Product Code Database
Example Keywords: intel -mobile $89-161
barcode-scavenger
   » » Wiki: Bee
Tag Wiki 'Bee'.
Tag

Bee
Search for bees bee
 (

 C O N T E N T S 
Rank: 100%
Bluestar Bluestar Bluestar Bluestar Blackstar
  1. Wiki
  2. Comments
  3. Media

Bees are that form a Anthophila within the superfamily of the order , with over 20,000 known in seven recognized families. Some species – including , , and – are living in highly hierarchical colonies, while over 90% of bee species – including , , , and – are . Members of the most well-known bee , Apis (i.e. honey bees), are known to construct called .

Unlike the closely related and , who are /, bees are that specifically feed on () and (), the former primarily as a source for metabolic energy, and the latter primarily for and other for their . They are found on every continent except , and in every habitat on the planet that contains . The most common bees in the Northern Hemisphere are the , or sweat bees, but they are small and often mistaken for wasps or flies. Bees range in size from tiny stingless bee species, whose workers are less than long,

(2026). 9783030600891, Springer New York. .
to the leafcutter bee , the largest species of bee, whose females can attain a length of . Vertebrate predators of bees include and birds such as ; insect predators include and .

Bees are best known for their ecological roles as and, in the case of the best-known species, the western honey bee, for producing , a regurgitated and viscous mixture of partially digested kept as of the bee colony. Pollination management via bees is important both ecologically and agriculturally, and the decline in wild bee populations has increased the demand and value of by commercially managed hives of honey bees. Human or ( for stingless bees) has been practiced as a discipline of for millennia, since at least the times of and . Bees have appeared in mythology and folklore, through all phases of art and literature from ancient times to the present day, although primarily focused in the Northern Hemisphere where beekeeping is far more common. In , the have practiced large-scale intensive meliponiculture since pre-Columbian times.

Evolution
The immediate ancestors of bees were in the family , which were of other insects. The switch from insect prey to pollen may have resulted from the consumption of prey insects which were flower visitors and were partially covered with pollen when they were fed to the wasp larvae. This same scenario may have occurred within the wasps, where the evolved from predatory ancestors.

Based on analysis, bees are thought to have originated during the (about 124 million years ago) on the supercontinent of , just prior to its breakup into and . The supercontinent is thought to have been a largely xeric environment at this time; modern bee diversity hotspots are also in xeric and seasonal temperate environments, suggesting strong niche conservatism among bees ever since their origins.

Genomic analysis indicates that despite only appearing much later in the fossil record, all modern bee families had already diverged from one another by the end of the Cretaceous. The , , and had already evolved on the supercontinent prior to its fragmentation. Further divergences were facilitated by West Gondwana's breakup around 100 million years ago, leading to a deep Africa-South America split within both the Apidae and Megachilidae, the isolation of the Melittidae in Africa, and the origins of the , and in South America. The rapid radiation of the South American bee families is thought to have followed the concurrent radiation of within the same region. Later in the Cretaceous (80 million years ago), colletid bees colonized from (with an offshoot lineage evolving into the ), and by the end of the Cretaceous, South American bees had also colonized North America. The North American fossil taxon belongs to a group that is no longer found in North America, suggesting that many bee lineages went extinct during the Cretaceous–Paleogene extinction event (the "K-Pg extinction").

Following the K-Pg extinction, surviving bee lineages continued to spread into the Northern Hemisphere, colonizing from Africa by the , and then spreading east to . This was facilitated by the warming climate around the same time, allowing bees to move to higher latitudes following the spread of tropical and subtropical habitats. By the (~45 mya) there was already considerable diversity among eusocial bee lineages. A second extinction event among bees is thought to have occurred due to rapid climatic cooling around the Eocene-Oligocene boundary, leading to the extinction of some bee lineages such as the tribe . During the and periods, bee lineages expanded worldwide. This came about as continental drift and changing climates created new barriers and habitats, isolating populations and driving the evolution of many new tribes.

Fossils
The oldest non-compression bee fossil is Cretotrigona prisca, a of age (~70 mya) found in New Jersey amber. A fossil from the early Cretaceous (~100 mya), Melittosphex burmensis, was initially considered "an extinct lineage of pollen-collecting Apoidea to the modern bees", but subsequent research has rejected the claim that Melittosphex is a bee, or even a member of the superfamily to which bees belong, instead treating the lineage as within the .

