarm more frequently. Swarming behavior is complicated because of the prevalence of cross-breeding and hybridization of the sub-species. Italian bees are very prolific and inclined to swarm; Northern European black bees have a strong tendency to supersede their old queen without swarming. These differences are the result of differing evolutionary pressures in the regions in which each sub-species evolved.

Factors that trigger swarming

According to George S. Demuth, the main factors that increase the swarming tendency of bees are:

  • The genetics of bees; the strength of the swarming instinct
  • Congestion of the brood nest
  • Insufficient empty combs for ripening nectar and storing honey
  • Inadequate ventilation
  • Having an old queen
  • Warming weather conditions.

Demuth attributed some of his comments to Snelgrove.

Some beekeepers carefully monitor their colonies in spring for the appearance of queen cells, which are a dramatic signal the colony is determined to swarm. After leaving the old hive, the swarm looks for shelter. A beekeeper may capture it and introduce it into a new hive. Otherwise, the swarm reverts to a feral state and finds shelter in a hollow tree or other suitable habitat. A small after-swarm has less chance of survival and may threaten the original hive's survival if the number of remaining bees is unsustainable. When a hive swarms despite the beekeeper's preventative efforts, the beekeeper may give the reduced hive two frames of open brood with eggs. This helps replenish the hive more quickly and gives a second opportunity to raise a queen if there is a mating failure.

Artificial swarming

When a colony accidentally loses its queen, it is said to be queenless. The workers realize the queen is absent after around an hour as her pheromones in the hive fade. Instinctively, the workers select cells containing eggs aged less than three days and dramatically enlarge the cells to form "emergency queen cells". These appear similar to large, one-inch (2.5 cm)-long, peanut-like structures that hang from the center or side of the brood combs. The developing larva in a queen cell is fed differently than an ordinary worker bee; in addition to honey and pollen, she receives a great deal of royal jelly, a special food secreted from the hypopharyngeal gland of young nurse bees. Royal jelly dramatically alters the growth and development of the larva so after metamorphosis and pupation, it emerges from the cell as a queen bee. The queen is the only bee in a colony that has fully developed ovaries; she secretes a pheromone that suppresses the normal development of ovaries in all of her workers.

Beekeepers use the ability of the bees to produce new queens to increase their colonies in a procedure called splitting a colony. To do this, they remove several brood combs from a healthy hive, leaving the old queen behind. These combs must contain eggs or larvae less than three days old and be covered by young nurse bees, which care for the brood and keep it warm. These brood combs and nurse bees are then placed into a small "nucleus hive" with other combs containing honey and pollen. As soon as the nurse bees find themselves in this new hive, and realize they have no queen and begin constructing emergency queen cells using the eggs and larvae in the combs.

Pests and diseases

Diseases

The common agents of disease that affect adult honey bees include fungi, bacteria, protozoa, viruses, parasites and poisons. The gross symptoms displayed by affected adult bees are very similar, whatever the cause, making it difficult to ascertain the causes without microscopic identification of microorganisms or chemical analysis of poisons. Since 2006, colony losses from colony collapse disorder (CCD) have been increasing across the world, although the causes of the syndrome are unknown. In the U.S., commercial beekeepers have been increasing the number of hives to deal with higher rates of attrition.

Parasites

Nosema apis is a microsporidian that causes nosemosis, also called nosema, the most-common and widespread disease of the adult honey bee.

Galleria mellonella and Achroia grisella wax moth larvae hatch, tunnel through and destroy comb that contains bee larvae and their honey stores. The tunnels they create are lined with silk, which entangles and starves emerging bees. Destruction of honeycombs also results in leakage and wasting of honey. A healthy hive can manage wax moths but weak colonies, unoccupied hives and stored frames can be decimated.

Small hive beetle (Aethina tumida) is native to Africa but has now spread to most continents. It is a serious pest among honey bees unadapted to it.

Varroa destructor, the Varroa mite, is an established pest of two species of honey bee through many parts of the world and is blamed by many researchers as a leading cause of CCD.

Tropilaelaps mites, of which there are four species, are native to Apis dorsata, Apis laboriosa, and Apis breviligula, but spread to Apis mellifera after they were introduced to Asia.

Acarapis woodi, the tracheal mite, infests the trachea of honey bees.

