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Bee

January 12, 2023

This article is about the group of flying insects. For other uses, see Bee (disambiguation).
"Anthophila" redirects here. For the moth genus, see Anthophila (moth).

Bees are winged insects closely related to wasps and ants, known for their roles in pollination and, in the case of the best-known bee species, the western honey bee, for producing honey. Bees are a monophyletic lineage within the superfamily Apoidea. They are presently considered a clade, called Anthophila. There are over 16,000 known species of bees in seven recognized biological families.[1][2] Some species – including honey bees, bumblebees, and stingless bees – live socially in colonies while most species (>90%) – including mason bees, carpenter bees, leafcutter bees, and sweat bees – are solitary.

Bees
Temporal range: Late Cretaceous – Present, 100–0 Ma
The sugarbag bee, Tetragonula carbonaria
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
(unranked): Unicalcarida
Suborder: Apocrita
Superfamily: Apoidea
Clade: Anthophila
Families
Synonyms

Apiformes (from Latin 'apis')

Bees are found on every continent except Antarctica, in every habitat on the planet that contains insect-pollinated flowering plants. The most common bees in the Northern Hemisphere are the Halictidae, 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 2 millimetres (0.08 in) long,[3] to Megachile pluto, the largest species of leafcutter bee, whose females can attain a length of 39 millimetres (1.54 in).

Bees feed on nectar and pollen, the former primarily as an energy source and the latter primarily for protein and other nutrients. Most pollen is used as food for their larvae. Vertebrate predators of bees include primates and birds such as bee-eaters; insect predators include beewolves and dragonflies.

Bee pollination is important both ecologically and commercially, and the decline in wild bees has increased the value of pollination by commercially managed hives of honey bees. The analysis of 353 wild bee and hoverfly species across Britain from 1980 to 2013 found the insects have been lost from a quarter of the places they inhabited in 1980.[4]

Human beekeeping or apiculture (meliponiculture for stingless bees) has been practised for millennia, since at least the times of Ancient Egypt and Ancient Greece. 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 Mesoamerica, the Mayans have practiced large-scale intensive meliponiculture since pre-Columbian times.[3]

Evolution

The immediate ancestors of bees were stinging wasps in the family Crabronidae, which were predators 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 evolutionary scenario may have occurred within the vespoid wasps, where the pollen wasps evolved from predatory ancestors. The oldest non-compression bee fossil is found in New Jersey amber, Cretotrigona prisca, a corbiculate bee of Cretaceous age (~65 mya).[5] A fossil from the early Cretaceous (~100 mya), Melittosphex burmensis, was initially considered "an extinct lineage of pollen-collecting Apoidea sister to the modern bees",[6] but subsequent research has rejected the claim that Melittosphex is a bee, or even a member of the superfamily Apoidea to which bees belong, instead treating the lineage as incertae sedis within the Aculeata.[7] By the Eocene (~45 mya) there was already considerable diversity among eusocial bee lineages.[8][a]

The highly eusocial corbiculate Apidae appeared roughly 87 Mya, and the Allodapini (within the Apidae) around 53 Mya.[11] The Colletidae appear as fossils only from the late Oligocene (~25 Mya) to early Miocene.[12] The Melittidae are known from Palaeomacropis eocenicus in the Early Eocene.[13] The Megachilidae are known from trace fossils (characteristic leaf cuttings) from the Middle Eocene.[14] The Andrenidae are known from the Eocene-Oligocene boundary, around 34 Mya, of the Florissant shale.[15] The Halictidae first appear in the Early Eocene[16] with species[17][18] found in amber. The Stenotritidae are known from fossil brood cells of Pleistocene age.[19]

Coevolution

 
Long-tongued bees and long-tubed flowers coevolved, like this Amegilla cingulata (Apidae) on Acanthus ilicifolius.
Further information: Coevolution

The earliest animal-pollinated flowers were shallow, cup-shaped blooms pollinated by insects such as beetles, so the syndrome of insect pollination was well established before the first appearance of bees. The novelty is that bees are specialized as pollination agents, with behavioral and physical modifications that specifically enhance pollination, and are the most efficient pollinating insects. In a process of coevolution, flowers developed floral rewards[20] such as nectar and longer tubes, and bees developed longer tongues to extract the nectar.[21] Bees also developed structures known as scopal hairs and pollen baskets 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 pollen baskets on their hind legs, while very few lack these and instead collect pollen in their crops.[2] The appearance of these structures drove the adaptive radiation of the angiosperms, and, in turn, bees themselves.[9] Bees coevolved not only with flowers but it is believed that some species coevolved with mites. Some provide tufts of hairs called acarinaria that appear to provide lodgings for mites; in return, it is believed that mites eat fungi that attack pollen, so the relationship in this case may be mutualistic.[22][23]

Phylogeny

External

This phylogenetic tree is based on Debevic et al, 2012, which used molecular phylogeny to demonstrate that the bees (Anthophila) arose from deep within the Crabronidae, which is therefore paraphyletic. The placement of the Heterogynaidae is uncertain.[24] The small subfamily Mellininae was not included in this analysis.

Apoidea

Ampulicidae (Cockroach wasps)  

Heterogynaidae (possible placement #1)

(rest of "Crabronidae")

Bembicini  

Nyssonini, Astatinae  

Heterogynaidae (possible placement #2)

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.[25] English names, where available, are given in parentheses.

Anthophila (bees)

Melittidae (inc. Dasypodainae, Meganomiinae) at least 50 Mya  

long-tongued bees

Apidae (inc. honeybees, cuckoo bees, carpenter bees) ≈87 Mya  

Megachilidae (mason, leafcutter bees) ≈50 Mya  

short-tongued bees

Andrenidae (mining bees) ≈34 Mya  

Halictidae (sweat bees) ≈50 Mya  

Colletidae (plasterer bees) ≈25 Mya  

Stenotritidae (large Australian bees) ≈2 Mya  

See also: Characteristics of common wasps and bees

Characteristics

 
The lapping mouthparts of a honey bee, showing labium and maxillae

Bees differ from closely related groups such as wasps by having branched or plume-like setae (hairs), combs on the forelimbs for cleaning their antennae, small anatomical differences in limb structure, and the venation of the hind wings; and in females, by having the seventh dorsal abdominal plate divided into two half-plates.[26]

Bees have the following characteristics:

  • A pair of large compound eyes which cover much of the surface of the head. Between and above these are three small simple eyes (ocelli) 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 proboscis for sucking up nectar.[27]
  • 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 corbiculate bees bear combs for cleaning the antennae, and in many species the hind legs bear pollen baskets, flattened sections with incurving hairs to secure the collected pollen. The wings are synchronised 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.[27]
 
Head-on view of a male carpenter bee, showing antennae, three ocelli, compound eyes, and mouthparts

The largest species of bee is thought to be Wallace's giant bee Megachile pluto, whose females can attain a length of 39 millimetres (1.54 in).[28] The smallest species may be dwarf stingless bees in the tribe Meliponini whose workers are less than 2 millimetres (0.08 in) in length.[29]

Sociality

Haplodiploid breeding system

Further information: Haplodiploidy
 
Willing to die for their sisters: worker honey bees killed defending their hive against yellowjackets, along with a dead yellowjacket. Such altruistic behaviour may be favoured by the haplodiploid sex determination system of bees.

According to inclusive fitness theory, organisms can gain fitness not just through increasing their own reproductive output, but also that of close relatives. In evolutionary terms, individuals should help relatives when Cost < Relatedness * Benefit. The requirements for eusociality are more easily fulfilled by haplodiploid species such as bees because of their unusual relatedness structure.[30]

In haplodiploid species, females develop from fertilized eggs and males from unfertilized eggs. Because a male is haploid (has only one copy of each gene), his daughters (which are diploid, with two copies of each gene) share 100% of his genes and 50% of their mother's. Therefore, they share 75% of their genes with each other. This mechanism of sex determination gives rise to what W. D. Hamilton termed "supersisters", more closely related to their sisters than they would be to their own offspring.[31] Workers often do not reproduce, but they can pass on more of their genes by helping to raise their sisters (as queens) than they would by having their own offspring (each of which would only have 50% of their genes), assuming they would produce similar numbers. This unusual situation has been proposed as an explanation of the multiple (at least nine) evolutions of eusociality within Hymenoptera.[32][33]

Haplodiploidy is neither necessary nor sufficient for eusociality. Some eusocial species such as termites are not haplodiploid. Conversely, all bees are haplodiploid but not all are eusocial, and among eusocial species many queens mate with multiple males, creating half-sisters that share only 25% of each-other's genes.[34] But, monogamy (queens mating singly) is the ancestral state for all eusocial species so far investigated, so it is likely that haplodiploidy contributed to the evolution of eusociality in bees.[32]

Eusociality

 
Western honey bee nest in the trunk of a spruce
Further information: Eusociality

Bees may be solitary or may live in various types of communities. Eusociality appears to have originated from at least three independent origins in halictid bees.[35] The most advanced of these are species with eusocial colonies; these are characterised by cooperative brood care and a division of labour into reproductive and non-reproductive adults, plus overlapping generations.[36] This division of labour creates specialized groups within eusocial societies which are called castes. In some species, groups of cohabiting females may be sisters, and if there is a division of labour within the group, they are considered semisocial. The group is called eusocial if, in addition, the group consists of a mother (the queen) and her daughters (workers). When the castes are purely behavioural alternatives, with no morphological differentiation other than size, the system is considered primitively eusocial, as in many paper wasps; when the castes are morphologically discrete, the system is considered highly eusocial.[21]

True honey bees (genus Apis, of which eight species are currently recognized) 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, Apis mellifera, native to Europe, the Middle East, and Africa. Africanized bees are a hybrid strain of A. mellifera that escaped from experiments involving crossing European and African subspecies; they are extremely defensive.[37]

Stingless bees are also highly eusocial. They practise mass provisioning, with complex nest architecture and perennial colonies also established via swarming.[3][38]

 
A bumblebee carrying pollen in its pollen baskets (corbiculae)

Many bumblebees are eusocial, similar to the eusocial Vespidae such as hornets 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.[39] 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.[40]

There are many more species of primitively eusocial than highly eusocial bees, but they have been studied less often. Most are in the family Halictidae, 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.[41] Some species are eusocial in parts of their range and solitary in others,[42] or have a mix of eusocial and solitary nests in the same population.[43] The orchid bees (Apidae) include some primitively eusocial species with similar biology. Some allodapine 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.[44]

Solitary and communal bees

 
A leafcutting bee, Megachile rotundata, cutting circles from acacia leaves

Most other bees, including familiar insects such as carpenter bees, leafcutter bees and mason bees 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 for these species. Solitary bees typically produce neither honey nor beeswax. Bees collect pollen to feed their young, and have the necessary adaptations to do this. However, certain wasp species such as pollen wasps have similar behaviours, and a few species of bee scavenge from carcases to feed their offspring.[26] 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 genera which are commonly known by their nesting behavior or preferences, namely: carpenter bees, sweat bees, mason bees, plasterer bees, squash bees, dwarf carpenter bees, leafcutter bees, alkali bees and digger bees.[45]

 
A solitary bee, Anthidium florentinum (family Megachilidae), visiting Lantana

Most solitary bees are fossorial, digging nests in the ground in a variety of soil textures and conditions, while others create nests in hollow reeds or twigs, or holes in wood. 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 Andrenidae) are stingless.[46][47]

 
The mason bee Osmia cornifrons nests in a hole in dead wood. Bee "hotels" are often sold for this purpose.

While solitary, females each make individual nests.[48] Some species, such as the European mason bee Hoplitis anthocopoides,[49] and the Dawson's Burrowing bee, Amegilla dawsoni,[50] 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.[49]

Biology

Life cycle

Further information: Honey bee life cycle

The life cycle of a bee, be it a solitary or social species, involves the laying of an egg, the development through several moults of a legless larva, a pupation stage during which the insect undergoes complete metamorphosis, followed by the emergence of a winged adult. The number of eggs laid by a female during her lifetime can vary from eight or less in some solitary bees, to more than a million in highly social species.[51] 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 haplodiploid; the sex of a bee is determined by whether or not the egg is fertilised. After mating, a female stores the sperm, and determines which sex is required at the time each individual egg is laid, fertilised eggs producing female offspring and unfertilised eggs, males. Tropical bees may have several generations in a year and no diapause stage.[52][53][54][55]

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.[56]

In most species, 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 silk 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 exuviae and breaks out of the cell.[56]

Flight

 
Honeybee in flight carrying pollen in pollen basket
Further information: Insect flight

Antoine Magnan's 1934 book Le vol des insectes says that he and André Sainte-Laguë had applied the equations of air resistance to insects and found that their flight could not be explained by fixed-wing calculations, but that "One shouldn't be surprised that the results of the calculations don't square with reality".[57] This has led to a common misconception that bees "violate aerodynamic theory". In fact it merely confirms that bees do not engage in fixed-wing flight, and that their flight is explained by other mechanics, such as those used by helicopters.[58] In 1996 it was shown that vortices created by many insects' wings helped to provide lift.[59] High-speed cinematography[60] and robotic mock-up of a bee wing[61] showed that lift was generated by "the unconventional combination of short, choppy wing strokes, a rapid rotation of the wing as it flops over and reverses direction, and a very fast wing-beat frequency". Wing-beat frequency normally increases as size decreases, but as the bee's wing beat covers such a small arc, it flaps approximately 230 times per second, faster than a fruitfly (200 times per second) which is 80 times smaller.[62]

Navigation, communication, and finding food

 
Karl von Frisch (1953) discovered that honey bee workers can navigate, indicating the range and direction to food to other workers with a waggle dance.
Further information: Animal navigation and Waggle dance

The ethologist Karl von Frisch studied navigation in the honey bee. He showed that honey bees communicate by the waggle dance, in which a worker indicates the location of a food source to other workers in the hive. He demonstrated that bees can recognize a desired compass direction in three different ways: by the sun, by the polarization pattern of the blue sky, and by the earth's magnetic field. He showed that the sun is the preferred or main compass; the other mechanisms are used under cloudy skies or inside a dark beehive.[63] Bees navigate using spatial memory with a "rich, map-like organization".[64]

Digestion

The gut of bees is relatively simple, but multiple metabolic strategies exist in the gut microbiota.[65] Pollinating bees consume nectar and pollen, which require different digestion strategies by somewhat specialized bacteria. While nectar is a liquid of mostly monosaccharide sugars and so easily absorbed, pollen contains complex polysaccharides: branching pectin and hemicellulose.[66] Approximately five groups of bacteria are involved in digestion. Three groups specialize in simple sugars (Snodgrassella and two groups of Lactobacillus), and two other groups in complex sugars (Gilliamella and Bifidobacterium). Digestion of pectin and hemicellulose is dominated by bacterial clades Gilliamella and Bifidobacterium respectively. Bacteria that cannot digest polysaccharides obtain enzymes from their neighbors, and bacteria that lack certain amino acids do the same, creating multiple ecological niches.[67]

Although most bee species are nectarivorous and palynivorous, some are not. Particularly unusual are vulture bees in the genus Trigona, which consume carrion and wasp brood, turning meat into a honey-like substance.[68]

Ecology

Floral relationships

Most bees are polylectic (generalist) meaning they collect pollen from a range of flowering plants, but some are oligoleges (specialists), in that they only gather pollen from one or a few species or genera of closely related plants.[69] Specialist pollinators also include bee species which gather floral oils instead of pollen, and male orchid bees, which gather aromatic compounds from orchids (one of the few cases where male bees are effective pollinators). Bees are able to sense the presence of desirable flowers through ultraviolet patterning on flowers, floral odors,[70] and even electromagnetic fields.[71] Once landed, a bee then uses nectar quality[70] and pollen taste[72] to determine whether to continue visiting similar flowers.