The (within the Apidae) appeared around 53 Mya. The Colletidae appear as fossils only from the late (~25 Mya) to early . The Melittidae are known from Palaeomacropis eocenicus in the . The Megachilidae are known from trace fossils (characteristic leaf cuttings) from the . The Andrenidae are known from the Eocene-Oligocene boundary, around 34 Mya, of the Florissant shale. The Halictidae first appear in the Early Eocene with species found in amber. The Stenotritidae are known from fossil brood cells of age.

Coevolution
The earliest animal-pollinated flowers were shallow, cup-shaped blooms by insects such as , so the syndrome of insect pollination was well established before bees evolved. Bees represent a further step in this process, being specialized for pollination through behavioral and physical traits that specifically enhance the task and make them the most efficient pollinating insects. In a process of , flowers developed floral rewards such as and longer tubes, and bees developed longer tongues to extract the nectar. Bees also developed structures known as scopal hairs and to collect and carry pollen. The location and type differ among and between groups of bees. Most species have scopal hairs on their hind legs or on the underside of their abdomens. Some species in the family Apidae have on their hind legs, while very few lack these and instead collect pollen in their crops.
(2026). 9780801861338, Johns Hopkins University Press.
The appearance of these structures drove the adaptive radiation of the , and, in turn, bees themselves.
(2026). 9781597269087, Island Press. .
Bees and certain mites have indeed coevolved, with some bee species evolving specialized structures called that serve as lodgings for mites, demonstrating a mutualistic relationship. Mites residing in these acarinaria can benefit their bee hosts by eating fungi that attack pollen and brood, leading to reduced fungal contamination and improved bee survivorship.

Phylogeny
External
Molecular phylogeny was used by Debevic et al, 2012, to demonstrate that the bees (Anthophila) arose from deep within the , which was thus rendered . In their study, the placement of the monogeneric was uncertain. The small family was not included in this analysis.

Further studies by Sann et al., 2018, elevated the subfamilies (plus one tribe and one subtribe) of sensu lato to family status. They also recovered the placement of Heterogyna within and sunk . The newly erected family, , formerly a subtribe of , was recovered as the most sister family to bees.

Internal
This cladogram of the bee families is based on Hedtke et al., 2013, which places the former families Dasypodaidae and Meganomiidae as subfamilies inside the Melittidae. English names, where available, are given in parentheses.

Characteristics
Bees differ from closely related groups such as wasps by having branched or plume-like (hairs), combs on the forelimbs for cleaning their antennae, small anatomical differences in limb structure, and the venation of the hind wings. In females, the seventh dorsal abdominal plate is also divided into two half-plates.
(2026). 9780521821490, Cambridge University Press. .

Bees have the following characteristics:

  • A pair of large which cover much of the surface of the head. Between and above these are three small simple eyes () which provide information on light intensity.
  • The antennae usually have 13 segments in males and 12 in females, and are geniculate, having an elbow joint part way along. They house large numbers of sense organs that can detect touch (mechanoreceptors), smell and taste; and small, hairlike mechanoreceptors that can detect air movement so as to "hear" sounds.
  • The mouthparts are adapted for both chewing and sucking by having both a pair of mandibles and a long for sucking up nectar.
  • The thorax has three segments, each with a pair of robust legs, and a pair of membranous wings on the hind two segments. The front legs of bees bear combs for cleaning the antennae. In many species the hind legs bear pollen baskets, flattened sections with incurving hairs to secure the collected pollen. The wings are synchronized in flight, and the somewhat smaller hind wings connect to the forewings by a row of hooks along their margin which connect to a groove in the forewing.
  • The abdomen has nine segments, the hindermost three being modified into the sting.
  • Many bees are brightly colored, displaying contrasting bands of yellow, orange, or red against black. These colors function as signals, warning potential predators that the insect may sting or otherwise defend itself,
    (2026). 9780199688678, Oxford University Press.
    although similar warning patterns are also seen in many harmless insects that mimic bees or wasps, a form of Batesian mimicry.

The largest species of bee is thought to be Wallace's giant bee , whose females can attain a length of . The smallest species may be dwarf stingless bees in the tribe whose workers are less than in length.