Predators

Most predators prefer not to eat honeybees due to their unpleasant sting. Common honeybee predators include large animals such as skunks and bears, which seek the hive's honey and brood, as well as adult bees. Some birds will also eat bees, (for example, bee-eaters, as do some robber flies, such as Mallophora ruficauda, which is a pest of apiculture in South America due to its habit of eating workers while they are foraging in meadows.

Decreasing lifespan

A 2022 study by researchers at University of Maryland, College Park observed lifespan of caged worker bees is half as long as that observed 50 years ago, and hypothesized decreased worker-bee lifespans should correlate to decreased honey production.

World apiculture

According to Food and Agriculture Organization data, the world's beehive stock rose from around 50 million in 1961 to around 83 million in 2014, which represents an annual average growth of 1.3%. Average annual growth has accelerated to 1.9% since 2009.

World's stock of beehives from 1961 to 2014
 
World honey production and consumption in 2005
Country Production (1000 metric tons) Consumption (1000 metric tons) Number of beekeepers Number of bee hives
Europe and Russia
Ukraine Ukraine (*2019) *69.94 52

Russia Russia (*2019) 63.53 54

Spain Spain 37.00 40

Germany Germany (*2008) 21.23 89 90,000* 1,000,000*
Hungary Hungary 19.71 4

Romania Romania 19.20 10

Greece Greece 16.27 16

France France 15.45 30

Bulgaria Bulgaria 11.22 2

Serbia Serbia 3 to 5 6.3 30,000 430,000
Denmark Denmark (*1996) 2.5 5 *4,000 *150,000
North America
United States United States (*2006, **2002, ***2019) ***71.18 158.75* 12,029** (210,000 bee keepers) ***2,812,000
Canada Canada 45 (2006); 28 (2007) 80.35(2019) 29 13,000 500,000
Latin America
Argentina Argentina (*2019) 93.42 (Average 84) 3
*2984290
Mexico Mexico (*2019) *61.99 31
*2157870
Brazil Brazil 33.75 2

Uruguay Uruguay 11.87 1

Oceania
Australia Australia 18.46 16 12,000 520,000
New Zealand New Zealand 9.69 8 2602 313,399
Asia
China China (*2019) *444.1 238
7,200,000
Turkey Turkey (*2019) *109.33 66
4,500,000
Iran Iran (*2019) *75.46

3,500,000
India India 52.23 45
9,800,000
South Korea South Korea 23.82 27

Vietnam Vietnam 13.59 0

Turkmenistan Turkmenistan 10.46 10

Africa
Ethiopia Ethiopia 41.23 40
4,400,000
Tanzania Tanzania 28.68 28

Angola Angola 23.77 23

Kenya Kenya 22.00 21

Egypt Egypt (*1997) 16*
200,000* 2,000,000*
Central African Republic Central African Republic 14.23 14

Morocco Morocco 4.5
27,000 400,000
South Africa South Africa (*2008) ≈2.5* ≈1.5* ≈1,790* ≈92,000*
Source: Food and Agriculture Organization of the United Nations
2019 data
Sources:
  • Denmark: beekeeping.com (1996)
  • Arab countries: beekeeping.com (1997)
  • US: University of Arkansas National Agricultural Law Center, Agricultural Marketing Resource Center
  • Serbia

Gallery: Harvesting honey

Ozarks

From Wikipedia, the free encyclopedia
Ozarks
Ozark Highlands; Ozark Mountains; Ozark Plateaus
Buffalo national river steel creek overlook.jpg
View of the Ozarks from the Buffalo National River, Newton County, Arkansas
Highest point
PeakBuffalo Lookout, Boston Mountains 
Elevation2,561 ft (781 m) 
Listing
Coordinates37°10′N 92°30′W
Dimensions
Length350 km (220 mi) 
Width400 km (250 mi) 
Area122,000 km2 (47,000 sq mi) 
Geography
OzarkOverview.jpg
CountryUnited States
StatesArkansas, Kansas, Missouri and Oklahoma
Geology
Age of rockPaleozoic to Proterozoic
A rural Ozarks scene. Phelps County, Missouri
 
The Saint Francois Mountains, viewed here from Knob Lick Mountain, are the exposed geologic core of the Ozarks.

The Ozarks, also known as the Ozark Mountains, Ozark Highlands or Ozark Plateau, is a physiographic region in the U.S. states of Missouri, Arkansas, Oklahoma and the extreme southeastern corner of Kansas. The Ozarks cover a significant portion of northern Arkansas and most of the southern half of Missouri, extending from Interstate 40 in central Arkansas to Interstate 70 in central Missouri.