In rare cases, a plant species may only be effectively pollinated by a single bee species, and some plants are endangered at least in part because their pollinator is also threatened. But, there is a pronounced tendency for oligolectic bees to be associated with common, widespread plants visited by multiple pollinator species. For example, the creosote bush in the arid parts of the United States southwest is associated with some 40 oligoleges.[73]

As mimics and models

 
The bee-fly Bombylius major, a Batesian mimic of bees, taking nectar and pollinating a flower
Main articles: Mimicry, Batesian mimicry, and Müllerian mimicry
 
Bee orchid lures male bees to attempt to mate with the flower's lip, which resembles a bee perched on a pink flower.

Many bees are aposematically coloured, typically orange and black, warning of their ability to defend themselves with a powerful sting. As such they are models for Batesian mimicry by non-stinging insects such as bee-flies, robber flies and hoverflies,[74] all of which gain a measure of protection by superficially looking and behaving like bees.[74]

Bees are themselves Müllerian mimics of other aposematic insects with the same colour scheme, including wasps, lycid and other beetles, and many butterflies and moths (Lepidoptera) 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 recognised warning coloration.[75]

Bees are also mimicked by plants such as the bee orchid which imitates both the appearance and the scent of a female bee; male bees attempt to mate (pseudocopulation) with the furry lip of the flower, thus pollinating it.[76]

As brood parasites

Main articles: Brood parasite and Nest usurpation

Brood parasites occur in several bee families including the apid subfamily Nomadinae.[77] 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.[78] In particular, the Arctic bee species, Bombus hyperboreus is an aggressive species that attacks and enslaves other bees of the same subgenus. However, unlike many other bee brood parasites, they have pollen baskets and often collect pollen.[79]

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 diploid eggs ("thelytoky"), escaping normal worker policing, leading to the colony's destruction; the parasites can then move to other hives.[80]

The cuckoo bees 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 Townsendiella, a nomadine apid, two species of which are cleptoparasites of the dasypodaid genus Hesperapis,[81] while the other species in the same genus attacks halictid bees.[82]

Nocturnal bees

Four bee families (Andrenidae, Colletidae, Halictidae, and Apidae) contain some species that are crepuscular. Most are tropical or subtropical, but some live in arid regions at higher latitudes. These bees have greatly enlarged ocelli, 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.[83]

Predators, parasites and pathogens

Further information: Diseases of the honey bee
 
The bee-eater, Merops apiaster, specialises in feeding on bees; here a male catches a nuptial gift for his mate.

Vertebrate predators of bees include bee-eaters, shrikes and flycatchers, which make short sallies to catch insects in flight.[84] Swifts and swallows[84] fly almost continually, catching insects as they go. The honey buzzard attacks bees' nests and eats the larvae.[85] 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.[86] Among mammals, predators such as the badger dig up bumblebee nests and eat both the larvae and any stored food.[87]

 
The beewolf Philanthus triangulum paralysing a bee with its sting

Specialist ambush predators of visitors to flowers include crab spiders, which wait on flowering plants for pollinating insects; predatory bugs, and praying mantises,[84] some of which (the flower mantises of the tropics) wait motionless, aggressive mimics camouflaged as flowers.[88] Beewolves are large wasps that habitually attack bees;[84] the ethologist Niko Tinbergen 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.[89] Other predatory insects that sometimes catch bees include robber flies and dragonflies.[84] Honey bees are affected by parasites including tracheal and Varroa mites.[90] However, some bees are believed to have a mutualistic relationship with mites.[23]

Some mites of genus Tarsonemus 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.[91]

Relationship with humans

In mythology and folklore

Main article: Bees in mythology
 
Gold plaques embossed with winged bee goddesses. Camiros, Rhodes. 7th century BC.

Homer's Hymn to Hermes describes three bee-maidens with the power of divination and thus speaking truth, and identifies the food of the gods as honey. Sources associated the bee maidens with Apollo and, until the 1980s, scholars followed Gottfried Hermann (1806) in incorrectly identifying the bee-maidens with the Thriae.[92] Honey, according to a Greek myth, was discovered by a nymph called Melissa ("Bee"); and honey was offered to the Greek gods from Mycenean times. Bees were also associated with the Delphic oracle and the prophetess was sometimes called a bee.[93]

The image of a community of honey bees has been used from ancient to modern times, in Aristotle and Plato; in Virgil and Seneca; in Erasmus and Shakespeare; Tolstoy, and by political and social theorists such as Bernard Mandeville and Karl Marx as a model for human society.[94] In English folklore, bees would be told of important events in the household, in a custom known as "Telling the bees".[95]

In art and literature

 
Beatrix Potter's illustration of Babbity Bumble in The Tale of Mrs Tittlemouse, 1910

Some of the oldest examples of bees in art are rock paintings in Spain which have been dated to 15,000 BC.[96]

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.[97] Beatrix Potter's illustrated book The Tale of Mrs Tittlemouse (1910) features Babbity Bumble and her brood (pictured). Kit Williams' 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 Dakota Fanning, tells the story of a girl who escapes her abusive home and finds her way to live with a family of beekeepers, the Boatwrights.

The 2007 animated comedy film Bee Movie used Jerry Seinfeld's first script and was his first work for children; he starred as a bee named Barry B. Benson, alongside Renée Zellweger. Critics found its premise awkward and its delivery tame.[98] Dave Goulson's A Sting in the Tale (2014) describes his efforts to save bumblebees in Britain, as well as much about their biology. The playwright Laline Paull's fantasy The Bees (2015) tells the tale of a hive bee named Flora 717 from hatching onwards.[99]

Beekeeping

Main article: Beekeeping
 
A commercial beekeeper at work
 
Western honey bee on a honeycomb

Humans have kept honey bee colonies, commonly in hives, for millennia. Beekeepers collect honey, beeswax, propolis, pollen, and royal jelly from hives; bees are also kept to pollinate crops and to produce bees for sale to other beekeepers.

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.[100] Simple hives and smoke were used;[101][102] jars of honey were found in the tombs of pharaohs such as Tutankhamun. 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.[103][104] Among Classical Era authors, beekeeping with the use of smoke is described in Aristotle's History of Animals Book 9.[105] 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 waggle dance, with the "irresistible suggestion" of άροσειονται ("aroseiontai", it waggles) and παρακολουθούσιν ("parakolouthousin", they watch).[106][b]

Beekeeping is described in detail by Virgil in his Georgics; it is also mentioned in his Aeneid, and in Pliny's Natural History.[106]

As commercial pollinators

See also: List of crop plants pollinated by bees, Pollinator decline, and Pesticide toxicity to bees

Bees play an important role in pollinating flowering plants, and are the major type of pollinator in many ecosystems that contain flowering plants. It is estimated that one third of the human food supply depends on pollination by insects, birds and bats, most of which is accomplished by bees, whether wild or domesticated.[107][108] Over the last half century, 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 general decrease in the number of wild flowers. Climate change probably exacerbates the problem.[109]

Contract pollination has overtaken the role of honey production for beekeepers in many countries. After the introduction of Varroa mites, feral honey bees declined dramatically in the US, though their numbers have since recovered.[110][111] The number of colonies kept by beekeepers declined slightly, through urbanization, systematic pesticide use, tracheal and Varroa mites, and the closure of beekeeping businesses. In 2006 and 2007 the rate of attrition increased, and was described as colony collapse disorder.[112] In 2010 invertebrate iridescent virus and the fungus Nosema ceranae were shown to be in every killed colony, and deadly in combination.[113][114][115][116] Winter losses increased to about 1/3.[117][118] Varroa mites were thought to be responsible for about half the losses.[119]

Apart from colony collapse disorder, losses outside the US have been attributed to causes including pesticide seed dressings, using neonicotinoids such as clothianidin, imidacloprid and thiamethoxam.[120][121] From 2013 the European Union restricted some pesticides to stop bee populations from declining further.[122] In 2014 the Intergovernmental Panel on Climate Change report warned that bees faced increased risk of extinction because of global warming.[123] 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.[124]

Farmers have focused on alternative solutions to mitigate these problems. By raising native plants, they provide food for native bee pollinators like Lasioglossum vierecki[125] and L. leucozonium,[126] leading to less reliance on honey bee populations.

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 rock paintings in Spain dated to 15,000 BC.[96]

Honey bees are used commercially to produce honey.[127] They also produce some substances used as dietary supplements with possible health benefits, pollen,[128] propolis,[129] and royal jelly,[130] though all of these can also cause allergic reactions.

As food

Bees are considered edible insects. People in some countries eat insects, including the larvae and pupae of bees, mostly stingless species. They also gather larvae, pupae and surrounding cells, known as bee brood, for consumption.[131] In the Indonesian dish botok tawon from Central and East Java, bee larvae are eaten as a companion to rice, after being mixed with shredded coconut, wrapped in banana leaves, and steamed.[132][133]

Bee brood (pupae and larvae) although low in calcium, has been found to be high in protein and carbohydrate, and a useful source of phosphorus, magnesium, potassium, and trace minerals iron, zinc, copper, and selenium. 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 B vitamins including choline as well as vitamin C. The fat was composed mostly of saturated and monounsaturated fatty acids with 2.0% being polyunsaturated fatty acids.[134][135]

  •  

    Bee larvae as food in the Javanese dish botok tawon

  •  

    Fried whole bees served in a Ukrainian restaurant

As alternative medicine

Apitherapy is a branch of alternative medicine that uses honey bee products, including raw honey, royal jelly, pollen, propolis, beeswax and apitoxin (Bee venom).[136] The claim that apitherapy treats cancer, which some proponents of apitherapy make, remains unsupported by evidence-based medicine.[137][138]

Stings

The painful stings of bees 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 octadecanolide as well as some eicosanolide. There is also evidence of n-triscosane, n-heptacosane,[139] and 22-docosanolide.[140] However, the secretions of these glands could also be used for nest construction.[139]

See also

Explanatory notes

  1. ^ Triassic nests in a petrified forest in Arizona, implying that bees evolved much earlier,[9] are now thought to be beetle borings.[10]
  2. ^ In D'Arcy Thompson's translation: "At early dawn they make no noise, until some one particular bee makes a buzzing noise two or three times and thereby awakes the rest; hereupon they all fly in a body to work. By and by they return and at first are noisy; ... until at last some one bee flies round about, making a buzzing noise, and apparently calling on the others to go to sleep".[105]