Sociality
Haplodiploid breeding system
According to inclusive fitness theory, an organism can increase its evolutionary success not only by increasing its own offspring, but also by helping close relatives reproduce. In genetic terms, cooperation is favored when the cost to the helper is less than the product of relatedness and benefit. This condition is more easily met in species such as bees, where the genetic relationships create strong incentives for cooperative behavior.
(2026). 9781118846155, Wiley Blackwell.

Haplodiploidy alone does not explain the evolution of eusociality. Some eusocial species such as are not haplodiploid. Conversely, many haplodiploid species, including most bees, are not eusocial, and even among eusocial bees, queens often mate with several males, producing half sisters that share only about a quarter of their genes. However, since single mating appears to be the ancestral condition in all eusocial lineages studied so far, haplodiploidy may still have played an important role in the early evolution of eusocial behaviour in bees.

Eusociality
Bees may be solitary or may live in various types of community. appears to have arisen independently at least three times in halictid bees. The most advanced of these form colonies; these are characterized by cooperative brood care and a division of labour into reproductive and non-reproductive adults, with overlapping generations. This division of labour creates specialized groups within eusocial societies, called castes. In some species, groups of cohabiting females are sisters. If these sisters share a division of labour, the group is described as . When the group instead includes a mother () and her daughters (), it is considered eusocial. If the castes differ only in behavior and size, as in many paper wasps, the system is primitively eusocial. When the castes show clear morphological differences, the system is described as highly eusocial.
(1974). 9780674811751, Harvard University Press. .

True honey bees (genus Apis, with eight species) are highly eusocial, and are among the best known insects. Their colonies are established by swarms, consisting of a queen and several thousand workers. There are 29 subspecies of one of these species, , native to Europe, the Middle East, and Africa. are a hybrid strain of A. mellifera that escaped from experiments involving crossing European and African subspecies; they are extremely defensive.

are also highly . They practice mass provisioning, with complex nest architecture and perennial colonies also established via swarming.

Many bumblebees are eusocial, similar to the eusocial such as in that the queen initiates a nest on her own rather than by swarming. Bumblebee colonies typically have from 50 to 200 bees at peak population, which occurs in mid to late summer. Nest architecture is simple, limited by the size of the pre-existing nest cavity, and colonies rarely last more than a year. In 2011, the International Union for Conservation of Nature set up the Bumblebee Specialist Group to review the threat status of all bumblebee species worldwide using the IUCN Red List criteria.

There are many more species of primitively eusocial than highly eusocial bees, but they have been studied less often. Most are in the family , or "sweat bees". Colonies are typically small, with a dozen or fewer workers, on average. Queens and workers differ only in size, if at all. Most species have a single season colony cycle, even in the tropics, and only mated females hibernate. A few species have long active seasons and attain colony sizes in the hundreds, such as Halictus hesperus. Some species are eusocial in parts of their range and solitary in others, or have a mix of eusocial and solitary nests in the same population. The (Apidae) include some primitively eusocial species with similar biology. Some bees (Apidae) form primitively eusocial colonies, with progressive provisioning: a larva's food is supplied gradually as it develops, as is the case in honey bees and some bumblebees.

(1974). 9780674811751, Harvard University Press. .

Solitary and communal bees
Most other bees, including familiar insects such as , and are solitary in the sense that every female is fertile, and typically inhabits a nest she constructs herself. There is no division of labor, so these nests lack queens and worker bees. Solitary bees typically produce neither honey nor . Bees collect pollen to feed their young, and have the necessary adaptations to do this. However, certain wasp species such as have similar behaviours, and a few species of bee from carcasses to feed their offspring. Solitary bees are important pollinators; they gather pollen to provision their nests with food for their brood. Often it is mixed with nectar to form a paste-like consistency. Some solitary bees have advanced types of pollen-carrying structures on their bodies. Very few species of solitary bee are being cultured for commercial pollination. Most of these species belong to a distinct set of which are commonly known by their nesting behavior or preferences, namely the carpenter bees, , mason bees, plasterer bees, , , leafcutter bees, and .

Most solitary bees are , digging nests in the ground in a variety of soil textures and conditions, while others create nests in hollow or twigs, or holes in . The female typically creates a compartment (a "cell") with an egg and some provisions for the resulting larva, then seals it off. A nest may consist of numerous cells. When the nest is in wood, usually the last (those closer to the entrance) contain eggs that will become males. The adult does not provide care for the brood once the egg is laid, and usually dies after making one or more nests. The males typically emerge first and are ready for mating when the females emerge. Solitary bees are very unlikely to sting (only in self-defense, if ever), and some (esp. in the family ) are stingless.