There are two mountain ranges in the Ozarks: the Boston Mountains of Arkansas and the St. Francois Mountains of Missouri. Buffalo Lookout, the highest point in the Ozarks, is located in the Boston Mountains. Geologically, the area is a broad dome with the exposed core in the ancient St. Francois Mountains. The Ozarks cover nearly 47,000 square miles (120,000 km2), making it the most extensive highland region between the Appalachians and Rockies. Together with the Ouachita Mountains, the area is known as the U.S. Interior Highlands.

The Salem Plateau, named after Salem, Missouri, makes up the largest geologic area of the Ozarks. The second largest is the Springfield Plateau, named after Springfield, Missouri, nicknamed the "Queen City of the Ozarks". On the northern Ozark border are the cities of St. Louis and Columbia, Missouri. Significant Ozark cities in Arkansas include Fayetteville, Bentonville, Springdale, Eureka Springs, and Fort Smith. Branson, just north of the Arkansas–Missouri border, is a tourist destination and popularizer of Ozark culture.

Etymology

Ozarks is a toponym believed to be derived as an English-language adaptation of the French abbreviation aux Arcs (short for aux Arcansas, meaning "of/at/to the Arcansas [plural]"). Originally, in the decades prior to the French and Indian War, aux Arkansas referred to the trading post at Arkansas Post, located in wooded Arkansas Delta lowland area above the confluence of the Arkansas River with the Mississippi River.

Other possible derivations include aux arcs meaning "[land] of the arches", in reference to the dozens of natural bridges formed by erosion and collapsed caves in the Ozark region. These include Clifty Hollow Natural Bridge (actually a series of arches) in Missouri, and Alum Cove in the Ozark–St. Francis National Forest. By the early 20th century, the "Ozarks" had become a generic and widely used term.

Physiographic subregions

Elevation map of the Ozarks

The Ozarks consist of five physiographic subregions: the Boston Mountains of north Arkansas and Cookson Hills of east Oklahoma; the Springfield Plateau of southwest Missouri, northeast Oklahoma, and northwest Arkansas and including Springfield, Joplin and Monett/Aurora in Missouri, Tahlequah in Oklahoma, and Fayetteville and Harrison in Arkansas; the White River Hills along the White River, including Branson and Mountain Home to Batesville; the Salem Plateau or Central Plateau, which includes a broad band across south central Missouri and north central Arkansas including the Lebanon, Salem and West Plains areas; the Courtois Hills of southeastern Missouri; the Osage-Gasconade Hills around the Lake of the Ozarks; the Saint Francois Mountains; and the Missouri River and Mississippi River border areas along the eastern and northeastern flanks.

Karst features such as springs, losing streams, sinkholes and caves are common in the limestones of the Springfield Plateau and abundant in the dolomite bedrock of the Salem Plateau and Boston Mountains. Missouri is known as "The Cave State" with over 7,300 recorded caves, second in number only to Tennessee. The majority of these caves are found in the Ozark counties. The Ozark Plateaus aquifer system affects groundwater movement in all areas except the igneous core of the St. Francois Mountains. Geographic features include limestone and dolomite glades, which are rocky, desert-like areas on hilltops. Kept open by periodic fires that limit growth of grasses and forbs in shallow soil, glades are home to collared lizards, tarantulas, scorpions, cacti and other species more typical of the Desert Southwest.

The Boston Mountains contain the highest elevations of the Ozarks, with peaks over 2,500 feet (760 m), and form some of the greatest relief of any formation between the Appalachians and Rocky Mountains. The Ouachita Mountains to the south rise a few hundred feet higher, but are not geographically associated with the Ozarks. The Boston Mountains portion of the Ozarks extends north of the Arkansas River Valley 20 to 35 miles (32 to 56 km), is approximately 200 miles (320 km) long, and is bordered by the Springfield and Salem Plateau to the north of the White River. Summits can reach elevations of just over 2,560 feet (780 m), with valleys 500 to 1,550 feet (150 to 470 m) deep. Turner Ward Knob is the highest named peak. Found in western Newton County, Arkansas, its elevation is 2,463 feet (751 m). Nearby, five unnamed peaks have elevations at or slightly above 2,560 feet (780 m). Drainage is primarily to the White River, with the exception of the Illinois River, although there also is considerable drainage from the south slopes of the Boston Mountains to the Arkansas River. Major streams of this type include Lee Creek, Frog Bayou, Mulberry River, Spadra Creek, Big Piney Creek, Little Piney Creek, Illinois Bayou, Point Remove Creek, and Cadron Creek. Many Ozark waterways have their headwaters in the uplands of the Boston formation, including the Buffalo, Kings, Mulberry, Little Red and White rivers.