References

  1. ^ Danforth, B. N.; Sipes, S.; Fang, J.; Brady, S. G. (October 2006). "The history of early bee diversification based on five genes plus morphology". PNAS. 103 (41): 15118–15123. Bibcode:2006PNAS..10315118D. doi:10.1073/pnas.0604033103. PMC 1586180. PMID 17015826.
  2. ^ a b Michener, Charles D. (2000). The Bees of the World. Johns Hopkins University Press. pp. 19–25. ISBN 0-8018--6133-0.
  3. ^ a b c Grüter, Christoph (2020). Stingless Bees: Their Behaviour, Ecology and Evolution. Fascinating Life Sciences. Springer New York. doi:10.1007/978-3-030-60090-7. ISBN 978-3-030-60089-1. S2CID 227250633.
  4. ^ "Widespread losses of pollinating insects revealed across Britain". The Guardian. 26 March 2019.
  5. ^ Cardinal, Sophie; Danforth, Bryan N. (2011). "The Antiquity and Evolutionary History of Social Behavior in Bees". PLOS ONE. 6 (6): e21086. Bibcode:2011PLoSO...621086C. doi:10.1371/journal.pone.0021086. PMC 3113908. PMID 21695157.
  6. ^ Poinar, G. O.; Danforth, B. N. (2006). (PDF). Science. 314 (5799): 614. doi:10.1126/science.1134103. PMID 17068254. S2CID 28047407. Archived from the original (PDF) on 4 December 2012.
  7. ^ Rosa, B. B.; Melo, G. A. R. (2021). "Apoid wasps (Hymenoptera: Apoidea) from mid-Cretaceous amber of northern Myanmar". Cretaceous Research. 122: Article 104770. doi:10.1016/j.cretres.2021.104770. ISSN 0195-6671. S2CID 234071940.
  8. ^ Engel, Michael S. (2001). "Monophyly and Extensive Extinction of Advanced Eusocial Bees: Insights from an Unexpected Eocene Diversity". PNAS. National Academy of Sciences. 98 (4): 1661–1664. Bibcode:2001PNAS...98.1661E. doi:10.1073/pnas.041600198. JSTOR 3054932. PMC 29313. PMID 11172007.
  9. ^ a b Buchmann, Stephen L.; Nabhan, Gary Paul (2012). The Forgotten Pollinators. Island Press. pp. 41–42. ISBN 978-1-59726-908-7. from the original on 27 May 2016.
  10. ^ Lucas, Spencer G.; Minter, Nicholas J.; Hunt, Adrian P. (February 2010). "Re-evaluation of alleged bees' nests from the Upper Triassic of Arizona". Palaeogeography, Palaeoclimatology, Palaeoecology. 286 (3–4): 194–201. Bibcode:2010PPP...286..194L. doi:10.1016/j.palaeo.2010.01.010.
  11. ^ Danforth, Bryan; Cardinal, Sophie; Praz, Christophe; Almeida, Eduardo; Michez, Denis (28 August 2012). "The Impact of Molecular Data on Our Understanding of Bee Phylogeny and Evolution". Annual Review of Entomology. 58: 57–78. doi:10.1146/annurev-ento-120811-153633. PMID 22934982. S2CID 28274420.
  12. ^ Almeida, Eduardo A. B.; Pie, Marcio R.; Brady, Sean G.; Danforth, Bryan N. (2012). "Biogeography and diversification of colletid bees (Hymenoptera: Colletidae): emerging patterns from the southern end of the world" (PDF). Journal of Biogeography. 39 (3): 526–544. doi:10.1111/j.1365-2699.2011.02624.x. S2CID 34626231. (PDF) from the original on 21 September 2013.
  13. ^ Michez, Denis; Nel, Andre; Menier, Jean-Jacques; Rasmont, Pierre (2007). "The oldest fossil of a melittid bee (Hymenoptera: Apiformes) from the early Eocene of Oise (France)" (PDF). Zoological Journal of the Linnean Society. 150 (4): 701–709. doi:10.1111/j.1096-3642.2007.00307.x. (PDF) from the original on 23 September 2015.
  14. ^ Sarzetti, Laura C.; Lanandeira, Conrad C.; Genise, Jorge F. (2008). "A Leafcutter Bee Trace Fossil from the Middle Eocene of Patagonia, Argentina, and a Review of Megachilid (Hymenoptera) Ichnology". Palaeontology. 51 (4): 933–994. doi:10.1111/j.1475-4983.2008.00787.x. (PDF) from the original on 24 September 2015.
  15. ^ Dewulf, Alexandre; De Meulemeester, Thibaut; Dehon, Manuel; Engel, Michael S.; Michez, Denis (2014). "A new interpretation of the bee fossil Melitta willardi Cockerell (Hymenoptera, Melittidae) based on geometric morphometrics of the wing". ZooKeys (389): 35–48. doi:10.3897/zookeys.389.7076. PMC 3974431. PMID 24715773.
  16. ^ Engel, M.S.; Archibald, S.B. (2003). "An Early Eocene bee (Hymenoptera: Halictidae) from Quilchena, British Columbia" (PDF). The Canadian Entomologist. 135 (1): 63–69. doi:10.4039/n02-030. hdl:1808/16473. S2CID 54053341. (PDF) from the original on 12 August 2017.
  17. ^ Engel, M.S. (1995). "Neocorynura electra, a New Fossil Bee Species from Dominican Amber (Hymenoptera:Halictidae)". Journal of the New York Entomological Society. 103 (3): 317–323. JSTOR 25010174.
  18. ^ Engel, M.S. (2000). "Classification of the bee tribe Augochlorini (Hymenoptera, Halictidae)" (PDF). Bulletin of the American Museum of Natural History. 250: 1. doi:10.1206/0003-0090(2000)250<0001:COTBTA>2.0.CO;2. hdl:2246/1598. S2CID 85810077. (PDF) from the original on 10 January 2011.
  19. ^ Houston, T.F. (1987). "Fossil brood cells of stenotritid bees (Hymenoptera: Apoidea) from the Pleistocene of South Australia". Transactions of the Royal Society of South Australia. 1111–2: 93–97. from the original on 1 July 2015.
  20. ^ Armbruster, W. Scott (2012). "3". In Patiny, Sébastien (ed.). Evolution of Plant-Pollinator Relationships. Cambridge University Press. pp. 45–67.
  21. ^ a b Michener, Charles Duncan (1974). The Social Behavior of the Bees: A Comparative Study. Harvard University Press. pp. 22–78. ISBN 978-0-674-81175-1.
  22. ^ Biani, Natalia B.; Mueller, Ulrich G.; Wcislo, William T. (June 2009). "Cleaner Mites: Sanitary Mutualism in the Miniature Ecosystem of Neotropical Bee Nests" (PDF). The American Naturalist. 173 (6): 841–847. doi:10.1086/598497. hdl:2152/31261. PMID 19371167. S2CID 4845087. (PDF) from the original on 28 March 2018.
  23. ^ a b Klimov, Pavel B.; OConnor, Barry M.; Knowles, L. Lacey (June 2007). "Museum Specimens And Phylogenies Elucidate Ecology's Role in Coevolutionary Associations Between Mites And Their Bee Hosts" (PDF). Evolution. 61 (6): 1368–1379. doi:10.1111/j.1558-5646.2007.00119.x. hdl:2027.42/74970. PMID 17542846. S2CID 32318137. (PDF) from the original on 4 May 2019.
  24. ^ Debevec, Andrew H.; Cardinal, Sophie; Danforth, Bryan N. (2012). "Identifying the sister group to the bees: a molecular phylogeny of Aculeata with an emphasis on the superfamily Apoidea" (PDF). Zoologica Scripta. 41 (5): 527–535. doi:10.1111/j.1463-6409.2012.00549.x. S2CID 33533180. (PDF) from the original on 23 September 2015.
  25. ^ Hedtke, Shannon M.; Patiny, Sébastien; Danforth, Bryan M. (2013). "The bee tree of life: a supermatrix approach to apoid phylogeny and biogeography". BMC Evolutionary Biology. 13 (138): 138. doi:10.1186/1471-2148-13-138. PMC 3706286. PMID 23822725.
  26. ^ a b Grimaldi, David; Engel, Michael S. (2005). Evolution of the Insects. Cambridge University Press. p. 454. ISBN 978-0-521-82149-0. from the original on 28 March 2018.
  27. ^ a b "Anatomy of the Honey Bee". Extension. 19 June 2014. from the original on 1 July 2015. Retrieved 30 June 2015.
  28. ^ Messer, A. C. (1984). "Chalicodoma pluto: The World's Largest Bee Rediscovered Living Communally in Termite Nests (Hymenoptera: Megachilidae)". Journal of the Kansas Entomological Society. 57 (1): 165–168. JSTOR 25084498.
  29. ^ Sakagami, Shôichi F.; Zucchi, Ronaldo (1974). "Oviposition Behavior of Two Dwarf Stingless Bees, Hypotrigona (Leurotrigona) muelleri and H. (Trigonisca) duckei, with Notes on the Temporal Articulation of Oviposition Process in Stingless Bees" (PDF). Journal of the Faculty of Science Hokkaido University Series Vi. Zoology. 19 (2): 361–421. (PDF) from the original on 4 March 2016.
  30. ^ Hughes, W. O. H.; Oldroyd, B. P.; Beekman, M.; Ratnieks, F. L. W. (2008). "Ancestral Monogamy Shows Kin Selection is Key to the Evolution of Eusociality". Science. 320 (5880): 1213–1216. Bibcode:2008Sci...320.1213H. doi:10.1126/science.1156108. PMID 18511689. S2CID 20388889.
  31. ^ Hamilton, W. D. (20 March 1964). "The Genetical Evolution of Social Behaviour II". Journal of Theoretical Biology. 7 (1): 17–52. Bibcode:1964JThBi...7...17H. doi:10.1016/0022-5193(64)90039-6. PMID 5875340.
  32. ^ a b Hughes, William O. H.; Oldroyd, Benjamin P.; Beekman, Madeleine; Ratnieks, Francis L. W. (May 2008). "Ancestral Monogamy Shows Kin Selection Is Key to the Evolution of Eusociality". Science. American Association for the Advancement of Science. 320 (5880): 1213–1216. Bibcode:2008Sci...320.1213H. doi:10.1126/science.1156108. PMID 18511689. S2CID 20388889.
  33. ^ Gullan, P. J.; Cranston, P. S. (2014). The Insects: An Outline of Entomology (5th ed.). Wiley Blackwell. pp. 328, 348–350. ISBN 978-1-118-84615-5.
  34. ^ Nowak, Martin; Tarnita, Corina; Wilson, E.O. (2010). "The evolution of eusociality". Nature. 466 (7310): 1057–1062. Bibcode:2010Natur.466.1057N. doi:10.1038/nature09205. PMC 3279739. PMID 20740005.
  35. ^ Brady, Seán G.; Sipes, Sedonia; Pearson, Adam; Danforth, Bryan N. (2006). "Recent and simultaneous origins of eusociality in halictid bees". Proceedings of the Royal Society of London B: Biological Sciences. 273 (1594): 1643–1649. doi:10.1098/rspb.2006.3496. ISSN 0962-8452. PMC 1634925. PMID 16769636.
  36. ^ Wilson, Edward O (1971). The Insect Societies. Cambridge, Mass: Belknap Press of Harvard University Press.
  37. ^ Sanford, Malcolm T. (2006). "The Africanized Honey Bee in the Americas: A Biological Revolution with Human Cultural Implications". Apis Enterprises. Archived from the original on 29 March 2015. Retrieved 29 March 2015.
  38. ^ Roubik, D. W. (2006). "Stingless bee nesting biology" (PDF). Apidologie. 37 (2): 124–143. doi:10.1051/apido:2006026. Archived (PDF) from the original on 9 October 2022.
  39. ^ . Bumblebee Conservation Trust. Archived from the original on 22 September 2017. Retrieved 26 June 2015.
  40. ^ "Bumblebee Specialist Group: 2011 Update" (PDF). IUCN. (PDF) from the original on 3 December 2012. Retrieved 7 October 2012.
  41. ^ Brooks, R. W.; Roubik, D. W. (1983). "A Halictine bee with distinct castes: Halictus hesperus (Hymenoptera: Halictidae) and its bionomics in Central Panama". Sociobiology. 7: 263–282.
  42. ^ Eickwort, G. C.; Eickwort, J. M.; Gordon, J.; Eickwort, M. A.; Wcislo, W. T. (1996). "Solitary behavior in a high-altitude population of the social sweat bee Halictus rubicundus (Hymenoptera: Halictidae)". Behavioral Ecology and Sociobiology. 38 (4): 227–233. doi:10.1007/s002650050236. S2CID 12868253.
  43. ^ Yanega, D. (1993). "Environmental effects on male production and social structure in Halictus rubicundus (Hymenoptera: Halictidae)". Insectes Sociaux. 40: 169–180. doi:10.1007/bf01240705. S2CID 44934383.
  44. ^ Michener, Charles Duncan (1974). The Social Behavior of the Bees: A Comparative Study. Harvard University Press. p. 308. ISBN 978-0-674-81175-1. from the original on 24 December 2016.
  45. ^ Parker, Frank D.; Torchio, Philip F. (1 October 1980). "Management of Wild Bees". Beesource Beekeeping Community. from the original on 26 June 2015. Retrieved 26 June 2015.
  46. ^ . Royal Entomological Society. Archived from the original on 2 July 2017. Retrieved 12 October 2015.
  47. ^ . Bumblebee Conservation Trust. Archived from the original on 5 September 2015. Retrieved 12 October 2015.
  48. ^ Westreich, Lila. "Spring signals female bees to lay the next generation of pollinators". The Conversation. Retrieved 8 October 2020.
  49. ^ a b Eickwort, George C. (1975). "Gregarious Nesting of the Mason Bee Hoplitis anthocopoides and the Evolution of Parasitism and Sociality Among Megachilid Bees". Evolution. 29 (1): 142–150. doi:10.2307/2407147. JSTOR 2407147. PMID 28563288.
  50. ^ Alcock, John (1 May 1999). "The Nesting Behavior of Dawson's Burrowing Bee, Amegilla dawsoni (Hymenoptera: Anthophorini), and the Production of Offspring of Different Sizes". Journal of Insect Behavior. 12 (3): 363–384. doi:10.1023/A:1020843606530. ISSN 0892-7553. S2CID 24832889.
  51. ^ The Bees of the World, Volum 1
  52. ^ Roubik, David W. (1992). Ecology and Natural History of Tropical Bees. Cambridge University Press. p. 15. ISBN 978-0-521-42909-2. from the original on 17 June 2016.
  53. ^ "The bumblebee lifecycle". Bumblebee Conservation Trust. from the original on 29 June 2015. Retrieved 1 July 2015.
  54. ^ "Learning About Honey Bees". The South Carolina Mid-State Beekeepers Association. from the original on 1 July 2015. Retrieved 1 July 2015.
  55. ^ "Solitary Bees". National Bee Unit. from the original on 1 July 2015. Retrieved 1 July 2015.
  56. ^ a b Shuckard, William Edward (1866). British bees: an introduction to the study of the natural history and economy of the bees indigenous to the British Isles. L. Reeve & Co. pp. 18–23.
  57. ^ Ingram, Jay (2001) The Barmaid's Brain, Aurum Press, pp. 91–92, ISBN 0716741202.
  58. ^ Adams, Cecil (4 May 1990). "Is it aerodynamically impossible for bumblebees to fly?". The Straight Dope. from the original on 3 March 2009. Retrieved 7 March 2009.
  59. ^ "Life, animal and plant news, articles and features". New Scientist. 9 March 2016. from the original on 7 October 2008. Retrieved 16 March 2016.
  60. ^ "Images of flight". New Scientist. from the original on 23 March 2016. Retrieved 16 March 2016.
  61. ^ "Deciphering the Mystery of Bee Flight". California Institute of Technology. 29 November 2005. from the original on 17 September 2016. Retrieved 8 September 2016. Re: work of Dr. Michael H. Dickinson.
  62. ^ Altshuler, Douglas L.; Dickson, William B.; Vance, Jason T.; Roberts, Stephen P.; Dickinson, Michael H. (2005). "Short-amplitude high-frequency wing strokes determine the aerodynamics of honeybee flight". Proceedings of the National Academy of Sciences. 102 (50): 18213–18218. Bibcode:2005PNAS..10218213A. doi:10.1073/pnas.0506590102. PMC 1312389. PMID 16330767.
  63. ^ von Frisch, Karl (1953). The Dancing Bees. Harcourt, Brace & World. pp. 93–96.
  64. ^ Menzel, Randolf; Greggers, Uwe; Smith, Alan; Berger, Sandra; Brandt, Robert; Brunke, Sascha; Bundrock, Gesine; Hülse, Sandra; Plümpe, Tobias; Schaupp, Schaupp; Schüttler, Elke; Stach, Silke; Stindt, Jan; Stollhoff, Nicola; Watzl, Sebastian (2005). "Honey bees Navigate According to a Map-Like Spatial Memory". PNAS. 102 (8): 3040–3045. Bibcode:2005PNAS..102.3040M. doi:10.1073/pnas.0408550102. PMC 549458. PMID 15710880.
  65. ^ "How honey bee gut bacteria help to digest their pollen-rich diet". ScienceDaily. Retrieved 2 January 2020.
  66. ^ "Bee gut microbes have a division of labor when it comes to metabolizing complex polysaccharides". phys.org. Retrieved 2 January 2020.
  67. ^ Zheng, Hao; Perreau, Julie; Powell, J. Elijah; Han, Benfeng; Zhang, Zijing; Kwong, Waldan K.; Tringe, Susannah G.; Moran, Nancy A. (December 2019). "Division of labor in honey bee gut microbiota for plant polysaccharide digestion". Proceedings of the National Academy of Sciences. 116 (51): 25909–25916. doi:10.1073/pnas.1916224116. ISSN 0027-8424. PMC 6926048. PMID 31776248.