While solitary, females each make individual nests. Some species, such as the European mason bee Hoplitis anthocopoides, and the , Amegilla dawsoni, are gregarious, preferring to make nests near others of the same species, and giving the appearance of being social. Large groups of solitary bee nests are called aggregations, to distinguish them from colonies. In some species, multiple females share a common nest, but each makes and provisions her own cells independently. This type of group is called "communal" and is not uncommon. The primary advantage appears to be that a nest entrance is easier to defend from predators and parasites when multiple females use that same entrance regularly.

File:Megachile rotundata.JPG|A leafcutting bee, Megachile rotundata, cutting circles from acacia leaves File:Anthidium February 2008-1.jpg|A solitary bee, Anthidium florentinum (family ), visiting File:Osmia cornifrons.5.1.08.w.jpg|The nests in a hole in dead wood. Bee "hotels" are often sold for this purpose.

Biology
Life cycle
The life cycle of both solitary and social bees involves the laying of an egg, the development through several moults of a legless , a in which the insect undergoes , and the emergence of a winged adult. Most solitary bees and bumble bees in temperate climates overwinter as adults or pupae and emerge in spring when increasing numbers of flowering plants come into bloom. The males usually emerge first and search for females with which to mate. Like the other members of Hymenoptera, bees are ; the sex of a bee is determined by whether or not the egg is fertilized. After mating, a female stores the sperm, and determines which sex is required at the time each individual egg is laid, fertilized eggs producing female offspring and unfertilized eggs, males. Tropical bees may have several generations in a year and no resting stage
(1992). 9780521429092, Cambridge University Press. .

The egg is generally oblong, slightly curved and tapering at one end. Solitary bees, lay each egg in a separate cell with a supply of mixed pollen and nectar next to it. This may be rolled into a pellet or placed in a pile and is known as mass provisioning. Social bee species provision progressively, that is, they feed the larva regularly while it grows. The nest varies from a hole in the ground or in wood, in solitary bees, to a substantial structure with wax combs in bumblebees and honey bees.

In most species, bee larvae are whitish grubs, roughly oval and bluntly-pointed at both ends. They have 15 segments and spiracles in each segment for breathing. They have no legs but move within the cell, helped by tubercles on their sides. They have short horns on the head, jaws for chewing food and an appendage on either side of the mouth tipped with a bristle. There is a gland under the mouth that secretes a viscous liquid which solidifies into the they use to produce a cocoon. The cocoon is semi-transparent and the pupa can be seen through it. Over the course of a few days, the larva undergoes metamorphosis into a winged adult. When ready to emerge, the adult splits its skin dorsally and climbs out of the and breaks out of the cell.

File:Apoidea.jpg|Nest of , wax canopy removed to show winged workers and in irregularly placed wax cells File:Carpenter Bee Galleries.jpeg| nests in a cedar wood beam (sawn open) File:Bienen mit Brut 2.jpg|Honeybees on with eggs and in cells

Flight
In the 1930s, calculations based on the of fixed wings appeared to show that insect flight was impossible, with results taken from equations meant for aircraft to wings that beat rapidly through short arcs. The author of the study remarked that "one should not be surprised that the results of the calculations do not square with reality," but this comment was later taken out of context and gave rise to the myth that "the bumblebee should not be able to fly."

In fact, those early models were never suited to describe how insects fly. Studies later showed that bees and many other insects produce lift through swirling that form along the leading edge of the wing. High-speed imaging and robotic wing experiments confirmed that lift in bees results from rapid wing reversals and high wing-beat frequency, which together sustain the airflow needed to stay in the air.

File:Apis mellifera flying.jpg|Honeybee in flight carrying pollen in File:HoneyBeeFlying.webm|thumbtime=115| on (cultivar Rozanne) and . Second portion taken at 12,000 frames per second with 60 frames shown per second.

Navigation, communication, and finding food
The Karl von Frisch showed that honey bees communicate by the , a pattern of movement that informs other workers about the direction and distance to food. He showed that honey bees use the sun as their main compass but can still locate its position on cloudy days by reading the polarization pattern of skylight. They use with a "rich, map-like organization".