Topography is mostly gently rolling in the Springfield and Salem plateaus, whereas the Saint Francois Mountains are more rugged. Although the Springfield formation's surface is primarily Mississippian limestone and chert, the Salem Plateau is made of older Ordovician dolomites, limestones, and sandstones. Both are rife with karst topography and form long, flat plains. The formations are separated by steep escarpments that dramatically interrupt the rolling hills. Although much of the Springfield Plateau has been denuded of the surface layers of the Boston Mountains, large remnants of these younger layers are present throughout the southern end of the formation, possibly suggesting a peneplain process. The Springfield Plateau drains through wide, mature streams ultimately feeding the White River.

Geology

The St. Francois Mountains in the northeastern Ozarks are the eroded remnants of an ancient range which form the geological core of the highland dome. The igneous and volcanic rocks of the St. Francois Mountains are the exposed remains of a Proterozoic mountain range hundreds of millions of years old. The remaining hills are the exposed portion of an extensive terrane (the Spavinaw terrane in part) of granitic and rhyolitic rocks dating from 1485 to 1350 mya that stretches from Ohio to western Oklahoma. The core of the range existed as an island in the Paleozoic seas. Reef complexes occur in the sedimentary layers surrounding this ancient island. These flanking reefs were points of concentration for later ore-bearing fluids which formed the rich lead-zinc ores that have been and continue to be mined in the area. The igneous and volcanic rocks extend at depth under the relatively thin veneer of Paleozoic sedimentary rocks and form the basal crust of the entire region.

Grey dolomite laid down c. 500 mya nonconformally overlies reddish rhyolite that formed close to 1500 mya in the St. Francois Mountains.

A major unconformity in the region attests that the Ozarks were above sea level for several hundred million years from the time of the volcanism in the Precambrian until the mid-Cambrian with an erosionally produced relief of up to 1,500 feet (460 m). The seas encroached during the late Cambrian producing the Lamotte Sandstone, 200 to 300 feet (61 to 91 m) thick, followed by carbonate sedimentation. Coral reefs formed around the granite and rhyolite islands in this Cambrian sea. This carbonate formation, the Bonneterre, now mostly dolomite, is exposed around the St. Francis Mountains, but extends in the subsurface throughout the Ozarks and reaches a thickness of 400 to 1,500 feet (120 to 460 m). The Bonneterre is overlain by 500 to 600 feet (150 to 180 m) of dolomite, often sandy, silty or cherty, forming the Elvins Group and the Potosi and Eminence formations. Withdrawal of the seas resulted in another unconformity during the latest Cambrian and early Ordovician periods. Hydrothermal mineralizing fluids formed the rich lead ore deposits of the Lead Belt during this time.

Outcrop of Roubidoux sandstone along a bluff in Douglas County, Missouri

Sedimentation resumed in the Ordovician with the deposition of the Gunter sandstone, the Gasconade dolomite and the prominent Roubidoux sandstone and dolomite. The sandstone of the Roubidoux forms prominent bluffs along the streams eroding into the southern part of the Salem Plateau. The Roubidoux and Gunter sandstones serve as significant aquifers when present in the subsurface. The source of the sands is considered to be the emerging Wisconsin Dome to the northeast. The Ozark region remained as a subsiding shallow carbonate shelf environment with a significant thickness of cherty dolomites such as the Jefferson City, Cotter and Powell formations.

Portions of the Ozark Plateau, the Springfield Plateau of southwest Missouri and northern Arkansas, are underlain by Mississippian cherty limestones locally referred to as "Boone chert", consisting of limestone and chert layers. These are eroded and form steep hills, valleys and bluffs.

The Boston Mountains are a high and deeply dissected plateau. The rocks of the region are essentially little disturbed, flat-lying sedimentary layers of Paleozoic age. The highest ridges and peaks are capped by Pennsylvanian sandstone such as the basal Atoka and the "Middle Bloyd". The deeply eroded valleys are cut into Mississippian limestone and below that layer Ordovician dolomite.

During the Pennsylvanian period the Ozark Plateau was uplifted as a result of the Ouachita orogeny. During the late Paleozoic the deep ocean basin that existed in central and southern Arkansas was lifted when South America collided with North America, creating the folded Ouachita Mountains and uplifting the Ozark plateau to the north.