  68. ^ Mateus, Sidnei; Noll, Fernando B. (February 2004). "Predatory behavior in a necrophagous bee Trigona hypogea (Hymenoptera; Apidae, Meliponini)". Naturwissenschaften. 91 (2): 94–96. Bibcode:2004NW.....91...94M. doi:10.1007/s00114-003-0497-1. ISSN 1432-1904. PMID 14991148. S2CID 26518321.
  69. ^ Waser, Nickolas M. (2006). Plant-Pollinator Interactions: From Specialization to Generalization. University of Chicago Press. pp. 110–. ISBN 978-0-226-87400-5. from the original on 28 March 2018.
  70. ^ a b Dafni, Amots; Hesse, Michael; Pacini, Ettore (2012). Pollen and Pollination. Springer Science & Business Media. p. 80. ISBN 978-3-7091-6306-1. from the original on 28 March 2018.
  71. ^ Suttona, Gregory P.; Clarkea, Dominic; Morleya, Erica L.; Robert, Daniel (2016). "Mechanosensory hairs in bumblebees (Bombus terrestris) detect weak electric fields". PNAS. 113 (26): 7261–7265. doi:10.1073/pnas.1601624113. PMC 4932954. PMID 27247399.
  72. ^ Muth, Felicity; Francis, Jacob S.; Leonard, Anne S. (2016). "Bees use the taste of pollen to determine which flowers to visit". Biology Letters. 12 (7): 20160356. doi:10.1098/rsbl.2016.0356. PMC 4971173. PMID 27405383.
  73. ^ Hurd, P.D. Jr.; Linsley, E.G. (1975). "The principal Larrea bees of the southwestern United States". Smithsonian Contributions to Zoology. 193 (193): 1–74. doi:10.5479/si.00810282.193.
  74. ^ a b Thorp, Robbin W.; Horning, Donald S.; Dunning, Lorry L. (1983). Bumble Bees and Cuckoo Bumble Bees of California (Hymenoptera, Apidae). University of California Press. p. 9. ISBN 978-0-520-09645-5. from the original on 5 January 2017. Of the forms of mimicry, two relate to Bombini. Batesian mimicry .. is exemplified by members of several families of flies: Syrphidae, Asilidae, Tabanidae, Oestridae, and Bombyliidae (Gabritschevsky, 1926).
  75. ^ Cott, Hugh (1940). Adaptive Coloration in Animals. Oxford University Press. pp. 196, 403 and passim.
  76. ^ "Bee Orchids and Insect Mimicry". Natural History Museum. from the original on 8 July 2015. Retrieved 1 July 2015.
  77. ^ "Obligate Brood Parasitism". Aculeata Research Group. from the original on 7 July 2015. Retrieved 30 June 2015.
  78. ^ "Brood Parasitism". Amateur Entomologists' Society. from the original on 2 July 2015. Retrieved 30 June 2015.
  79. ^ Gjershaug, Jan Ove (5 June 2009). "The social parasite bumblebee Bombus hyperboreus Schönherr, 1809 usurp nest of Bombus balteatus Dahlbom, 1832 (Hymenoptera, Apidae) in Norway" (PDF). Norwegian Journal of Entomology 56(1): 28–31. Retrieved 26 September 2015.
  80. ^ Gullan, P. J.; Cranston, P. S. (2014). The Insects: An Outline of Entomology (5th ed.). Wiley Blackwell. p. 347. ISBN 978-1-118-84615-5.
  81. ^ Rozen, Jerome George; McGinley, Ronald J. (1991). "Biology and Larvae of the Cleptoparasitic Bee Townsendiella pulchra and Nesting Biology of its Host Hesperapis larreae (Hymenoptera, Apoidea)". American Museum Novitates (3005). hdl:2246/5032.
  82. ^ Moure, Jesus S.; Hurd, Paul David (1987). An Annotated Catalog of the Halictid Bees of the Western Hemisphere (Hymenoptera, Halictidae). Smithsonian Institution Press. pp. 28–29.
  83. ^ Warrant, Eric J. (June 2008). "Seeing in the dark: vision and visual behaviour in nocturnal bees and wasps". Journal of Experimental Biology. 211 (11): 1737–1746. doi:10.1242/jeb.015396. PMID 18490389.
  84. ^ a b c d e Chittka, Lars; Thomson, James D. (28 May 2001). Cognitive Ecology of Pollination: Animal Behaviour and Floral Evolution. Cambridge University Press. pp. 215–216. ISBN 978-1-139-43004-3. from the original on 24 December 2016.
  85. ^ "Hornet attacks kill dozens in China". The Guardian. 26 September 2013. from the original on 6 September 2015. Retrieved 18 June 2015.
  86. ^ Friedmann, Herbert (1955). "The Honey-Guides". Bulletin of the United States National Museum (208): 1–292. doi:10.5479/si.03629236.208.1. hdl:10088/10101.
  87. ^ . Bumblebee Conservation Trust. Archived from the original on 29 June 2015. Retrieved 29 June 2015.
  88. ^ Choi, Charles Q. (30 November 2013). "Found! First Known Predator To Lure Prey By Mimicking Flowers". LiveScience. from the original on 30 June 2015. Retrieved 2 July 2015. the color of the orchid mantis was indistinguishable from 13 species of wild flowers in the areas the predator lived. ... The orchid mantis is unique in that the mantis itself is the attractive stimulus.
  89. ^ Tinbergen, Niko (1958). Curious Naturalists. Methuen. p. 21.
  90. ^ "Honey Bee Disorders: Honey Bee Parasites". University of Georgia. from the original on 1 July 2015. Retrieved 29 June 2015.
  91. ^ "Tarsonemus | Bee Mite ID". idtools.org. Retrieved 25 August 2022.
  92. ^ 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. ISBN 0674379306; 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. ISBN 0486122980
  93. ^ Scheinberg, Susan (1979). "The Bee Maidens of the Homeric Hymn to Hermes". Harvard Studies in Classical Philology. 83: 1–28. doi:10.2307/311093. JSTOR 311093.
  94. ^ Wilson, Bee (2004). The Hive: the Story of the Honeybee. London: John Murray. ISBN 0-7195-6598-7.
  95. ^ Steve Roud (6 April 2006). The Penguin Guide to the Superstitions of Britain and Ireland. Penguin Books. p. 128. ISBN 978-0-14-194162-2. from the original on 28 November 2016.
  96. ^ a b Encyclopaedia of the History of Science, Technology, and Medicine in Non-Western Cultures. Springer Science & Business Media. 12 March 2008. p. 1074. ISBN 978-1-4020-4559-2. from the original on 4 July 2014.
  97. ^ Deering, Chris. "Yeats in Bedford Park". ChiswickW4.com. from the original on 30 June 2015. Retrieved 28 June 2015.
  98. ^ "Bee Movie". Rotten Tomatoes. from the original on 23 June 2015. Retrieved 30 June 2015.
  99. ^ Jones, Gwyneth (21 May 2014). "The Bees by Laline Paull review – a fantasy with a sting in its tail". The Guardian. from the original on 1 July 2015. Retrieved 28 June 2015.
  100. ^ "Ancient Egypt: Bee-keeping". Reshafim.org.il. 6 April 2003. from the original on 9 March 2016. Retrieved 16 March 2016.
  101. ^ "Beekeeping in Ancient Egypt". Bee Lore. 23 February 2008. from the original on 22 March 2016. Retrieved 16 March 2016.
  102. ^ Bodenheimer, F. S. (1960). Animal and Man in Bible Lands. Brill Archive. p. 79.
  103. ^ Thomas Wildman, A Treatise on the Management of Bees (London, 1768, 2nd edn 1770).
  104. ^ Harissis, H. V.; Mavrofridis, G. (2012). "A 17th Century Testimony on the Use of Ceramic Top-bar Hives". Bee World. 89 (3): 56–57. doi:10.1080/0005772x.2012.11417481. S2CID 85120138. from the original on 19 October 2015.
  105. ^ a b Aristotle; Thompson, D'Arcy (trans.) (1910). The Works of Aristotle. Clarendon Press. pp. Book 9, Section 40.
  106. ^ a b Whitfield, B. G. (October 1956). "Cambridge University Press and The Classical Association are collaborating with JSTOR to digitize, preserve and extend access to Greece & Rome. Virgil and the Bees: A Study in Ancient Apicultural Lor". Greece and Rome. 3 (2): 99–117. doi:10.1017/S0017383500015126. JSTOR 641360. S2CID 161643666.
  107. ^ Yang, Sarah (25 October 2006). "Pollinators help one-third of world's crop production, says new study". UC Berkeley. from the original on 9 July 2015. Retrieved 29 June 2015.
  108. ^ Connor, Steve (16 June 2015). "Wild bees just as important as domesticated bees for pollinating food crops". The Independent. from the original on 6 September 2017. Wild bees have become as important as domesticated honeybees in pollinating food crops around the world due to the dramatic decline in number of healthy honeybee colonies over the past half century, a study has found.
  109. ^ Goulson, Dave; Nicholls, Elizabeth; Botías, Cristina; Rotheray, Ellen L. (2015). "Bee declines driven by combined stress from parasites, pesticides, and lack of flowers". Science. 347 (6229): 1255957. doi:10.1126/science.1255957. PMID 25721506. S2CID 206558985.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  110. ^ Loper, Gerald M.; Sammataro, Diana; Finley, Jennifer; Cole, Jerry (2006). "Feral honey bees in southern Arizona, 10 years after varroa infestation". American Bee Journal. 146: 521–524.
  111. ^ Rangel, Juliana; Giresi, Melissa; Pinto, Maria Alice; Baum, Kristen A.; Rubink, William L.; Coulson, Robert N.; Johnston, John Spencer (2016). "Africanization of a feral honey bee (Apis mellifera) population in South Texas: does a decade make a difference?". Ecology and Evolution. 6 (7): 2158–2169. doi:10.1002/ece3.1974. PMC 4782243. PMID 27069571.
  112. ^ "Honey Bee Die-Off Alarms Beekeepers, Crop Growers and Researchers". Pennsylvania State University College of Agricultural Sciences. 29 January 2007. from the original on 17 May 2008.
  113. ^ Johnson, Kirk (6 October 2010) Scientists and Soldiers Solve a Bee Mystery 7 October 2010 at the Wayback Machine. The New York Times.
  114. ^ Eban, Katherine (8 October 2010). "What a scientist didn't tell the New York Times about his study on bee deaths". CNN. from the original on 19 October 2012. Retrieved 20 August 2012.
  115. ^ Jerry J. Bromenshenk; Colin B. Henderson; Charles H. Wick; Michael F. Stanford; Alan W. Zulich; Rabih E. Jabbour; Samir V. Deshpande; Patrick E. McCubbin; Robert A. Seccomb; Phillip M. Welch; Trevor Williams; David R. Firth; Evan Skowronski; Margaret M. Lehmann; Shan L. Bilimoria; Joanna Gress; Kevin W. Wanner; Robert A. Cramer Jr (6 October 2010). "Iridovirus and Microsporidian Linked to Honey Bee Colony Decline". PLOS ONE. 5 (10): e13181. Bibcode:2010PLoSO...513181B. doi:10.1371/journal.pone.0013181. PMC 2950847. PMID 20949138.
  116. ^ "Honey bees in US facing extinction" 6 September 2008 at the Wayback Machine, The Daily Telegraph (London), 14 March 2007.
  117. ^ Benjamin, Alison (2 May 2010) Fears for crops as shock figures from America show scale of bee catastrophe 4 December 2013 at the Wayback Machine. The Observer (London).
  118. ^ "Beekeepers Report Continued Heavy Losses From Colony Collapse Disorder". Sciencedaily.com. 12 May 2008. from the original on 31 July 2010. Retrieved 22 June 2010.
  119. ^ "Hiver fatal pour la moitié des colonies d'abeilles en Suisse". Radio Télévision Suisse. 22 May 2012. from the original on 12 November 2012. Retrieved 22 May 2012.
  120. ^ Storkstad, Erik (30 March 2012). "Field Research on Bees Raises Concern About Low-Dose Pesticides". Science. 335 (6076): 1555. Bibcode:2012Sci...335.1555S. doi:10.1126/science.335.6076.1555. PMID 22461580. S2CID 206597443.
  121. ^ "EFSA identifies risks to bees from neonicotinoids | European Food Safety Authority". Efsa.europa.eu. 20 September 2012. from the original on 28 July 2015. Retrieved 16 March 2016.
  122. ^ "EU moves to protect bees". 3 News NZ. 30 April 2013. from the original on 29 July 2013.
  123. ^ Gosden, Emily (29 March 2014) Bees and the crops they pollinate are at risk from climate change, IPCC report to warn 29 August 2014 at the Wayback Machine The Daily Telegraph (London). Retrieved 30 March 2014
  124. ^ Carrington, Damian (27 April 2018). "EU agrees total ban on bee-harming pesticides". The Guardian.
  125. ^ Kuehn, F. Coordinator. (2015). Farming for native bees. World Wide Web electronic publication. Retrieved from "Archived copy". from the original on 30 September 2015. Retrieved 4 November 2015.{{cite web}}: CS1 maint: archived copy as title (link). (Accessed: 22 September 2015).
  126. ^ Adamson, Nancy Lee. An Assessment of Non-Apis Bees as Fruit and Vegetable Crop Pollinators in Southwest Virginia 20 November 2015 at the Wayback Machine. Diss. 2011. Web. 15 October 2015.
  127. ^ Hunt, C.L.; Atwater, H.W. (7 April 1915). Honey and Its Uses in the Home. US Department of Agriculture, Farmers' Bulletin, No. 653. Retrieved 14 July 2015.{{cite book}}: CS1 maint: uses authors parameter (link)
  128. ^ Sanford, Malcolm T. . University of Florida, Institute of Food and Agricultural Sciences. Archived from the original on 13 January 2007. Retrieved 15 July 2015.
  129. ^ "Propolis:MedlinePlus Supplements". U.S. National Library of Medicine. 19 January 2012. from the original on 30 June 2016.
  130. ^ European Food Safety Authority (EFSA) Panel on Dietetic Products, Nutrition and Allergies (2011). "Scientific Opinion". EFSA Journal. 9 (4): 2083. doi:10.2903/j.efsa.2011.2083.
  131. ^ Holland, Jennifer (14 May 2013). "U.N. Urges Eating Insects: 8 Popular Bugs to Try". National Geographic. from the original on 16 July 2015. Retrieved 16 July 2015.
  132. ^ "Botok Tempe Tahu Teri (Botok Tempe Tofu Anchovy)". Tasty Indonesian Food. from the original on 26 June 2015. Retrieved 22 June 2015. (This particular Botok recipe uses anchovies, not bees)
  133. ^ Haris, Emmaria (6 December 2013). (in Indonesian). Sayangi.com. Archived from the original on 22 June 2015. Retrieved 22 June 2015.
  134. ^ Fink, Mark D. (2007). "Nutrient Composition of Bee Brood and its Potential as Human Food". Ecology of Food and Nutrition. Taylor & Francis, Ecology Food and Nutrition. 44 (4): 257–270. doi:10.1080/03670240500187278. S2CID 84191573.
  135. ^ Annette Bruun Jensen (2016). "Standard methods for Apis mellifera brood as human food". Journal of Apicultural Research. Taylor & Francis, Journal of Apicultural Research. 58 (2): 1–28. doi:10.1080/00218839.2016.1226606.
  136. ^ "What is apitherapy?". MedicineWorld.Org. from the original on 18 June 2015. Retrieved 20 January 2018.
  137. ^ Barry R., Cassileth (2011). "Chapter 36: Apitherapy". The Complete Guide to Complementary Therapies in Cancer Care: Essential Information for Patients, Survivors and Health Professionals. World Scientific. pp. 221–224. ISBN 978-981-4335-66-9. from the original on 7 March 2017.
  138. ^ Ades, Terri B.; Russel, Jill, eds. (2009). "Chapter 9: Pharmacologic and Biologic Therapies". American Cancer Society Complete Guide to Complementary and Alternative Cancer Therapies (2nd ed.). American Cancer Society. pp. 704–708. ISBN 978-0-944235-71-3.
  139. ^ a b Hefetz, Abraham; Blum, Murray; Eickwort, George; Wheeler, James (1978). "Chemistry of the dufour's gland secretion of halictine bees". Comparative Biochemistry and Physiology B. 61 (1): 129–132. doi:10.1016/0305-0491(78)90229-8.
  140. ^ Johansson, Ingela (1982). "Systematic relationship of halictinae bees based on the pattern of macrocyclic lactones in the Dufour gland secretion". Insect Biochemistry. 12 (2): 161–170. doi:10.1016/0020-1790(82)90004-X.