Digestion
The gut of bees is relatively simple, but multiple metabolic strategies exist in the gut . Pollinating bees consume nectar and pollen, which require different digestion strategies by somewhat specialized bacteria. While nectar is a liquid of mostly sugars and so easily absorbed, pollen contains complex : branching and . Approximately five groups of bacteria are involved in digestion. Three groups specialize in simple sugars ( and two groups of ), and two other groups in complex sugars ( and ). Digestion of pectin and hemicellulose is dominated by bacterial Gilliamella and respectively. Bacteria that cannot digest polysaccharides obtain enzymes from their neighbors, and bacteria that lack certain amino acids do the same, creating multiple .

Although most bee species eat and , some do not. The in the genus , consume carrion and the immature stages of wasps, turning meat into a honey-like substance. Bees drink drops from leaves for energy and nutrients.

Ecology
Floral relationships
Most bees are , collecting pollen from a range of flowering plants. Some are , gathering pollen only from one or a few species or genera of closely related plants.
(2026). 9780226874005, University of Chicago Press. .
Some genera in Melittidae and Apidae are highly specialized for collecting plant oils as well as or instead of nectar; they mix the oils with pollen to feed their larvae. Male orchid bees in some species gather aromatic compounds from , which is one of the few cases where male bees are effective pollinators. All bees are able to detect desirable flowers by recognizing ultraviolet patterning on flowers, and by floral odors.
(2026). 9783709163061, Springer Science & Business Media. .
Bumblebees can in addition detect flowers' electromagnetic fields. Once landed, a bee uses nectar quality and pollen taste to determine whether to continue visiting similar flowers.

In rare cases, a species may only be effectively pollinated by a single bee species; some plants are endangered in part because their pollinator is threatened. Such specialist bees are however strongly associated with common, widespread plants visited by multiple pollinator species. For example, in the arid southwestern United States, the creosote bush ( Larrea tridentata) supports more than forty bee species that specialize in collecting its pollen.

As mimics and models
Many bees are colored, typically orange and black, warning of their ability to defend themselves with a powerful sting. As such they are models for by non-stinging insects such as , and ,
(1983). 9780520096455, University of California Press. .
all of which gain a measure of protection by superficially looking and behaving like bees.

Bees are themselves Müllerian mimics of other aposematic insects with the same color scheme, including , and other beetles, and many butterflies and moths () which are themselves distasteful, often through acquiring bitter and poisonous chemicals from their plant food. All the Müllerian mimics, including bees, benefit from the reduced risk of predation that results from their easily recognized warning coloration.

Bees are mimicked by plants such as the which imitates both the appearance and the scent of a female bee; male bees attempt to mate () with the furry lip of the flower, thus pollinating it.

File:Bombylius major on flower.jpg|The bee-fly , a of bees, taking nectar and pollinating a flower File:Ophrys apifera flower1.jpg| lures male bees to attempt to mate with the flower's lip, which resembles a bee perched on a pink flower.

As brood parasites
occur in several bee families including the subfamily . Females of these species lack pollen collecting structures (the scopa) and do not construct their own nests. They typically enter the nests of pollen collecting species, and lay their eggs in cells provisioned by the host bee. When the "cuckoo" bee larva hatches, it consumes the host larva's pollen ball, and often the host egg also. In particular, the Arctic species of Bumblebee, Bombus hyperboreus, is an aggressive brood parasite that invades and enslaves colonies of other bumblebees within the same subgenus, Alpinobombus. Unlike most socially parasitic bumblebees, which have lost the ability to collect pollen, B. hyperboreus retains functional pollen baskets and has been observed gathering pollen and nectar in the field. This retention of foraging ability may be an adaptation to the severe Arctic climate, in which the short breeding season and limited availability of host colonies favor flexibility and a degree of metabolic self-reliance.

In Southern Africa, hives of African honeybees ( A. mellifera scutellata) are being destroyed by parasitic workers of the Cape honeybee, A. m. capensis. These lay eggs (""), escaping normal , leading to the colony's destruction; the parasites can then move to other hives.

(2026). 9781118846155, .

The in the Bombus subgenus Psithyrus are closely related to, and resemble, their hosts in looks and size. This common pattern gave rise to the ecological principle "Emery's rule". Others parasitize bees in different families, like , a , two species of which are cleptoparasites of the genus , while the other species in the same genus attacks bees.