Ecology and conservation

Formal conservation in the region began when the Ozark National Forest was created by proclamation of President Theodore Roosevelt in 1908 to preserve 917,944 acres (3,714.79 km2) across five Arkansas counties. Another 608,537 acres (2,462.66 km2) were added the following year. The initial forest included area as far south as Mount Magazine and as far east as Sylamore.

In 1939, Congress established Mark Twain National Forest at nine sites in Missouri. Wildlife management areas were founded in the 1920s and '30s to restore populations to viable numbers. In the 1930s and 1940s Aldo Leopold, Arthur Carhart and Bob Marshall developed a "wilderness" policy for the Forest Service. Their efforts bore fruit with The Wilderness Act of 1964 which designated wilderness areas "where the earth and its community of life are untrammeled by men, where man himself is a visitor and does not remain", though this included second growth public forests like the Mark Twain National Forest.

Land was also added to Ozark National Forest during this period, with over 544,000 acres (2,200 km2) in total additions. Some land was reclaimed by the government through the Resettlement Administration during the Great Depression. In 1976, Congress established the Hercules Glades Wilderness, the first of 13 designated wilderness areas in the Ozarks. In 1986, Congress established the Ozark Plateau National Wildlife Refuge in northeast Oklahoma. Protected areas ensure the recovery of endangered and threatened species of animals and plants, including the red wolf, Ozark big-eared bat, Indiana bat, eastern small-footed bat, southeastern bat, southeastern big-eared bat; longnose darter, Ozark cavefish, Ozark cave crayfish, Bowman's cave amphipod, Ozark cave amphipod, bat cave isopod; and Ozark chinquapin. It is a habitat of migratory birds and contains geological, archeological, historical, and paleontological resources.

Commercial farms and processing operations are known to raise levels of chemical and biological contaminants in Ozark streams, threatening water supplies, recreational use and endangered native species.

Lakes and streams

Big Spring, the largest freshwater spring in the Ozarks, discharges 304 million US gallons (1,150,000 m3) of water per day into the Current River.
 
Canoers on the Current River in the Ozark National Scenic Riverways
 
Roark Bluff on the Buffalo National River
 

Many of the rivers and streams in the Ozarks have been dammed. Most of the dams in the region were initially built for the dual purpose of flood control and hydropower generation but have also become major economic drivers through recreational use in places such as Branson, Missouri, and Mountain Home, Arkansas.

The Army Corps of Engineers among others, operates multiple dams in the Ozarks region. Some of the largest lakes created by these dams are on the White River. Beginning in 1911 with the construction of Powersite Dam on the White River near Branson, Missouri and the impoundment of Lake Taneycomo the Ozarks rivers have been harnessed for electrical power, recreation, and flood control. After the President Franklin D, Roosevelt signed the Flood Control Act of 1938, six large flood control dams were constructed on the White River and its tributaries.

  • Beaver Dam on the White River - Beaver Lake
  • Table Rock Dam on the White River - Table Rock Lake
  • Bull Shoals Dam on the White River - Bull Shoals Lake
  • Norfork Dam on the North Fork River - Norfolk Lake
  • Greers Ferry Lake on the Little Red River - Greers Ferry Lake
  • Clearwater Dam on the Black River - Clearwater Lake

Multiple smaller lakes have been created by dams in the White River basin from 1911 through 1960. These smaller lakes include Lake Sequoyah, a small recreational fishing lake east of Fayetteville, Arkansas, formed in 1961; Sequoyah is the uppermost impoundment on the White River. Below Sequoyah (northeast of Fayetteville) is Beaver Lake, formed in 1960. The White River continues northeasterly into Table Rock Lake (1958) in Missouri, which feeds directly into Lake Taneycomo, where the river zigzags southeasterly into Arkansas forming Bull Shoals Lake along the Arkansas-Missouri line. Completed in 1952, Bull Shoals is the furthest downstream lake on the White River proper. Norfork Lake was formed by damming the North Fork River, a tributary of the White River, in 1941.

Additional large lakes in the Ozarks region include Lake of the Ozarks, Pomme de Terre Lake, and Truman Lake in the northern Ozarks. These three lakes were formed by impounding the Osage River and its tributary the Pomme de Terre River in 1931, 1961 and 1979 respectively.