External links

 
Wikiquote has quotations related to Bees.
 
Wikimedia Commons has media related to Anthophila
(Bees).
 
Wikispecies has information related to Apoidea.
 
Wikibooks has a book on the topic of: Beekeeping
  • "Bees". Encyclopedia of Life.
  • "Apoidea" at All Living Things – images, identification guides, and maps of bees
  • Anthophila (Apoidea) – Bees – North American species of bees at BugGuide
  • Native Bees of North America at BugGuide
  • "Bee declines driven by combined stress from parasites, pesticides, and lack of flowers" – Science

January 12, 2023
this, article, about, group, flying, insects, other, uses, disambiguation, anthophila, redirects, here, moth, genus, anthophila, moth, winged, insects, closely, related, wasps, ants, known, their, roles, pollination, case, best, known, species, western, honey,. This article is about the group of flying insects For other uses see Bee disambiguation Anthophila redirects here For the moth genus see Anthophila moth Bees are winged insects closely related to wasps and ants known for their roles in pollination and in the case of the best known bee species the western honey bee for producing honey Bees are a monophyletic lineage within the superfamily Apoidea They are presently considered a clade called Anthophila There are over 16 000 known species of bees in seven recognized biological families 1 2 Some species including honey bees bumblebees and stingless bees live socially in colonies while most species gt 90 including mason bees carpenter bees leafcutter bees and sweat bees are solitary BeesTemporal range Late Cretaceous Present 100 0 Ma PreꞒ Ꞓ O S D C P T J K Pg NThe sugarbag bee Tetragonula carbonariaScientific classificationKingdom AnimaliaPhylum ArthropodaClass InsectaOrder Hymenoptera unranked UnicalcaridaSuborder ApocritaSuperfamily ApoideaClade AnthophilaFamiliesAndrenidae Apidae Colletidae Halictidae Megachilidae Melittidae StenotritidaeSynonymsApiformes from Latin apis Bees are found on every continent except Antarctica in every habitat on the planet that contains insect pollinated flowering plants The most common bees in the Northern Hemisphere are the Halictidae 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 2 millimetres 0 08 in long 3 to Megachile pluto the largest species of leafcutter bee whose females can attain a length of 39 millimetres 1 54 in Bees feed on nectar and pollen the former primarily as an energy source and the latter primarily for protein and other nutrients Most pollen is used as food for their larvae Vertebrate predators of bees include primates and birds such as bee eaters insect predators include beewolves and dragonflies Bee pollination is important both ecologically and commercially and the decline in wild bees has increased the value of pollination by commercially managed hives of honey bees The analysis of 353 wild bee and hoverfly species across Britain from 1980 to 2013 found the insects have been lost from a quarter of the places they inhabited in 1980 4 Human beekeeping or apiculture meliponiculture for stingless bees has been practised for millennia since at least the times of Ancient Egypt and Ancient Greece 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 Mesoamerica the Mayans have practiced large scale intensive meliponiculture since pre Columbian times 3 Contents 1 Evolution 1 1 Coevolution 1 2 Phylogeny 1 2 1 External 1 2 2 Internal 2 Characteristics 3 Sociality 3 1 Haplodiploid breeding system 3 2 Eusociality 3 3 Solitary and communal bees 4 Biology 4 1 Life cycle 4 2 Flight 4 3 Navigation communication and finding food 4 4 Digestion 5 Ecology 5 1 Floral relationships 5 2 As mimics and models 5 3 As brood parasites 5 4 Nocturnal bees 5 5 Predators parasites and pathogens 6 Relationship with humans 6 1 In mythology and folklore 6 2 In art and literature 6 3 Beekeeping 6 4 As commercial pollinators 6 5 As food producers 6 6 As food 6 7 As alternative medicine 6 8 Stings 7 See also 8 Explanatory notes 9 References 10 External linksEvolutionThe immediate ancestors of bees were stinging wasps in the family Crabronidae which were predators 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 evolutionary scenario may have occurred within the vespoid wasps where the pollen wasps evolved from predatory ancestors The oldest non compression bee fossil is found in New Jersey amber Cretotrigona prisca a corbiculate bee of Cretaceous age 65 mya 5 A fossil from the early Cretaceous 100 mya Melittosphex burmensis was initially considered an extinct lineage of pollen collecting Apoidea sister to the modern bees 6 but subsequent research has rejected the claim that Melittosphex is a bee or even a member of the superfamily Apoidea to which bees belong instead treating the lineage as incertae sedis within the Aculeata 7 By the Eocene 45 mya there was already considerable diversity among eusocial bee lineages 8 a The highly eusocial corbiculate Apidae appeared roughly 87 Mya and the Allodapini within the Apidae around 53 Mya 11 The Colletidae appear as fossils only from the late Oligocene 25 Mya to early Miocene 12 The Melittidae are known from Palaeomacropis eocenicus in the Early Eocene 13 The Megachilidae are known from trace fossils characteristic leaf cuttings from the Middle Eocene 14 The Andrenidae are known from the Eocene Oligocene boundary around 34 Mya of the Florissant shale 15 The Halictidae first appear in the Early Eocene 16 with species 17 18 found in amber The Stenotritidae are known from fossil brood cells of Pleistocene age 19 Coevolution Long tongued bees and long tubed flowers coevolved like this Amegilla cingulata Apidae on Acanthus ilicifolius Further information Coevolution The earliest animal pollinated flowers were shallow cup shaped blooms pollinated by insects such as beetles so the syndrome of insect pollination was well established before the first appearance of bees The novelty is that bees are specialized as pollination agents with behavioral and physical modifications that specifically enhance pollination and are the most efficient pollinating insects In a process of coevolution flowers developed floral rewards 20 such as nectar and longer tubes and bees developed longer tongues to extract the nectar 21 Bees also developed structures known as scopal hairs and pollen baskets 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 pollen baskets on their hind legs while very few lack these and instead collect pollen in their crops 2 The appearance of these structures drove the adaptive radiation of the angiosperms and in turn bees themselves 9 Bees coevolved not only with flowers but it is believed that some species coevolved with mites Some provide tufts of hairs called acarinaria that appear to provide lodgings for mites in return it is believed that mites eat fungi that attack pollen so the relationship in this case may be mutualistic 22 23 Phylogeny External This phylogenetic tree is based on Debevic et al 2012 which used molecular phylogeny to demonstrate that the bees Anthophila arose from deep within the Crabronidae which is therefore paraphyletic The placement of the Heterogynaidae is uncertain 24 The small subfamily Mellininae was not included in this analysis Apoidea Ampulicidae Cockroach wasps Heterogynaidae possible placement 1 Sphecidae sensu stricto Crabroninae part of Crabronidae rest of Crabronidae Bembicini Nyssonini Astatinae Heterogynaidae possible placement 2 Pemphredoninae Philanthinae Anthophila 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 25 English names where available are given in parentheses Anthophila bees Melittidae inc Dasypodainae Meganomiinae at least 50 Mya long tongued bees Apidae inc honeybees cuckoo bees carpenter bees 87 Mya Megachilidae mason leafcutter bees 50 Mya short tongued bees Andrenidae mining bees 34 Mya Halictidae sweat bees 50 Mya Colletidae plasterer bees 25 Mya Stenotritidae large Australian bees 2 Mya See also Characteristics of common wasps and beesCharacteristics The lapping mouthparts of a honey bee showing labium and maxillae Bees differ from closely related groups such as wasps by having branched or plume like setae hairs combs on the forelimbs for cleaning their antennae small anatomical differences in limb structure and the venation of the hind wings and in females by having the seventh dorsal abdominal plate divided into two half plates 26 Bees have the following characteristics A pair of large compound eyes which cover much of the surface of the head Between and above these are three small simple eyes ocelli 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 proboscis for sucking up nectar 27 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 corbiculate bees bear combs for cleaning the antennae and in many species the hind legs bear pollen baskets flattened sections with incurving hairs to secure the collected pollen The wings are synchronised 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 27 Head on view of a male carpenter bee showing antennae three ocelli compound eyes and mouthparts The largest species of bee is thought to be Wallace s giant bee Megachile pluto whose females can attain a length of 39 millimetres 1 54 in 28 The smallest species may be dwarf stingless bees in the tribe Meliponini whose workers are less than 2 millimetres 0 08 in in length 29 SocialityHaplodiploid breeding system Further information Haplodiploidy Willing to die for their sisters worker honey bees killed defending their hive against yellowjackets along with a dead yellowjacket Such altruistic behaviour may be favoured by the haplodiploid sex determination system of bees According to inclusive fitness theory organisms can gain fitness not just through increasing their own reproductive output but also that of close relatives In evolutionary terms individuals should help relatives when Cost lt Relatedness Benefit The requirements for eusociality are more easily fulfilled by haplodiploid species such as bees because of their unusual relatedness structure 30 In haplodiploid species females develop from fertilized eggs and males from unfertilized eggs Because a male is haploid has only one copy of each gene his daughters which are diploid with two copies of each gene share 100 of his genes and 50 of their mother s Therefore they share 75 of their genes with each other This mechanism of sex determination gives rise to what W D Hamilton termed supersisters more closely related to their sisters than they would be to their own offspring 31 Workers often do not reproduce but they can pass on more of their genes by helping to raise their sisters as queens than they would by having their own offspring each of which would only have 50 of their genes assuming they would produce similar numbers This unusual situation has been proposed as an explanation of the multiple at least nine evolutions of eusociality within Hymenoptera 32 33 Haplodiploidy is neither necessary nor sufficient for eusociality Some eusocial species such as termites are not haplodiploid Conversely all bees are haplodiploid but not all are eusocial and among eusocial species many queens mate with multiple males creating half sisters that share only 25 of each other s genes 34 But monogamy queens mating singly is the ancestral state for all eusocial species so far investigated so it is likely that haplodiploidy contributed to the evolution of eusociality in bees 32 Eusociality A Western honey bee swarm Western honey bee nest in the trunk of a spruce Further information Eusociality Bees may be solitary or may live in various types of communities Eusociality appears to have originated from at least three independent origins in halictid bees 35 The most advanced of these are species with eusocial colonies these are characterised by cooperative brood care and a division of labour into reproductive and non reproductive adults plus overlapping generations 36 This division of labour creates specialized groups within eusocial societies which are called castes In some species groups of cohabiting females may be sisters and if there is a division of labour within the group they are considered semisocial The group is called eusocial if in addition the group consists of a mother the queen and her daughters workers When the castes are purely behavioural alternatives with no morphological differentiation other than size the system is considered primitively eusocial as in many paper wasps when the castes are morphologically discrete the system is considered highly eusocial 21 True honey bees genus Apis of which eight species are currently recognized 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 Apis mellifera native to Europe the Middle East and Africa Africanized bees are a hybrid strain of A mellifera that escaped from experiments involving crossing European and African subspecies they are extremely defensive 37 Stingless bees are also highly eusocial They practise mass provisioning with complex nest architecture and perennial colonies also established via swarming 3 38 A bumblebee carrying pollen in its pollen baskets corbiculae Many bumblebees are eusocial similar to the eusocial Vespidae such as hornets 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 39 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 40 There are many more species of primitively eusocial than highly eusocial bees but they have been studied less often Most are in the family Halictidae 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 41 Some species are eusocial in parts of their range and solitary in others 42 or have a mix of eusocial and solitary nests in the same population 43 The orchid bees Apidae include some primitively eusocial species with similar biology Some allodapine 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 44 Solitary and communal bees A leafcutting bee Megachile rotundata cutting circles from acacia leaves Most other bees including familiar insects such as carpenter bees leafcutter bees and mason bees 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 for these species Solitary bees typically produce neither honey nor beeswax Bees collect pollen to feed their young and have the necessary adaptations to do this However certain wasp species such as pollen wasps have similar behaviours and a few species of bee scavenge from carcases to feed their offspring 26 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 genera which are commonly known by their nesting behavior or preferences namely carpenter bees sweat bees mason bees plasterer bees squash bees dwarf carpenter bees leafcutter bees alkali bees and digger bees 45 A solitary bee Anthidium florentinum family Megachilidae visiting Lantana Most solitary bees are fossorial digging nests in the ground in a variety of soil textures and conditions while others create nests in hollow reeds or twigs or holes in wood 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 Andrenidae are stingless 46 47 The mason bee Osmia cornifrons nests in a hole in dead wood Bee hotels are often sold for this