Nocturnal bees
Four bee families (, , , and ) contain some species that are . Most are tropical or subtropical, but some live in arid regions at higher latitudes. These bees have greatly enlarged , which are extremely sensitive to light and dark, though incapable of forming images. Some have refracting superposition compound eyes: these combine the output of many elements of their compound eyes to provide enough light for each retinal photoreceptor. Their ability to fly by night enables them to avoid many predators, and to exploit flowers that produce nectar only or also at night.

Predators, parasites and pathogens
Vertebrate predators of bees include , and flycatchers, which make short sallies to catch insects in flight. Swifts and swallows fly almost continually, catching insects as they go. The honey buzzard attacks bees' nests and eats the larvae. The greater honeyguide interacts with humans by guiding them to the nests of wild bees. The humans break open the nests and take the honey and the bird feeds on the larvae and the wax. Among mammals, predators such as the dig up bumblebee nests and eat both the larvae and any stored food.

Specialist ambush predators of visitors to flowers include , which wait on flowering plants for pollinating insects; , and ,

(2001). 9781139430043, Cambridge University Press. .
some of which (the of the tropics) wait motionless, aggressive mimics camouflaged as flowers. are large wasps that habitually attack bees; the estimated that a single colony of the beewolf Philanthus triangulum might kill several thousand honeybees in a day: all the prey he observed were honeybees. Other predatory insects that sometimes catch bees include and . Honey bees are affected by parasites including and . However, some bees are believed to have a mutualistic relationship with mites.

Some of the genus are associated with bees. They live in bee nests and ride on adult bees for dispersal. They are presumed to feed on fungi, nest materials or pollen. However, the impact they have on bees remains uncertain.

File:Pair of Merops apiaster feeding detail.jpg|The bee-eater, , specializes in feeding on bees; here a male catches a nuptial gift for his mate. File:Wasp and bee August 2008-2.jpg|The beewolf Philanthus triangulum paralysing a bee with its sting

Exposure to chemical stressors
Bees are exposed to a wide range of chemical stressors, both natural and synthetic, though their relative impacts differ sharply. Comparative toxicological studies indicate that synthetic insecticides, such as , are 1,000 to 10,000 times more acutely toxic to honeybees than commonly encountered natural such as and , which are among the most thoroughly studied plant secondary .

Insecticides remain the most damaging chemical stressor for bees. such as , , and interfere with navigation, thermoregulation, and immune responses even at sub-lethal concentrations. Long-term exposure reduces colony growth, foraging success, and queen survival in both laboratory and field conditions. Following EFSA's 2018 risk assessment, outdoor agricultural uses of these active ingredients were banned throughout the European Union. Other synthetic insecticides, including organophosphates and pyrethroids, as well as some fungicide mixtures, act synergistically with parasites and pathogens such as Varroa destructor, a parasitic mite of honeybees, and , compounding the physiological stress on colonies. Industrial emissions and road traffic release traces of heavy metals such as , , and zinc, which can accumulate in hive products and bee tissues. These metals induce oxidative stress, developmental abnormalities and altered foraging behaviour. These substances are much less acutely toxic than insecticides, however their persistence and the fact that they are found everywhere results in chronic exposure that weakens immunity and increases disease susceptibility.

A minority of flowering plants produce secondary metabolites that can become toxic to pollinators when concentrated. Alkaloids, saponins and glycosides in species such as Aesculus californica (California buckeye) and spp. (grayanotoxins) can deter feeding or cause mortality. However, because their occurrence is sporadic and seasonal, natural floral toxins rarely affect colonies at a population level.

Chemical stressors affecting pollinators are best characterized by their acute and sublethal toxicity as well as ecological impact. In this way, synthetic insecticides consistently present the greatest risk across meta-analyses, followed by fungicides and certain industrial pollutants. Natural floral toxins (plant secondary metabolites) are typically sublethal. As well, they rarely drive population declines and are minor in impact compared to anthropogenic chemicals.

Overall, synthetic agrochemicals (particularly insecticides and some fungicides) and industrial pollutants remain the dominant chemical drivers of pollinator decline,whereas the majority of natural floral toxins have sublethal impacts that do not generally contribute to major population-level effects.