Grand Lake o' the Cherokee in northeast Oklahoma, on the western portion of the Ozark Plateau, was created in 1940 with the damming of the Grand River. Stockton Lake was formed in 1969 by damming the Sac River near the city of Stockton, Missouri, and supplements the water supply of Springfield in nearby Greene County.

The creation of the lakes significantly altered the Ozark landscape and affected traditional Ozark culture through displacement. The streams provided water and power to communities, farms and mills concentrated in the valleys prior to impoundment. Many cemeteries, farm roads, river fords and railways were lost when the lakes came, disrupting rural culture, travel and commerce. Baxter County, Arkansas, alone saw nearly 400 people displaced to make way for the reservoir created by Norfork Dam. The town of Forsyth, Missouri, was relocated in its entirety to a spot 2 miles (3 km) from its previous location. Prior to damming, rivers and streams in the White and Osage River basins were of similar character to the current conditions of the Buffalo, Elk, Niangua, Gasconade, Big Piney, Current, Jacks Fork, Eleven Point and Meramec rivers.

Because of the success of the Army Corps efforts to dam the large rivers in the Ozarks, the Ozarks Society began protests to keep the other rivers in the Ozarks free flowing. The Buffalo National River was created by an Act of Congress in 1972 as the nation's first National River, administered by the National Park Service. The designation came after over a decade of battling a proposed Army Corps dam in the media, legislature, and courts to keep the Buffalo River free flowing. The Ozark Society, the main force behind the dam protest, still leads the fight to keep the Buffalo River pristine and protected. Today, the Buffalo River sees approximately 800,000 visitors camping, canoeing, floating, hiking, and tubing annually. In Missouri, the Ozark National Scenic Riverways was established in 1964 along the Current and Jacks Fork rivers as the first US national park based on a river system. The Eleven Point River is included in the National Wild and Scenic Rivers System established in 1968. These parks and rivers are a major economic driver for some of the least populated counties in Arkansas and Missouri, attracting up to 1.5 million tourists annually.

Many other waterways and streams have their headwaters in the Boston Mountains portion of the Ozarks such as the Mulberry River, the White River, War Eagle Creek, Little Mulberry Creek, Lee Creek, Big Piney Creek, and the Little Red River. To the south, the Arkansas River valley separates the Boston Mountains from the Ouachita Mountains.

Missouri Ozark rivers include the Gasconade, Big Piney, and Niangua rivers in the north central region. The Meramec River and its tributaries Huzzah Creek and Courtois Creek are found in the northeastern Ozarks. The Black and St. Francis rivers mark the eastern crescent of the Ozarks. The James, Spring and North Fork rivers are in south-central Missouri. Forming the west central border of the Ozarks from Missouri through Kansas and into Oklahoma are the Spring River and its tributary, Center Creek. Grand Falls, Missouri's largest natural waterfall, a chert outcropping, includes bluffs and glades on Shoal Creek south of Joplin. All these river systems see heavy recreational use in season, including the Elk River in southwestern Missouri and its tributary Big Sugar Creek.

Ozark rivers and streams are typically clear water, with baseflows sustained by many seeps and springs, and flow through forests along limestone and dolomite bluffs. Gravel bars are common along shallow banks, while deep holes are found along bluffs. Except during periods of heavy rain or snow melt – when water levels rise quite rapidly – their level of difficulty is suitable for most canoeing and tubing.

Fish hatcheries are common due to the abundance of springs and waterways. The Neosho National Fish Hatchery was built in 1888; it was the first federal hatchery. The Arkansas Game and Fish Commission, Missouri Department of Conservation and U.S. Fish and Wildlife Service operate numerous warm and cold water hatcheries and trout parks; private hatcheries such as at Rockbridge are found throughout the region.

Regional economy

Traditional economic activity

The Ozarks contain ore deposits of lead, zinc, iron and barite. Many of these deposits have been depleted by historic mining activities, but much remains and is currently being mined in the Lead Belt of southeast Missouri. Historically, the lead belt around the Saint Francois Mountains and the Tri-State district lead-zinc mining area around Joplin, Missouri, have been important sources of metals. Mining practices common in the early 20th century left significant abandoned underground mine problems and heavy metal contamination in topsoil and groundwater in the Tri-State district.

Much of the area supports beef cattle ranching, and dairy farming is common across the area. Dairy farms are usually cooperative affairs, with small farms selling to a corporate wholesaler, who packages product under a common brand for retail sales. Petroleum exploration and extraction also takes place in the Oklahoma portion of the Ozarks, as well as in the east half of the Boston Mountains in Arkansas. Logging of both softwood and hardwood timber species on both private land and in the National Forests has long been an important economic activity.