purpose While solitary females each make individual nests 48 Some species such as the European mason bee Hoplitis anthocopoides 49 and the Dawson s Burrowing bee Amegilla dawsoni 50 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 49 BiologyLife cycle Further information Honey bee life cycle The life cycle of a bee be it a solitary or social species involves the laying of an egg the development through several moults of a legless larva a pupation stage during which the insect undergoes complete metamorphosis followed by the emergence of a winged adult The number of eggs laid by a female during her lifetime can vary from eight or less in some solitary bees to more than a million in highly social species 51 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 haplodiploid the sex of a bee is determined by whether or not the egg is fertilised After mating a female stores the sperm and determines which sex is required at the time each individual egg is laid fertilised eggs producing female offspring and unfertilised eggs males Tropical bees may have several generations in a year and no diapause stage 52 53 54 55 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 56 In most species 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 silk 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 exuviae and breaks out of the cell 56 Nest of common carder bumblebee wax canopy removed to show winged workers and pupae in irregularly placed wax cells Carpenter bee nests in a cedar wood beam sawn open Honeybees on brood comb with eggs and larvae in cellsFlight Honeybee in flight carrying pollen in pollen basket Further information Insect flight Antoine Magnan s 1934 book Le vol des insectes says that he and Andre Sainte Lague had applied the equations of air resistance to insects and found that their flight could not be explained by fixed wing calculations but that One shouldn t be surprised that the results of the calculations don t square with reality 57 This has led to a common misconception that bees violate aerodynamic theory In fact it merely confirms that bees do not engage in fixed wing flight and that their flight is explained by other mechanics such as those used by helicopters 58 In 1996 it was shown that vortices created by many insects wings helped to provide lift 59 High speed cinematography 60 and robotic mock up of a bee wing 61 showed that lift was generated by the unconventional combination of short choppy wing strokes a rapid rotation of the wing as it flops over and reverses direction and a very fast wing beat frequency Wing beat frequency normally increases as size decreases but as the bee s wing beat covers such a small arc it flaps approximately 230 times per second faster than a fruitfly 200 times per second which is 80 times smaller 62 Navigation communication and finding food Karl von Frisch 1953 discovered that honey bee workers can navigate indicating the range and direction to food to other workers with a waggle dance Further information Animal navigation and Waggle dance The ethologist Karl von Frisch studied navigation in the honey bee He showed that honey bees communicate by the waggle dance in which a worker indicates the location of a food source to other workers in the hive He demonstrated that bees can recognize a desired compass direction in three different ways by the sun by the polarization pattern of the blue sky and by the earth s magnetic field He showed that the sun is the preferred or main compass the other mechanisms are used under cloudy skies or inside a dark beehive 63 Bees navigate using spatial memory with a rich map like organization 64 Digestion The gut of bees is relatively simple but multiple metabolic strategies exist in the gut microbiota 65 Pollinating bees consume nectar and pollen which require different digestion strategies by somewhat specialized bacteria While nectar is a liquid of mostly monosaccharide sugars and so easily absorbed pollen contains complex polysaccharides branching pectin and hemicellulose 66 Approximately five groups of bacteria are involved in digestion Three groups specialize in simple sugars Snodgrassella and two groups of Lactobacillus and two other groups in complex sugars Gilliamella and Bifidobacterium Digestion of pectin and hemicellulose is dominated by bacterial clades Gilliamella and Bifidobacterium respectively Bacteria that cannot digest polysaccharides obtain enzymes from their neighbors and bacteria that lack certain amino acids do the same creating multiple ecological niches 67 Although most bee species are nectarivorous and palynivorous some are not Particularly unusual are vulture bees in the genus Trigona which consume carrion and wasp brood turning meat into a honey like substance 68 EcologyFloral relationships Most bees are polylectic generalist meaning they collect pollen from a range of flowering plants but some are oligoleges specialists in that they only gather pollen from one or a few species or genera of closely related plants 69 Specialist pollinators also include bee species which gather floral oils instead of pollen and male orchid bees which gather aromatic compounds from orchids one of the few cases where male bees are effective pollinators Bees are able to sense the presence of desirable flowers through ultraviolet patterning on flowers floral odors 70 and even electromagnetic fields 71 Once landed a bee then uses nectar quality 70 and pollen taste 72 to determine whether to continue visiting similar flowers In rare cases a plant species may only be effectively pollinated by a single bee species and some plants are endangered at least in part because their pollinator is also threatened But there is a pronounced tendency for oligolectic bees to be associated with common widespread plants visited by multiple pollinator species For example the creosote bush in the arid parts of the United States southwest is associated with some 40 oligoleges 73 As mimics and models The bee fly Bombylius major a Batesian mimic of bees taking nectar and pollinating a flower Main articles Mimicry Batesian mimicry and Mullerian mimicry Bee orchid lures male bees to attempt to mate with the flower s lip which resembles a bee perched on a pink flower Many bees are aposematically coloured typically orange and black warning of their ability to defend themselves with a powerful sting As such they are models for Batesian mimicry by non stinging insects such as bee flies robber flies and hoverflies 74 all of which gain a measure of protection by superficially looking and behaving like bees 74 Bees are themselves Mullerian mimics of other aposematic insects with the same colour scheme including wasps lycid and other beetles and many butterflies and moths Lepidoptera which are themselves distasteful often through acquiring bitter and poisonous chemicals from their plant food All the Mullerian mimics including bees benefit from the reduced risk of predation that results from their easily recognised warning coloration 75 Bees are also mimicked by plants such as the bee orchid which imitates both the appearance and the scent of a female bee male bees attempt to mate pseudocopulation with the furry lip of the flower thus pollinating it 76 As brood parasites Bombus vestalis a brood parasite of the bumblebee Bombus terrestris Main articles Brood parasite and Nest usurpation Brood parasites occur in several bee families including the apid subfamily Nomadinae 77 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 78 In particular the Arctic bee species Bombus hyperboreus is an aggressive species that attacks and enslaves other bees of the same subgenus However unlike many other bee brood parasites they have pollen baskets and often collect pollen 79 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 diploid eggs thelytoky escaping normal worker policing leading to the colony s destruction the parasites can then move to other hives 80 The cuckoo bees 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 Townsendiella a nomadine apid two species of which are cleptoparasites of the dasypodaid genus Hesperapis 81 while the other species in the same genus attacks halictid bees 82 Nocturnal bees Four bee families Andrenidae Colletidae Halictidae and Apidae contain some species that are crepuscular Most are tropical or subtropical but some live in arid regions at higher latitudes These bees have greatly enlarged ocelli 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 83 Predators parasites and pathogens Further information Diseases of the honey bee The bee eater Merops apiaster specialises in feeding on bees here a male catches a nuptial gift for his mate Vertebrate predators of bees include bee eaters shrikes and flycatchers which make short sallies to catch insects in flight 84 Swifts and swallows 84 fly almost continually catching insects as they go The honey buzzard attacks bees nests and eats the larvae 85 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 86 Among mammals predators such as the badger dig up bumblebee nests and eat both the larvae and any stored food 87 The beewolf Philanthus triangulum paralysing a bee with its sting Specialist ambush predators of visitors to flowers include crab spiders which wait on flowering plants for pollinating insects predatory bugs and praying mantises 84 some of which the flower mantises of the tropics wait motionless aggressive mimics camouflaged as flowers 88 Beewolves are large wasps that habitually attack bees 84 the ethologist Niko Tinbergen 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 89 Other predatory insects that sometimes catch bees include robber flies and dragonflies 84 Honey bees are affected by parasites including tracheal and Varroa mites 90 However some bees are believed to have a mutualistic relationship with mites 23 Some mites of genus Tarsonemus 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 91 Relationship with humansIn mythology and folklore Main article Bees in mythology Gold plaques embossed with winged bee goddesses Camiros Rhodes 7th century BC Homer s Hymn to Hermes describes three bee maidens with the power of divination and thus speaking truth and identifies the food of the gods as honey Sources associated the bee maidens with Apollo and until the 1980s scholars followed Gottfried Hermann 1806 in incorrectly identifying the bee maidens with the Thriae 92 Honey according to a Greek myth was discovered by a nymph called Melissa Bee and honey was offered to the Greek gods from Mycenean times Bees were also associated with the Delphic oracle and the prophetess was sometimes called a bee 93 The image of a community of honey bees has been used from ancient to modern times in Aristotle and Plato in Virgil and Seneca in Erasmus and Shakespeare Tolstoy and by political and social theorists such as Bernard Mandeville and Karl Marx as a model for human society 94 In English folklore bees would be told of important events in the household in a custom known as Telling the bees 95 In art and literature Beatrix Potter s illustration of Babbity Bumble in The Tale of Mrs Tittlemouse 1910 Some of the oldest examples of bees in art are rock paintings in Spain which have been dated to 15 000 BC 96 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 97 Beatrix Potter s illustrated book The Tale of Mrs Tittlemouse 1910 features Babbity Bumble and her brood pictured Kit Williams 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 Dakota Fanning tells the story of a girl who escapes her abusive home and finds her way to live with a family of beekeepers the Boatwrights The 2007 animated comedy film Bee Movie used Jerry Seinfeld s first script and was his first work for children he starred as a bee named Barry B Benson alongside Renee Zellweger Critics found its premise awkward and its delivery tame 98 Dave Goulson s A Sting in the Tale 2014 describes his efforts to save bumblebees in Britain as well as much about their biology The playwright Laline Paull s fantasy The Bees 2015 tells the tale of a hive bee named Flora 717 from hatching onwards 99 Beekeeping Main article Beekeeping A commercial beekeeper at work Western honey bee on a honeycomb Humans have kept honey bee colonies commonly in hives for millennia Beekeepers collect honey beeswax propolis pollen and royal jelly from hives bees are also kept to pollinate crops and to produce bees for sale to other beekeepers 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 100 Simple hives and smoke were used 101 102 jars of honey were found in the tombs of pharaohs such as Tutankhamun 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 103 104 Among Classical Era authors beekeeping with the use of smoke is described in Aristotle s History of Animals Book 9 105 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 waggle dance with the irresistible suggestion of aroseiontai aroseiontai it waggles and parakoloy8oysin parakolouthousin they watch 106 b Beekeeping is described in detail by Virgil in his Georgics it is also mentioned in his Aeneid and in Pliny s Natural History 106 As commercial pollinators See also List of crop plants pollinated by bees Pollinator decline and Pesticide toxicity to bees Bees play an important role in pollinating flowering plants and are the major type of pollinator in many ecosystems that contain flowering plants It is estimated that one third of the human food supply depends on pollination by insects birds and bats most of which is accomplished by bees whether wild or domesticated 107 108 Over the last half century 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 general decrease in the number of wild flowers Climate change probably exacerbates the problem 109 Contract pollination has overtaken the role of honey production for beekeepers in many countries After the introduction of Varroa mites feral honey bees declined dramatically in the US though their numbers have since recovered 110 111 The number of colonies kept by beekeepers declined slightly through urbanization systematic pesticide use tracheal and Varroa mites and the closure of beekeeping businesses In 2006 and 2007 the rate of attrition increased and was described as colony collapse disorder 112 In 2010 invertebrate iridescent virus and the fungus Nosema ceranae were shown to be in every killed colony and deadly in combination 113 114 115 116 Winter losses increased to about 1 3 117 118 Varroa mites were thought to be responsible for about half the losses 119 Apart from colony collapse disorder losses outside the US have been attributed to causes including pesticide seed dressings using neonicotinoids such as clothianidin imidacloprid and thiamethoxam 120 121 From 2013 the European Union restricted some pesticides to stop bee populations from declining further 122 In 2014 the Intergovernmental Panel on Climate Change report warned that bees faced increased risk of extinction because of global warming 123 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 124 Farmers have focused on alternative solutions to