Relationship with humans
In mythology and folklore
's describes three bee-maidens with the power of and thus speaking truth, and identifies the food of the gods as honey. Sources associated the bee maidens with and, until the 1980s, scholars followed Gottfried Hermann (1806) in incorrectly identifying the bee-maidens with the .Susan Scheinberg, "The Bee Maidens of the Homeric Hymn to Hermes", in Albert Heinrichs, ed., Harvard Studies in Classical Philology (Cambridge MA: Harvard University Press, 1980), 11. ; and many others since questioning Gottfried Hermann's 1806 equation of the Thriae with bee-maidens. Heinrich Gottfried, Homeri nomine dignissimum/Homeric Hymns (Leipzig: 1806), 346 and cxiii. Many took Hermann's unfounded identification at face-value, repeating it ad nauseam, e.g. Hilda M. Ransome, The Sacred Bee in Ancient Times and Folklore (NY: Courier, 1937; reprinted as recently as NY: Dover, 2012), 97. Honey, according to a Greek myth, was discovered by a nymph called ("Bee"); and honey was offered to the Greek gods from . Bees were also associated with the and the prophetess was sometimes called a bee.

The image of a community of honey bees has been used from ancient to modern times, in and ; in and Seneca; in and ; , and by political and social theorists such as Bernard Mandeville and as a model for human .

(2026). 9780719565984, John Murray.
In English folklore, bees would be told of important events in the household, in a custom known as "Telling the bees".
(2006). 9780141941622, . .
Honey bees, signifying immortality and resurrection, were royal heraldic emblems of the , revived by Napoleon. Eagle and the bee on the Napoleonic coat of arms

In art and literature
Some of the oldest examples of bees in art are in which have been dated to 15,000 BC.
(2008). 9781402045592, Springer Science & Business Media. .

W. B. Yeats's poem The Lake Isle of Innisfree (1888) contains the couplet "Nine bean rows will I have there, a hive for the honey bee, / And live alone in the bee loud glade." At the time he was living in Bedford Park in the West of London. 's illustrated book The Tale of Mrs Tittlemouse (1910) features Babbity Bumble and her brood (pictured). ' treasure hunt book The Bee on the Comb (1984) uses bees and beekeeping as part of its story and puzzle. Sue Monk Kidd's The Secret Life of Bees (2004), and the 2009 film starring , tells the story of a girl who escapes her abusive home and finds her way to live with a family of beekeepers, the Boatwrights.

Bees have appeared in films such as 's animated , or Eugene Schlusser's A Sting in the Tale (2014). The playwright 's The Bees (2015) tells the tale of a hive bee named Flora 717 from hatching onwards.

Beekeeping
Humans have kept honey bee colonies, commonly in , for millennia. Depictions of humans collecting honey from wild bees date to 15,000 years ago; efforts to domesticate them are shown in Egyptian art around 4,500 years ago. Simple hives and smoke were used.

Among Classical Era authors, beekeeping with the use of smoke is described in Aristotle's History of Animals Book 9. The account mentions that bees die after stinging; that workers remove corpses from the hive, and guard it; castes including workers and non-working drones, but "kings" rather than queens; predators including toads and bee-eaters; and the , with the "irresistible suggestion" of άροσειονται ("aroseiontai", it waggles) and παρακολουθούσιν ("parakolouthousin", they watch). Beekeeping is described in detail by in his ; it is mentioned in his , and in Pliny's Natural History.

From the 18th century, European understanding of the colonies and biology of bees allowed the construction of the moveable comb hive so that honey could be harvested without destroying the colony.Thomas Wildman, A Treatise on the Management of Bees (London, 1768, 2nd edn 1770).

File:Beekeeper.jpg|A commercial beekeeper at work File:Western honey bee on a honeycomb.jpg|Western honey bee on a honeycomb

As commercial pollinators
Bees play an important role in , and are the major type of in many that contain flowering plants. It is estimated that one third of the human food supply depends on by insects, birds and bats, most of which is accomplished by bees, whether wild or domesticated.

Since the 1970s, there has been a general decline in the species richness of wild bees and other pollinators, probably attributable to stress from increased parasites and disease, the use of pesticides, and a decrease in the number of wild flowers. Climate change probably exacerbates the problem. This is a major cause of concern, as it can cause biodiversity loss and ecosystem degradation as well as increase climate change.