The majority of the Ozarks is forested. Oak-hickory is the predominant type; eastern junipers are common, with stands of pine often seen in the southern range. Less than a quarter of the region has been cleared for pasture and cropland. Forests that were heavily logged during the early-to-mid-20th century have recovered; much of the remaining timber in the Ozarks is second-growth forest. However, deforestation of frontier forest contributed through erosion to increased gravel bars along Ozark waterways in logged areas; stream channels have become wider and shallower, and deepwater fish habitat has been lost.

CCC lookout on White Rock Mountain, Franklin County, Arkansas

The numerous rivers and streams of the region saw hundreds of water-powered timber and grist mills. Mills were important centers of culture and commerce; dispersed widely throughout the region, mills served local needs, often thriving within a few miles of another facility. Few Ozark mills relied on inefficient water wheels for power; most utilized a dam, millrace and water turbine.

During the New Deal, the Civilian Conservation Corps employed hundreds in the construction of nearly 400 fire lookouts throughout the Ozarks at 121 known sites in Arkansas and 257 in Missouri. Of those lookouts, about half remain, and many of them are in use by the U.S. Forest Service. A 2007 report by the National Trust for Historic Preservation deemed these fire lookouts and related structures as one of America's 11 Most Endangered Historic Places.

In the 1960s, federal activity promoted modernization, especially through better transportation and tourism. The Ozarks Regional Commission sponsored numerous projects.

Current economic activities

Tourism is the growth industry of the Ozarks as evidenced by the growth of the Branson, Missouri, entertainment center celebrating traditional Ozark culture. The rapidly growing Northwest Arkansas metropolitan area has also become a tourist hub, drawing nationwide attention for the Crystal Bridges Museum of American Art in Bentonville, Arkansas.

Poultry farming and food processing are significant industries throughout the region. The Tyson Foods corporation and ConAgra Foods each operates several hundred poultry farms and processing plants throughout the Ozarks. Schreiber Foods has operations throughout southern Missouri.

The trucking industry is important to the regional economy, with national carriers based there including J. B. Hunt, ABF, and Prime, Inc. Springfield remains an operational hub for the BNSF Railway. Logging and timber industries are also significant in the Ozark economy, with operations ranging from small family-run sawmills to large commercial concerns. Fortune 500 companies such as Wal-Mart, Leggett & Platt, Bass Pro Shops, and O'Reilly Auto Parts are based in the Ozarks.

The area is home to several Missouri wine and spirit regions, including the Ozark Highlands and Ozark Mountain American Viticultural Areas, and the Ozark Highland Spirits Region. There are a number of microbreweries throughout the region.

Culture

"Ozark" also refers to the distinctive culture, architecture, and dialect shared by the people who live on the plateau. Early settlers in Missouri were pioneers who came west from the Southern Appalachians at the beginning of the 19th century, followed in the 1840s and 1850s by Irish and German immigrants. Much of the Ozark population is of English, Scots-Irish, and German descent, and the Ozark families from which the regional culture derived tend to have lived in the area since the 19th century.

The first public school in Jasper County, Missouri

Early settlers relied on hunting, fishing, trapping, and foraging to supplement their diets and incomes. Today hunting and fishing for recreation are common activities and an important part of the tourist industry. Foraging for mushrooms (especially morels) and for ginseng is common and financially supported by established buyers in the area. Other forages include poke, watercress, persimmons and pawpaw; wild berries such as blackberry, black raspberry, raspberry, red mulberry, black cherry, wild strawberry and dewberry; and wild nuts such as black walnut and even acorns. Edible native legumes, wild grasses and wildflowers are plentiful, and beekeeping is common.

Print and broadcast media have explored Ozark culture broadly. Books set in the Ozarks include Where the Red Fern Grows, The Shepherd of the Hills, and As a Friend. The 1999 film Ride with the Devil, based on the book Woe to Live On, depicts conflict in southwest Missouri during the Civil War. Winter's Bone, a novel by Daniel Woodrell (author of Woe to Live On), reflects on contemporary methamphetamine culture and its impact on families on the plateau. Released as a feature film in 2010, Winter's Bone received the Grand Jury Prize at the Sundance Film Festival, as well as other awards. Several early and influential country-music television and radio programs originated from Springfield in the 1950s and '60s, including ABC-TV's Ozark Jubilee and The Slim Wilson Show on KYTV. The Clampett clan of The Beverly Hillbillies TV show provide a stereotypical depiction of Ozark people. Ozark musicians include Porter Wagoner and old-time fiddler Bob Holt. Netflix drama series Ozark takes place in Osage Beach, Missouri and revolves around the well-to-do Byrde family as their lives are uprooted and they are forced to move from Chicago to the Ozarks after a money laundering scheme goes wrong. The series focuses on the Byrdes' dealings in the Ozarks, as well as their interactions with local Ozark crime families. The series premiered on July 21, 2017.