mitigate these problems By raising native plants they provide food for native bee pollinators like Lasioglossum vierecki 125 and L leucozonium 126 leading to less reliance on honey bee populations Squash bees Apidae are important pollinators of squashes and cucumbers Bee covered in pollenAs 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 rock paintings in Spain dated to 15 000 BC 96 Honey bees are used commercially to produce honey 127 They also produce some substances used as dietary supplements with possible health benefits pollen 128 propolis 129 and royal jelly 130 though all of these can also cause allergic reactions As food Bees are considered edible insects People in some countries eat insects including the larvae and pupae of bees mostly stingless species They also gather larvae pupae and surrounding cells known as bee brood for consumption 131 In the Indonesian dish botok tawon from Central and East Java bee larvae are eaten as a companion to rice after being mixed with shredded coconut wrapped in banana leaves and steamed 132 133 Bee brood pupae and larvae although low in calcium has been found to be high in protein and carbohydrate and a useful source of phosphorus magnesium potassium and trace minerals iron zinc copper and selenium 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 B vitamins including choline as well as vitamin C The fat was composed mostly of saturated and monounsaturated fatty acids with 2 0 being polyunsaturated fatty acids 134 135 Bee larvae as food in the Javanese dish botok tawon Fried whole bees served in a Ukrainian restaurantAs alternative medicine Apitherapy is a branch of alternative medicine that uses honey bee products including raw honey royal jelly pollen propolis beeswax and apitoxin Bee venom 136 The claim that apitherapy treats cancer which some proponents of apitherapy make remains unsupported by evidence based medicine 137 138 Stings The painful stings of bees 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 octadecanolide as well as some eicosanolide There is also evidence of n triscosane n heptacosane 139 and 22 docosanolide 140 However the secretions of these glands could also be used for nest construction 139 See alsoAustralian native bees Superorganism World Bee DayExplanatory notes Triassic nests in a petrified forest in Arizona implying that bees evolved much earlier 9 are now thought to be beetle borings 10 In D Arcy Thompson s translation At early dawn they make no noise until some one particular bee makes a buzzing noise two or three times and thereby awakes the rest hereupon they all fly in a body to work By and by they return and at first are noisy until at last some one bee flies round about making a buzzing noise and apparently calling on the others to go to sleep 105 References Danforth B N Sipes S Fang J Brady S G October 2006 The history of early bee diversification based on five genes plus morphology PNAS 103 41 15118 15123 Bibcode 2006PNAS 10315118D doi 10 1073 pnas 0604033103 PMC 1586180 PMID 17015826 a b Michener Charles D 2000 The Bees of the World Johns Hopkins University Press pp 19 25 ISBN 0 8018 6133 0 a b c Gruter Christoph 2020 Stingless Bees Their Behaviour Ecology and Evolution Fascinating Life Sciences Springer New York doi 10 1007 978 3 030 60090 7 ISBN 978 3 030 60089 1 S2CID 227250633 Widespread losses of pollinating insects revealed across Britain The Guardian 26 March 2019 Cardinal Sophie Danforth Bryan N 2011 The Antiquity and Evolutionary History of Social Behavior in Bees PLOS ONE 6 6 e21086 Bibcode 2011PLoSO 621086C doi 10 1371 journal pone 0021086 PMC 3113908 PMID 21695157 Poinar G O Danforth B N 2006 A fossil bee from Early Cretaceous Burmese amber PDF Science 314 5799 614 doi 10 1126 science 1134103 PMID 17068254 S2CID 28047407 Archived from the original PDF on 4 December 2012 Rosa B B Melo G A R 2021 Apoid wasps Hymenoptera Apoidea from mid Cretaceous amber of northern Myanmar Cretaceous Research 122 Article 104770 doi 10 1016 j cretres 2021 104770 ISSN 0195 6671 S2CID 234071940 Engel Michael S 2001 Monophyly and Extensive Extinction of Advanced Eusocial Bees Insights from an Unexpected Eocene Diversity PNAS National Academy of Sciences 98 4 1661 1664 Bibcode 2001PNAS 98 1661E doi 10 1073 pnas 041600198 JSTOR 3054932 PMC 29313 PMID 11172007 a b Buchmann Stephen L Nabhan Gary Paul 2012 The Forgotten Pollinators Island Press pp 41 42 ISBN 978 1 59726 908 7 Archived from the original on 27 May 2016 Lucas Spencer G Minter Nicholas J Hunt Adrian P February 2010 Re evaluation of alleged bees nests from the Upper Triassic of Arizona Palaeogeography Palaeoclimatology Palaeoecology 286 3 4 194 201 Bibcode 2010PPP 286 194L doi 10 1016 j palaeo 2010 01 010 Danforth Bryan Cardinal Sophie Praz Christophe Almeida Eduardo Michez Denis 28 August 2012 The Impact of Molecular Data on Our Understanding of Bee Phylogeny and Evolution Annual Review of Entomology 58 57 78 doi 10 1146 annurev ento 120811 153633 PMID 22934982 S2CID 28274420 Almeida Eduardo A B Pie Marcio R Brady Sean G Danforth Bryan N 2012 Biogeography and diversification of colletid bees Hymenoptera Colletidae emerging patterns from the southern end of the world PDF Journal of Biogeography 39 3 526 544 doi 10 1111 j 1365 2699 2011 02624 x S2CID 34626231 Archived PDF from the original on 21 September 2013 Michez Denis Nel Andre Menier Jean Jacques Rasmont Pierre 2007 The oldest fossil of a melittid bee Hymenoptera Apiformes from the early Eocene of Oise France PDF Zoological Journal of the Linnean Society 150 4 701 709 doi 10 1111 j 1096 3642 2007 00307 x Archived PDF from the original on 23 September 2015 Sarzetti Laura C Lanandeira Conrad C Genise Jorge F 2008 A Leafcutter Bee Trace Fossil from the Middle Eocene of Patagonia Argentina and a Review of Megachilid Hymenoptera Ichnology Palaeontology 51 4 933 994 doi 10 1111 j 1475 4983 2008 00787 x Archived PDF from the original on 24 September 2015 Dewulf Alexandre De Meulemeester Thibaut Dehon Manuel Engel Michael S Michez Denis 2014 A new interpretation of the bee fossil Melitta willardi Cockerell Hymenoptera Melittidae based on geometric morphometrics of the wing ZooKeys 389 35 48 doi 10 3897 zookeys 389 7076 PMC 3974431 PMID 24715773 Engel M S Archibald S B 2003 An Early Eocene bee Hymenoptera Halictidae from Quilchena British Columbia PDF The Canadian Entomologist 135 1 63 69 doi 10 4039 n02 030 hdl 1808 16473 S2CID 54053341 Archived PDF from the original on 12 August 2017 Engel M S 1995 Neocorynura electra a New Fossil Bee Species from Dominican Amber Hymenoptera Halictidae Journal of the New York Entomological Society 103 3 317 323 JSTOR 25010174 Engel M S 2000 Classification of the bee tribe Augochlorini Hymenoptera Halictidae PDF Bulletin of the American Museum of Natural History 250 1 doi 10 1206 0003 0090 2000 250 lt 0001 COTBTA gt 2 0 CO 2 hdl 2246 1598 S2CID 85810077 Archived PDF from the original on 10 January 2011 Houston T F 1987 Fossil brood cells of stenotritid bees Hymenoptera Apoidea from the Pleistocene of South Australia Transactions of the Royal Society of South Australia 1111 2 93 97 Archived from the original on 1 July 2015 Armbruster W Scott 2012 3 In Patiny Sebastien ed Evolution of Plant Pollinator Relationships Cambridge University Press pp 45 67 a b Michener Charles Duncan 1974 The Social Behavior of the Bees A Comparative Study Harvard University Press pp 22 78 ISBN 978 0 674 81175 1 Biani Natalia B Mueller Ulrich G Wcislo William T June 2009 Cleaner Mites Sanitary Mutualism in the Miniature Ecosystem of Neotropical Bee Nests PDF The American Naturalist 173 6 841 847 doi 10 1086 598497 hdl 2152 31261 PMID 19371167 S2CID 4845087 Archived PDF from the original on 28 March 2018 a b Klimov Pavel B OConnor Barry M Knowles L Lacey June 2007 Museum Specimens And Phylogenies Elucidate Ecology s Role in Coevolutionary Associations Between Mites And Their Bee Hosts PDF Evolution 61 6 1368 1379 doi 10 1111 j 1558 5646 2007 00119 x hdl 2027 42 74970 PMID 17542846 S2CID 32318137 Archived PDF from the original on 4 May 2019 Debevec Andrew H Cardinal Sophie Danforth Bryan N 2012 Identifying the sister group to the bees a molecular phylogeny of Aculeata with an emphasis on the superfamily Apoidea PDF Zoologica Scripta 41 5 527 535 doi 10 1111 j 1463 6409 2012 00549 x S2CID 33533180 Archived PDF from the original on 23 September 2015 Hedtke Shannon M Patiny Sebastien Danforth Bryan M 2013 The bee tree of life a supermatrix approach to apoid phylogeny and biogeography BMC Evolutionary Biology 13 138 138 doi 10 1186 1471 2148 13 138 PMC 3706286 PMID 23822725 a b Grimaldi David Engel Michael S 2005 Evolution of the Insects Cambridge University Press p 454 ISBN 978 0 521 82149 0 Archived from the original on 28 March 2018 a b Anatomy of the Honey Bee Extension 19 June 2014 Archived from the original on 1 July 2015 Retrieved 30 June 2015 Messer A C 1984 Chalicodoma pluto The World s Largest Bee Rediscovered Living Communally in Termite Nests Hymenoptera Megachilidae Journal of the Kansas Entomological Society 57 1 165 168 JSTOR 25084498 Sakagami Shoichi F Zucchi Ronaldo 1974 Oviposition Behavior of Two Dwarf Stingless Bees Hypotrigona Leurotrigona muelleri and H Trigonisca duckei with Notes on the Temporal Articulation of Oviposition Process in Stingless Bees PDF Journal of the Faculty of Science Hokkaido University Series Vi Zoology 19 2 361 421 Archived PDF from the original on 4 March 2016 Hughes W O H Oldroyd B P Beekman M Ratnieks F L W 2008 Ancestral Monogamy Shows Kin Selection is Key to the Evolution of Eusociality Science 320 5880 1213 1216 Bibcode 2008Sci 320 1213H doi 10 1126 science 1156108 PMID 18511689 S2CID 20388889 Hamilton W D 20 March 1964 The Genetical Evolution of Social Behaviour II Journal of Theoretical Biology 7 1 17 52 Bibcode 1964JThBi 7 17H doi 10 1016 0022 5193 64 90039 6 PMID 5875340 a b Hughes William O H Oldroyd Benjamin P Beekman Madeleine Ratnieks Francis L W May 2008 Ancestral Monogamy Shows Kin Selection Is Key to the Evolution of Eusociality Science American Association for the Advancement of Science 320 5880 1213 1216 Bibcode 2008Sci 320 1213H doi 10 1126 science 1156108 PMID 18511689 S2CID 20388889 Gullan P J Cranston P S 2014 The Insects An Outline of Entomology 5th ed Wiley Blackwell pp 328 348 350 ISBN 978 1 118 84615 5 Nowak Martin Tarnita Corina Wilson E O 2010 The evolution of eusociality Nature 466 7310 1057 1062 Bibcode 2010Natur 466 1057N doi 10 1038 nature09205 PMC 3279739 PMID 20740005 Brady Sean G Sipes Sedonia Pearson Adam Danforth Bryan N 2006 Recent and simultaneous origins of eusociality in halictid bees Proceedings of the Royal Society of London B Biological Sciences 273 1594 1643 1649 doi 10 1098 rspb 2006 3496 ISSN 0962 8452 PMC 1634925 PMID 16769636 Wilson Edward O 1971 The Insect Societies Cambridge Mass Belknap Press of Harvard University Press Sanford Malcolm T 2006 The Africanized Honey Bee in the Americas A Biological Revolution with Human Cultural Implications Apis Enterprises Archived from the original on 29 March 2015 Retrieved 29 March 2015 Roubik D W 2006 Stingless bee nesting biology PDF Apidologie 37 2 124 143 doi 10 1051 apido 2006026 Archived PDF from the original on 9 October 2022 Bumblebee nests Bumblebee Conservation Trust Archived from the original on 22 September 2017 Retrieved 26 June 2015 Bumblebee Specialist Group 2011 Update PDF IUCN Archived PDF from the original on 3 December 2012 Retrieved 7 October 2012 Brooks R W Roubik D W 1983 A Halictine bee with distinct castes Halictus hesperus Hymenoptera Halictidae and its bionomics in Central Panama Sociobiology 7 263 282 Eickwort G C Eickwort J M Gordon J Eickwort M A Wcislo W T 1996 Solitary behavior in a high altitude population of the social sweat bee Halictus rubicundus Hymenoptera Halictidae Behavioral Ecology and Sociobiology 38 4 227 233 doi 10 1007 s002650050236 S2CID 12868253 Yanega D 1993 Environmental effects on male production and social structure in Halictus rubicundus Hymenoptera Halictidae Insectes Sociaux 40 169 180 doi 10 1007 bf01240705 S2CID 44934383 Michener Charles Duncan 1974 The Social Behavior of the Bees A Comparative Study Harvard University Press p 308 ISBN 978 0 674 81175 1 Archived from the original on 24 December 2016 Parker Frank D Torchio Philip F 1 October 1980 Management of Wild Bees Beesource Beekeeping Community Archived from the original on 26 June 2015 Retrieved 26 June 2015 Solitary Bees Hymenoptera Royal Entomological Society Archived from the original on 2 July 2017 Retrieved 12 October 2015 Other bees Bumblebee Conservation Trust Archived from the original on 5 September 2015 Retrieved 12 October 2015 Westreich Lila Spring signals female bees to lay the next generation of pollinators The Conversation Retrieved 8 October 2020 a b Eickwort George C 1975 Gregarious Nesting of the Mason Bee Hoplitis anthocopoides and the Evolution of Parasitism and Sociality Among Megachilid Bees Evolution 29 1 142 150 doi 10 2307 2407147 JSTOR 2407147 PMID 28563288 Alcock John 1 May 1999 The Nesting Behavior of Dawson s Burrowing Bee Amegilla dawsoni Hymenoptera Anthophorini and the Production of Offspring of Different Sizes Journal of Insect Behavior 12 3 363 384 doi 10 1023 A 1020843606530 ISSN 0892 7553 S2CID 24832889 The Bees of the World Volum 1 Roubik David W 1992 Ecology and Natural History of Tropical Bees Cambridge University Press p 15 ISBN 978 0 521 42909 2 Archived from the original on 17 June 2016 The bumblebee lifecycle Bumblebee Conservation Trust Archived from the original on 29 June 2015 Retrieved 1 July 2015 Learning About Honey Bees The South Carolina Mid State Beekeepers Association Archived from the original on 1 July 2015 Retrieved 1 July 2015 Solitary Bees National Bee Unit Archived from the original on 1 July 2015 Retrieved 1 July 2015 a b Shuckard William Edward 1866 British bees an introduction to the study of the natural history and economy of the bees indigenous to the British Isles L Reeve amp Co pp 18 23 Ingram Jay 2001 The Barmaid s Brain Aurum Press pp 91 92 ISBN 0716741202 Adams Cecil 4 May 1990 Is it aerodynamically impossible for bumblebees to fly The Straight Dope Archived from the original on 3 March 2009 Retrieved 7 March 2009 Life animal and plant news articles and features New Scientist 9 March 2016 Archived from the original on 7 October 2008 Retrieved 16 March 2016 Images of flight New Scientist Archived from the original on 23 March 2016 Retrieved 16 March 2016 Deciphering the Mystery of Bee Flight California Institute of Technology 29 November 2005 Archived from the original on 17 September 2016 Retrieved 8 September 2016 Re work of Dr Michael H Dickinson Altshuler Douglas L Dickson William B Vance Jason T Roberts Stephen P Dickinson Michael H 2005 Short amplitude high frequency wing strokes determine the aerodynamics of honeybee flight Proceedings of the National Academy of Sciences 102 50 18213 18218 Bibcode 2005PNAS 10218213A doi 10 1073 pnas 0506590102 PMC 1312389 PMID 16330767 von Frisch Karl 1953 The