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Temporal range: Middle Eocene – recent, 45–0 Ma
Male European wool carder bee, Anthidium manicatum
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Suborder: Apocrita
Superfamily: Apoidea
Clade: Anthophila
Family: Megachilidae


A leaf-cutter bee showing abdominal scopa

Megachilidae is a cosmopolitan family of mostly solitary bees. Characteristic traits of this family are the restriction of their pollen-carrying structure (called a scopa) to the ventral surface of the abdomen (rather than mostly or exclusively on the hind legs as in other bee families), and their typically elongated labrum.[1] Megachilid genera are most commonly known as mason bees and leafcutter bees, reflecting the materials from which they build their nest cells (soil or leaves, respectively); a few collect plant or animal hairs and fibers, and are called carder bees, while others use plant resins in nest construction and are correspondingly called resin bees. All species feed on nectar and pollen, but a few are kleptoparasites (informally called "cuckoo bees"), feeding on pollen collected by other megachilid bees. Parasitic species do not possess scopae. The motion of Megachilidae in the reproductive structures of flowers is energetic and swimming-like; this agitation releases large amounts of pollen.

Life cycle


Life cycle

Nonparasitic Megachilidae typically divide their nests into cells. Each cell receives a supply of food (pollen or a pollen/nectar mix) and an egg; after finding a suitable spot (often near where she emerged), a female starts building a first cell, stocks it, and oviposits. She builds a wall that separates the completed cell from the next one. The larva hatches from the egg and consumes the food supply. After moulting a few times, it spins a cocoon and pupates. It emerges from the nest as an adult. Males die shortly after mating, but females survive for another few weeks, during which they build new nests.

Nests are often built in natural or artificial cavities. Some embed individual cells in a mass of clay or resin attached to a wall, rock surface, or plant stem. Nest cavities are often linear, for example in hollow plant stems, but not always (snail shells are used by some Osmia, and some species readily use irregular cavities).[citation needed]


Some genera of megachilids are brood parasites, so have no ventral scopa (e.g. Stelis and Coelioxys). They often parasitize related taxa. They typically enter the nest before it is sealed and lay their eggs in a cell. After hatching, the parasite larva kills the host larva, unless the female parasite has already done so, and then consumes the provisions. Parasitic species are of equal size or smaller than their victims. In 1921, the journal American Museum Novitates published a preliminary report on parasitic megachilid bees of the western United States.[2]


North America has an estimated 630 different megachilid species, including Megachile, Anthidium, Hoplitis, and Osmia. Most Megachilidae are native, and a few are introduced, accidentally and intentionally; globally the number of species identified exceeds 4,000.[3][4] Thus Megachilidae represent 15% to 20% of named species of bees.

The scientific name Megachilidae refers to the genus Megachile, translating roughly as large lipped (Ancient Greek μέγᾰς (mégas, "big") + χεῖλος (kheîlos, "lip"); their "large lips" and strong jaws are well-suited for collection of nest building materials.

Most Megachilidae build their nests in above-ground cavities; they all are solitary bees. Their nesting habits means that in some studies of bee diversity, this bee family is most likely to be the one encountered, even though the many ground nesting bees are much greater in species numbers (~70% of all bee species are ground nesters). For example, in Krombein's trap-nesting survey (1967), almost all bees that nested in his offerings were Megachilid species—40 of 43 occupying bee species. (They were outnumbered in diversity by almost twice as many species of wasps (75) that utilized the nests).[5]

Because they are (mostly) above-ground nesters and more commonly attracted to artificial nests, megachilid bees are also more commonly cultivated than ground nesting solitary bees. They accept nesting materials made from hollow stems, tubes, and blocks with preformed holes ("nest blocks"), and several megachilids have become important species for agricultural / horticultural pollination. In North America these cultivated bees include the introduced Megachile rotundata, (alfalfa leafcutter bees), used extensively in alfalfa pollination, and the western native and frequently raised Osmia lignaria (the orchard mason bee or blue orchard bee), used in orchard pollination. Other Osmia and Megachile species are also in commercial use in North America, Europe and Asia.