Contract pollination has overtaken the role of honey production for in many countries. After the introduction of , honey bees declined dramatically in the US, though their numbers have since recovered. The number of colonies kept by beekeepers declined slightly, through , systematic pesticide use, and mites, and the closure of beekeeping businesses. In 2006 and 2007 the rate of attrition increased, and was described as colony collapse disorder. In 2010 invertebrate iridescent virus and the fungus were shown to be in every killed colony, and deadly in combination.Johnson, Kirk (6 October 2010) Scientists and Soldiers Solve a Bee Mystery . The New York Times. "Honey bees in US facing extinction" , The Daily Telegraph (London), 14 March 2007. Winter losses increased to about 1/3.Benjamin, Alison (2 May 2010) Fears for crops as shock figures from America show scale of bee catastrophe . (London). Varroa mites were thought to be responsible for about half the losses.

Apart from colony collapse disorder, losses outside the US have been attributed to causes including pesticide seed dressings, using such as , and . From 2013 the restricted some pesticides to stop bee populations from declining further. In 2014 the Intergovernmental Panel on Climate Change report warned that bees faced increased risk of extinction because of .Gosden, Emily (29 March 2014) Bees and the crops they pollinate are at risk from climate change, IPCC report to warn The Daily Telegraph (London). Retrieved 30 March 2014 In 2018 the European Union decided to ban field use of all three major neonicotinoids; they remain permitted in veterinary, greenhouse, and vehicle transport usage.

Farmers have focused on alternative solutions to mitigate these problems. By raising native plants, they provide food for native bee pollinators like Lasioglossum vierecki and L. leucozonium,Adamson, Nancy Lee. An Assessment of Non-Apis Bees as Fruit and Vegetable Crop Pollinators in Southwest Virginia . Diss. 2011. Web. 15 October 2015. leading to less reliance on honey bee populations.

File:Peponapis pruinosaCane-12.JPG| (Apidae) are important pollinators of and . File:A bee covered with pollen.jpg|A mason bee ( Osmia sp.) covered in pollen File:Bee migration 9045 (cropped).JPG|US migratory commercial beekeeper moving many hives of spring bees from to for blueberry pollination

As food producers
Honey is a natural product produced by bees and stored for their own use, but its sweetness has always appealed to humans. Before domestication of bees was even attempted, humans were raiding their nests for their honey. Smoke was often used to subdue the bees and such activities are depicted in in Spain dated to 15,000 BC. Honey bees are used commercially to produce .

As food
Bees are considered . People in some countries , including the larvae and pupae of bees, mostly stingless species. They also gather larvae, pupae and surrounding cells, known as , for consumption. In the dish from Central and East , bee larvae are eaten as a companion to , after being mixed with shredded , wrapped in leaves, and steamed. (This particular Botok recipe uses anchovies, not bees)

Bee brood (pupae and larvae) although low in , has been found to be high in and , and a useful source of , , , and trace minerals , , , and . In addition, while bee brood was high in fat, it contained no fat soluble vitamins (such as A, D, and E) but it was a good source of most of the water-soluble including as well as vitamin C. The fat was composed mostly of and monounsaturated fatty acids with 2.0% being polyunsaturated fatty acids.

File:Botoktawon.jpg|Bee larvae as food in the dish File:Fried bees dish.jpg|Fried whole bees served in a Ukrainian restaurant

As alternative medicine
is a branch of alternative medicine that uses honey bee products, including , , pollen, , and (Bee ). The claim that apitherapy treats cancer, which some proponents of apitherapy make, remains unsupported by evidence-based medicine.
(2026). 9789814335669, World Scientific.
(2026). 9780944235713, American Cancer Society. .

Stings
The painful are mostly associated with the poison gland and the Dufour's gland which are abdominal exocrine glands containing various chemicals. In Lasioglossum leucozonium, the Dufour's Gland mostly contains as well as some . There is also evidence of n-triscosane, n-, and 22-docosanolide.

See also
  • Australian native bees
  • Fear of bees (apiphobia)
  • World Bee Day

Notes
External links

:
Page 1 of 1
1
Page 1 of 1
1

Account

Social:
Pages:  ..   .. 
Items:  .. 
Click to view the UPC Scavenger App on google play.

Navigation

General: Atom Feed Atom Feed  .. 
Help:  ..   .. 
Category:  ..   .. 
Media:  ..   .. 
Posts:  ..   ..   .. 

Statistics

Page:  .. 
Summary:  .. 
1 Tags
10/10 Page Rank
5 Page Refs
8s Time