Dancing Bees Harcourt Brace amp World pp 93 96 Menzel Randolf Greggers Uwe Smith Alan Berger Sandra Brandt Robert Brunke Sascha Bundrock Gesine Hulse Sandra Plumpe Tobias Schaupp Schaupp Schuttler Elke Stach Silke Stindt Jan Stollhoff Nicola Watzl Sebastian 2005 Honey bees Navigate According to a Map Like Spatial Memory PNAS 102 8 3040 3045 Bibcode 2005PNAS 102 3040M doi 10 1073 pnas 0408550102 PMC 549458 PMID 15710880 How honey bee gut bacteria help to digest their pollen rich diet ScienceDaily Retrieved 2 January 2020 Bee gut microbes have a division of labor when it comes to metabolizing complex polysaccharides phys org Retrieved 2 January 2020 Zheng Hao Perreau Julie Powell J Elijah Han Benfeng Zhang Zijing Kwong Waldan K Tringe Susannah G Moran Nancy A December 2019 Division of labor in honey bee gut microbiota for plant polysaccharide digestion Proceedings of the National Academy of Sciences 116 51 25909 25916 doi 10 1073 pnas 1916224116 ISSN 0027 8424 PMC 6926048 PMID 31776248 Mateus Sidnei Noll Fernando B February 2004 Predatory behavior in a necrophagous bee Trigona hypogea Hymenoptera Apidae Meliponini Naturwissenschaften 91 2 94 96 Bibcode 2004NW 91 94M doi 10 1007 s00114 003 0497 1 ISSN 1432 1904 PMID 14991148 S2CID 26518321 Waser Nickolas M 2006 Plant Pollinator Interactions From Specialization to Generalization University of Chicago Press pp 110 ISBN 978 0 226 87400 5 Archived from the original on 28 March 2018 a b Dafni Amots Hesse Michael Pacini Ettore 2012 Pollen and Pollination Springer Science amp Business Media p 80 ISBN 978 3 7091 6306 1 Archived from the original on 28 March 2018 Suttona Gregory P Clarkea Dominic Morleya Erica L Robert Daniel 2016 Mechanosensory hairs in bumblebees Bombus terrestris detect weak electric fields PNAS 113 26 7261 7265 doi 10 1073 pnas 1601624113 PMC 4932954 PMID 27247399 Muth Felicity Francis Jacob S Leonard Anne S 2016 Bees use the taste of pollen to determine which flowers to visit Biology Letters 12 7 20160356 doi 10 1098 rsbl 2016 0356 PMC 4971173 PMID 27405383 Hurd P D Jr Linsley E G 1975 The principal Larrea bees of the southwestern United States Smithsonian Contributions to Zoology 193 193 1 74 doi 10 5479 si 00810282 193 a b Thorp Robbin W Horning Donald S Dunning Lorry L 1983 Bumble Bees and Cuckoo Bumble Bees of California Hymenoptera Apidae University of California Press p 9 ISBN 978 0 520 09645 5 Archived from the original on 5 January 2017 Of the forms of mimicry two relate to Bombini Batesian mimicry is exemplified by members of several families of flies Syrphidae Asilidae Tabanidae Oestridae and Bombyliidae Gabritschevsky 1926 Cott Hugh 1940 Adaptive Coloration in Animals Oxford University Press pp 196 403 and passim Bee Orchids and Insect Mimicry Natural History Museum Archived from the original on 8 July 2015 Retrieved 1 July 2015 Obligate Brood Parasitism Aculeata Research Group Archived from the original on 7 July 2015 Retrieved 30 June 2015 Brood Parasitism Amateur Entomologists Society Archived from the original on 2 July 2015 Retrieved 30 June 2015 Gjershaug Jan Ove 5 June 2009 The social parasite bumblebee Bombus hyperboreus Schonherr 1809 usurp nest of Bombus balteatus Dahlbom 1832 Hymenoptera Apidae in Norway PDF Norwegian Journal of Entomology 56 1 28 31 Retrieved 26 September 2015 Gullan P J Cranston P S 2014 The Insects An Outline of Entomology 5th ed Wiley Blackwell p 347 ISBN 978 1 118 84615 5 Rozen Jerome George McGinley Ronald J 1991 Biology and Larvae of the Cleptoparasitic Bee Townsendiella pulchra and Nesting Biology of its Host Hesperapis larreae Hymenoptera Apoidea American Museum Novitates 3005 hdl 2246 5032 Moure Jesus S Hurd Paul David 1987 An Annotated Catalog of the Halictid Bees of the Western Hemisphere Hymenoptera Halictidae Smithsonian Institution Press pp 28 29 Warrant Eric J June 2008 Seeing in the dark vision and visual behaviour in nocturnal bees and wasps Journal of Experimental Biology 211 11 1737 1746 doi 10 1242 jeb 015396 PMID 18490389 a b c d e Chittka Lars Thomson James D 28 May 2001 Cognitive Ecology of Pollination Animal Behaviour and Floral Evolution Cambridge University Press pp 215 216 ISBN 978 1 139 43004 3 Archived from the original on 24 December 2016 Hornet attacks kill dozens in China The Guardian 26 September 2013 Archived from the original on 6 September 2015 Retrieved 18 June 2015 Friedmann Herbert 1955 The Honey Guides Bulletin of the United States National Museum 208 1 292 doi 10 5479 si 03629236 208 1 hdl 10088 10101 What predators do bumblebees have Bumblebee Conservation Trust Archived from the original on 29 June 2015 Retrieved 29 June 2015 Choi Charles Q 30 November 2013 Found First Known Predator To Lure Prey By Mimicking Flowers LiveScience Archived from the original on 30 June 2015 Retrieved 2 July 2015 the color of the orchid mantis was indistinguishable from 13 species of wild flowers in the areas the predator lived The orchid mantis is unique in that the mantis itself is the attractive stimulus Tinbergen Niko 1958 Curious Naturalists Methuen p 21 Honey Bee Disorders Honey Bee Parasites University of Georgia Archived from the original on 1 July 2015 Retrieved 29 June 2015 Tarsonemus Bee Mite ID idtools org Retrieved 25 August 2022 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 ISBN 0674379306 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 ISBN 0486122980 Scheinberg Susan 1979 The Bee Maidens of the Homeric Hymn to Hermes Harvard Studies in Classical Philology 83 1 28 doi 10 2307 311093 JSTOR 311093 Wilson Bee 2004 The Hive the Story of the Honeybee London John Murray ISBN 0 7195 6598 7 Steve Roud 6 April 2006 The Penguin Guide to the Superstitions of Britain and Ireland Penguin Books p 128 ISBN 978 0 14 194162 2 Archived from the original on 28 November 2016 a b Encyclopaedia of the History of Science Technology and Medicine in Non Western Cultures Springer Science amp Business Media 12 March 2008 p 1074 ISBN 978 1 4020 4559 2 Archived from the original on 4 July 2014 Deering Chris Yeats in Bedford Park ChiswickW4 com Archived from the original on 30 June 2015 Retrieved 28 June 2015 Bee Movie Rotten Tomatoes Archived from the original on 23 June 2015 Retrieved 30 June 2015 Jones Gwyneth 21 May 2014 The Bees by Laline Paull review a fantasy with a sting in its tail The Guardian Archived from the original on 1 July 2015 Retrieved 28 June 2015 Ancient Egypt Bee keeping Reshafim org il 6 April 2003 Archived from the original on 9 March 2016 Retrieved 16 March 2016 Beekeeping in Ancient Egypt Bee Lore 23 February 2008 Archived from the original on 22 March 2016 Retrieved 16 March 2016 Bodenheimer F S 1960 Animal and Man in Bible Lands Brill Archive p 79 Thomas Wildman A Treatise on the Management of Bees London 1768 2nd edn 1770 Harissis H V Mavrofridis G 2012 A 17th Century Testimony on the Use of Ceramic Top bar Hives Bee World 89 3 56 57 doi 10 1080 0005772x 2012 11417481 S2CID 85120138 Archived from the original on 19 October 2015 a b Aristotle Thompson D Arcy trans 1910 The Works of Aristotle Clarendon Press pp Book 9 Section 40 a b Whitfield B G October 1956 Cambridge University Press and The Classical Association are collaborating with JSTOR to digitize preserve and extend access to Greece amp Rome Virgil and the Bees A Study in Ancient Apicultural Lor Greece and Rome 3 2 99 117 doi 10 1017 S0017383500015126 JSTOR 641360 S2CID 161643666 Yang Sarah 25 October 2006 Pollinators help one third of world s crop production says new study UC Berkeley Archived from the original on 9 July 2015 Retrieved 29 June 2015 Connor Steve 16 June 2015 Wild bees just as important as domesticated bees for pollinating food crops The Independent Archived from the original on 6 September 2017 Wild bees have become as important as domesticated honeybees in pollinating food crops around the world due to the dramatic decline in number of healthy honeybee colonies over the past half century a study has found Goulson Dave Nicholls Elizabeth Botias Cristina Rotheray Ellen L 2015 Bee declines driven by combined stress from parasites pesticides and lack of flowers Science 347 6229 1255957 doi 10 1126 science 1255957 PMID 25721506 S2CID 206558985 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Loper Gerald M Sammataro Diana Finley Jennifer Cole Jerry 2006 Feral honey bees in southern Arizona 10 years after varroa infestation American Bee Journal 146 521 524 Rangel Juliana Giresi Melissa Pinto Maria Alice Baum Kristen A Rubink William L Coulson Robert N Johnston John Spencer 2016 Africanization of a feral honey bee Apis mellifera population in South Texas does a decade make a difference Ecology and Evolution 6 7 2158 2169 doi 10 1002 ece3 1974 PMC 4782243 PMID 27069571 Honey Bee Die Off Alarms Beekeepers Crop Growers and Researchers Pennsylvania State University College of Agricultural Sciences 29 January 2007 Archived from the original on 17 May 2008 Johnson Kirk 6 October 2010 Scientists and Soldiers Solve a Bee Mystery Archived 7 October 2010 at the Wayback Machine The New York Times Eban Katherine 8 October 2010 What a scientist didn t tell the New York Times about his study on bee deaths CNN Archived from the original on 19 October 2012 Retrieved 20 August 2012 Jerry J Bromenshenk Colin B Henderson Charles H Wick Michael F Stanford Alan W Zulich Rabih E Jabbour Samir V Deshpande Patrick E McCubbin Robert A Seccomb Phillip M Welch Trevor Williams David R Firth Evan Skowronski Margaret M Lehmann Shan L Bilimoria Joanna Gress Kevin W Wanner Robert A Cramer Jr 6 October 2010 Iridovirus and Microsporidian Linked to Honey Bee Colony Decline PLOS ONE 5 10 e13181 Bibcode 2010PLoSO 513181B doi 10 1371 journal pone 0013181 PMC 2950847 PMID 20949138 Honey bees in US facing extinction Archived 6 September 2008 at the Wayback Machine The Daily Telegraph London 14 March 2007 Benjamin Alison 2 May 2010 Fears for crops as shock figures from America show scale of bee catastrophe Archived 4 December 2013 at the Wayback Machine The Observer London Beekeepers Report Continued Heavy Losses From Colony Collapse Disorder Sciencedaily com 12 May 2008 Archived from the original on 31 July 2010 Retrieved 22 June 2010 Hiver fatal pour la moitie des colonies d abeilles en Suisse Radio Television Suisse 22 May 2012 Archived from the original on 12 November 2012 Retrieved 22 May 2012 Storkstad Erik 30 March 2012 Field Research on Bees Raises Concern About Low Dose Pesticides Science 335 6076 1555 Bibcode 2012Sci 335 1555S doi 10 1126 science 335 6076 1555 PMID 22461580 S2CID 206597443 EFSA identifies risks to bees from neonicotinoids European Food Safety Authority Efsa europa eu 20 September 2012 Archived from the original on 28 July 2015 Retrieved 16 March 2016 EU moves to protect bees 3 News NZ 30 April 2013 Archived from the original on 29 July 2013 Gosden Emily 29 March 2014 Bees and the crops they pollinate are at risk from climate change IPCC report to warn Archived 29 August 2014 at the Wayback Machine The Daily Telegraph London Retrieved 30 March 2014 Carrington Damian 27 April 2018 EU agrees total ban on bee harming pesticides The Guardian Kuehn F Coordinator 2015 Farming for native bees World Wide Web electronic publication Retrieved from Archived copy Archived from the original on 30 September 2015 Retrieved 4 November 2015 a href Template Cite web html title Template Cite web cite web a CS1 maint archived copy as title link Accessed 22 September 2015 Adamson Nancy Lee An Assessment of Non Apis Bees as Fruit and Vegetable Crop Pollinators in Southwest Virginia Archived 20 November 2015 at the Wayback Machine Diss 2011 Web 15 October 2015 Hunt C L Atwater H W 7 April 1915 Honey and Its Uses in the Home US Department of Agriculture Farmers Bulletin No 653 Retrieved 14 July 2015 a href Template Cite book html title Template Cite book cite book a CS1 maint uses authors parameter link Sanford Malcolm T Producing Pollen University of Florida Institute of Food and Agricultural Sciences Archived from the original on 13 January 2007 Retrieved 15 July 2015 Propolis MedlinePlus Supplements U S National Library of Medicine 19 January 2012 Archived from the original on 30 June 2016 European Food Safety Authority EFSA Panel on Dietetic Products Nutrition and Allergies 2011 Scientific Opinion EFSA Journal 9 4 2083 doi 10 2903 j efsa 2011 2083 Holland Jennifer 14 May 2013 U N Urges Eating Insects 8 Popular Bugs to Try National Geographic Archived from the original on 16 July 2015 Retrieved 16 July 2015 Botok Tempe Tahu Teri Botok Tempe Tofu Anchovy Tasty Indonesian Food Archived from the original on 26 June 2015 Retrieved 22 June 2015 This particular Botok recipe uses anchovies not bees Haris Emmaria 6 December 2013 Sensasi Rasa Unik Botok Lebah yang Menyengat Unique taste sensation botok with stinging bees in Indonesian Sayangi com Archived from the original on 22 June 2015 Retrieved 22 June 2015 Fink Mark D 2007 Nutrient Composition of Bee Brood and its Potential as Human Food Ecology of Food and Nutrition Taylor amp Francis Ecology Food and Nutrition 44 4 257 270 doi 10 1080 03670240500187278 S2CID 84191573 Annette Bruun Jensen 2016 Standard methods for Apis mellifera brood as human food Journal of Apicultural Research Taylor amp Francis Journal of Apicultural Research 58 2 1 28 doi 10 1080 00218839 2016 1226606 What is apitherapy MedicineWorld Org Archived from the original on 18 June 2015 Retrieved 20 January 2018 Barry R Cassileth 2011 Chapter 36 Apitherapy The Complete Guide to Complementary Therapies in Cancer Care Essential Information for Patients Survivors and Health Professionals World Scientific pp 221 224 ISBN 978 981 4335 66 9 Archived from the original on 7 March 2017 Ades Terri B Russel Jill eds 2009 Chapter 9 Pharmacologic and Biologic Therapies American Cancer Society Complete Guide to Complementary and Alternative Cancer Therapies 2nd ed American Cancer Society pp 704 708 ISBN 978 0 944235 71 3 a b Hefetz Abraham Blum Murray Eickwort George Wheeler James 1978 Chemistry of the dufour s gland secretion of halictine bees Comparative Biochemistry and Physiology B 61 1 129 132 doi 10 1016 0305 0491 78 90229 8 Johansson Ingela 1982 Systematic relationship of halictinae bees based on the pattern of macrocyclic lactones in the Dufour gland secretion Insect Biochemistry 12 2 161 170 doi 10 1016 0020 1790 82 90004 X External links Wikiquote has quotations related to Bees Wikimedia Commons has media related to Anthophila Bees Wikispecies has information related to Apoidea Wikibooks has a book on the topic of Beekeeping Bees Encyclopedia of Life Apoidea at All Living Things images identification guides and maps of bees Bee Genera of the World Anthophila Apoidea Bees North American species of bees at BugGuide Native Bees of North America at BugGuide Bee declines driven by combined stress from parasites pesticides and lack of flowers Science Retrieved from https en wikipedia org w index php title Bee amp oldid 1132892977, wikipedia, wiki, book, books, library,

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