A suite of megachilid rely on plant resins for nest construction. These "resin bees" are typically smaller than honey bees, and effective pollinators, although the hard glue-like resins can complicate management of other tunnel nesting bees. Carder bees, Anthidium, are unique for using plant fibers; there are 80 to 90 species of them in North America. Ironically, a non-native is best known—A. manicatum, the European wool carder bee, was accidentally introduced to the Americas in the late '60s and has now spread across the continent. It has been described as "... perhaps the most widely distributed unmanaged bee species in the world."[6] Like most Anthidium, rather than cutting leaves or petals, A. manicatum scrapes the hairs from leaves to use for nesting material.[7] It is atypical because the male is larger than the female and constantly on patrol, protecting a "harem" by chasing and even attacking all interlopers including honey and bumble bees, its tail equipped with multiple prongs that can knife in between the segments of almost any intruder.[8]

Neither the introduced Anthidium nor its American cousins are considered parasites, only territorial and at times aggressive, though some genera are, including Coelioxys (kleptoparasites mostly of leafcutter bees), and Stelis (kleptoparasites of leafcutter and mason bees).

While some Megachilidae are extensively studied for their commercial possibilities (or impacts), others are studied by naturalists. Mason bees, not commonly cultivated, are known through extended observation and writings in the last half of the 19th century by Jean-Henri Fabre, with his writings made further famous by his English translator Alexander Teixeira de Mattos ("The Mason Bee"); Fabre wrote many observations, including of other Megachilidae, from his home in France, and his writings inspired many future researchers and enthusiasts, from Charles Darwin to Gerald Durrell.

Evolution and taxonomy

Carder bee (Anthidium manicatum), female
Male Haetosmia vechti, foraging on Heliotropium in Mevo Horon, West Bank
Coelioxys acanthura, female
Osmia ribifloris
Male Anthidium florentinum visiting Lantana

The fossil record for megachilid bees is poor, but a Middle Eocene dicotyledonous leaf shows definite semicircular cutouts along its margin, implying that leaf-cutting bees existed at that time.[9] Multiply-cut leaves and rare body fossils from the Eocene of Germany and the Paleocene of France suggest that Megachilinae began cutting leaves early in their evolution.[10] Phylogenetic analysis yields an age consistent with this Eocene origin for the group.[11]


  1. ^ C. D. Michener (2007) The Bees of the World, 2nd Edition, pg. 122, Johns Hopkins University Press.
  2. ^ Cockerell, Theodore; Lutz, Frank Eugene (1 December 1921). "Some parasitic megachilid bees of the western United States" (PDF). American Museum Novitates (21). Retrieved 5 October 2014.
  3. ^ BugGuide. "Megachilidae". BugGuide. Retrieved 29 September 2017.
  4. ^ 630 spp. in 18 genera of 4 tribes and 2 subfamilies in our area, ~4,100 spp. in ~80 genera of 11 tribes and 4 subfamilies worldwide(1)
  5. ^ Krombein, Karl V. (1967). Trap-nesting wasps and bees: life histories, nests, and associates. Smithsonian Press. p. 2. Retrieved 29 September 2017.
  6. ^ Gonzalez, V.H. and Griswold, T.L. (1 June 2013). "Wool carder bees of the genus Anthidium in the Western Hemisphere (Hymenoptera: Megachilidae): diversity, host plant associations, phylogeny, and biogeography". Zoological Journal of the Linnean Society. 168 (2): 221–425. doi:10.1111/zoj.12017.((cite journal)): CS1 maint: multiple names: authors list (link)
  7. ^ Michener, C. D. (2000). "73. Family Megachilidae". Bees of the World. Baltimore: Johns Hopkins University Press. pp. 417–569. ISBN 978-0801861338.
  8. ^ Honey Bee Suite (20 February 2011). "Native pollinator - wool carder bee". Rusty Burlew. Retrieved 29 September 2017.
  9. ^ Victor H. (June 2008). Phylogeny and Classification of the Bee Tribe Megachilini (Hymenoptera: Apoidea, Megachilidae), with Emphasis on the Genus Megachile. Vol. UMI 3316016. pp. 54–56. ISBN 978-0-549-68378-0.
  10. ^ Wedmann, Soni a; Wappler, Torsten; Engel, Michael S. (June 2009). "Direct and indirect fossil records of megachilid bees from the Paleogene of Central Europe (Hymenoptera: Megachilidae)". Naturwissenschaften. 96 (6): 703–712. Bibcode:2009NW.....96..703W. doi:10.1007/s00114-009-0525-x. PMID 19296064. S2CID 9394816.
  11. ^ Cardinal, Sophie; Danforth, Bryan N. (January 2013). "Bees diversified in the age of eudicots". Proceedings of the Royal Society B: Biological Sciences. 280 (1755): 20122686. doi:10.1098/rspb.2012.2686. PMC 3574388. PMID 23363629.
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