Examples of commercial interpretations of traditional Ozark culture include the two major family theme parks in the region, Silver Dollar City and the now defunct Dogpatch USA, and the resort entertainment complex in Branson. Ozark Folkways in Winslow, Arkansas, and Ozark Folk Center State Park in Mountain View, Arkansas, interpret regional culture through musical performance and exhibitions of pioneer skills and crafts.

Traditional Ozark culture includes stories and tunes passed orally between generations through community music parties and other informal gatherings. Many of these tunes and tales can be traced to British origins and to German folklore. Moreover, historian Vance Randolph attributes the formation of much Ozark lore to individual families when "backwoods parents begin by telling outrageous whoppers to their children and end by half believing the wildest of these tales themselves." Randolph collected Ozark folklore and lyrics in volumes such as the national bestseller Pissing in the Snow and Other Ozark Folktales (University of Illinois Press, 1976), Ozark Folksongs (University of Missouri Press, 1980), a four-volume anthology of regional songs and ballads collected in the 1920s and 1930s, and Ozark Magic and Folklore (Courier Dover Publications, 1964). Evidenced by Randolph's extensive field work, many Ozark anecdotes from the oral tradition are often bawdy, full of wild embellishments on everyday themes. In 1941–42, commissioned by Alan Lomax of the Archive of Folk Culture, Randolph returned to the Ozarks with a portable recording machine from the Library of Congress and captured over 800 songs, ballads and instrumentals. Selected from among these several hundred recordings, 35 tracks were released on Various Artists: Ozark Folksongs (Rounder Records) in 2001.

Artist's Point, located along the Boston Mountains Scenic Loop in Crawford County, Arkansas

Square dances were an important social avenue throughout the Ozarks into the 20th century. Square dances sprang up wherever people concentrated around mills and timber camps, springs, fords, and in towns small and large. Geographically isolated communities saw their own local dance tunes and variations develop. Of all the traditional musicians in the Ozarks, the fiddler holds a distinct place in both the community and folklore. Community fiddlers were revered for carrying local tunes; regionally, traveling fiddlers brought new tunes and entertainment, even while many viewed their arrival as a threat to morality. In 2007, Gordon McCann, a chronicler of Ozarks folklife and fiddle music for over four decades, donated a collection of audio recordings, fieldnotes and photographs to Missouri State University in Springfield. The collection includes more than 3,000 hours of fiddle music and interviews recorded at jam sessions, music parties, concerts and dances in the Ozarks. Selected audio recordings along with biographical sketches, photographs and tune histories were published in Drew Beisswenger and Gordon McCann's 2008 book/37-track CD set Mel Bay Presents Ozarks Fiddle Music: 308 Tunes Featuring 30 Legendary Fiddlers With Selections from 50 Other Great Ozarks Fiddlers.

From 1973 to 1983, the Bittersweet project, which began as an English class at Lebanon High School in Missouri, collected 476 taped and transcribed interviews, published 482 stories, and took over 50,000 photographs documenting traditional Ozark culture.

Population influx since the 1950s, coupled with geographically lying in both the Midwest and Upper South, proximity to the Mississippi embayment, the Osage and Northern Plains, contributes to changing cultural values in the Ozarks. Theme parks and theatres seen to reflect regional values have little in common with traditional Ozark culture. Community tradition bearers remain active, in decreasing numbers, far afield of commercial offers.

Religion

Ozark religion, like that of Appalachia, was predominantly Baptist and Methodist during periods of early settlement; it tends to the conservative or individualistic, with Episcopalians, Assemblies of God, Baptists including Southern Baptists, Church of Christ, Pentecostals, and other Protestant denominations present, as well as Catholics. Religious organizations headquartered in the Ozarks include the Assemblies of God and Baptist Bible Fellowship International in Springfield and the General Association of General Baptists in Poplar Bluff.

Education

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