Alkali bee

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Alkali bee
3-Sancassania boharti on Nomia melanderi BMOC 96-0916-059.jpg
Male bee. The lower frame is a blow-up of the small rectangle in the upper frame, showing a Sancassania boharti parasitizing him.
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Halictidae
Genus: Nomia
Subgenus: Nomia (Acunomia)
Species:
N. melanderi
Binomial name
Nomia melanderi
(Cockerell, 1906)

The alkali bee, Nomia melanderi, [1] is a ground-nesting bee native to deserts and semi-arid desert basins of the western United States. It was described by Theodore Dru Alison Cockerell in 1906. While solitary, these bees nest near each other and can form extremely dense aggregations in areas with favorable conditions.

Contents

This bee nests in salt-saturated, or alkaline, soil. Like some other bees such as Megachile rotundata , alkali bees are an effective pollinator of alfalfa. [2] The bee uses a specialized technique of opening alfalfa flowers for pollination by applying pressure to snap open the keel of the flower. Because of this and the fact that they prefer pollen to nectar, fly in a wide range of conditions, and perform well regardless of how well the field is watered, alkali bees are preferred to honeybees for alfalfa pollination but have been increasingly supplanted by M. rotundata in recent years. [3] Due to the unusual nesting habits of this bee, farmers have developed methods to accommodate them with salty mud-fields where they can burrow and lay their eggs. Farmers started doing this after realizing that plowing up natural flats like these decreased the yield of alfalfa dramatically. [4] [5]

Juvenile hormone (JH) analog methoprene can serve as a possible limiting factor for alkali bees since female bees are more likely to reach reproductive maturity with JH. [6] Alkali bees are also considered solitary bees because females have their individual nests and live alongside other female alkali bees.

Biology

Appearance

The alkali bee is about two-thirds the size of a honeybee with black and metallic banding on the abdomen. Females have, but infrequently use, stingers and the males have white faces. [3] Males and females in the northern part of the range are larger than their counterparts to the south. This is theorized to allow larval bees to survive for longer without food and may also be related to a slightly longer day in the summer, allowing for increased brood provisioning. [7]

Predators and parasites

Larvae-specific threats include bee flies (Bombyliidae) and specifically Heterostylum robustum as well as oil beetles ( Meloe niger ) and both adults and larvae are susceptible to pesticide kills. Unusually, there are not any known kleptoparasites. [8] It is also preyed upon by the conopid fly Zodion obliquefasciatum [9] and is associated with the mite Imparipes apicola.

This mite has been found in association with alkali bees but not with other species within the genus Nomia . The mites seem to oviposit in conjunction with emergence of fungi in cells (possibly Ascosphaera ). The fungi are either within the bodies of unhealthy larvae, but more commonly are found in the feces of healthy larvae. The fungi causes the fecal pellets to be strung together in a characteristic manner. After oviposition, the eggs develop, hatch, mate, feed on the fungus, then leave on the bee when it emerges. One generation of I. apicola is reared per generation of bee, so southern populations of bee which can rear multiple generations in a season are more likely to a have a high presence of mites. Adult females seem host far more mites than the males who seem to host relatively few, and they fall into cells during the provisioning stage where they carry out their life cycle, One study found that 60% of cells had mites, and the average mite count within these cells was 5.7. Although the mites can reach high densities, they don't appear to harm the bees which is possibly due to their fungivorous nature. [7]

Distribution and habitat

The alkali bee lives in arid climates, primarily desert basins in the western United States from central Washington to southern California and east to western Colorado. They prefer to nest in moist, silty soils that have good drainage, a salty surface, and don't have vegetative groundcover. The hydrology of the soils appears to be the controlling factor for where nests are made. As soil makeup affects water retention and capillary action, soils with some clay and sand but mostly silt are preferred. [8]

Behavior

Nesting behavior

While solitary, alkali bees frequently nest in high densities. Females lay 1 to 2 eggs a day, and spend most of the day building the cell for the egg. Immediately after emergence a female begins to excavate the main burrow which usually entails digging for about 12 hours. The dirt is removed and using the mandibles and foretarsi, formed into pellets which are then deposited around the entrance to the burrow. The burrows are usually about 15–20 cm in depth, but in laboratory conditions with looser soil, much deeper burrows have been created. In addition to the main vertical burrow, smaller passageways are dug horizontally. From these shorter tunnels, small vertical holes called cells are created for oviposition. [10]

Cell creation usually begins the night after the main burrow is excavated. First, the "mine burrow" is dug and then a soil lining applied to the sides which reduces the size of the cell. Lastly a clear, lipid-rich secretion from the Dufour's gland (in the abdomen) is applied to the interior of the cell to waterproof it. [8]

After the cell is constructed, the female bee begins the process of provisioning. She brings back pollen and mixes it with nectar to form a ball which is then placed in the bottom of the cell. Any debris that makes its way into the cell during this period is meticulously removed. Once the pollen ball is completed, oviposition occurs. This is usually in the late afternoon. The egg is laid on top of the pollen ball, then the female leaves the cell without inspecting it and begins to cap the cell. The egg garners no further attention after this unless it becomes diseased. In this case, the cell will be opened and packed with dirt by the female. [10]

Three or four days after oviposition the egg hatches and the larva begins to consume the pollen ball. Once this has been consumed, the larva (now a prepupa) defecates and begins diapause. In the wild this process takes 11 to 12 days. In the southern region, eggs laid early in the season may emerge after this but for eggs later in the season or for those in the northern part of the range, the pupa will emerge as a bee in the following summer, cued by the warming soil temperatures. [10]

Feeding behavior

Females must consume pollen as soon as they emerge in order for their ovaries to develop. They continue to consume pollen for at least two weeks. It is believed that because solitary bees have very large, lipid-rich eggs the pollen provides the lipids and amino acids required for making these eggs. Pollen consumption is larger in younger females, and primarily occurs in the afternoon and evening as pollen collected early in the day goes toward larval provisioning. [8]

Mating behavior

In the first few weeks of the emergence period, the majority of emerging bees are male. Once they emerge, they begin patrolling for females who likely mate soon after emerging. Their attractiveness (driven by pheromones) decreases in the days after emerging. No evidence of courtship has been observed and the copulations last less than 30 seconds. While other males sometimes observe copulation, there isn't evidence for aggression or interference by these males [7]

Conservation status

The alkali bee is not ranked for conservation. [11] Due to its commercially important role as a pollinator of the alfalfa crop in the western and northwestern United States, it is not a species of concern, unlike many native bees. [12]

Related Research Articles

<span class="mw-page-title-main">Bee</span> Clade of insects

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 currently considered a clade, called Anthophila. There are over 20,000 known species of bees in seven recognized biological families. 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.

<i>Megachile rotundata</i> Species of bee

Megachile rotundata, the alfalfa leafcutting bee, is a European bee that has been introduced to various regions around the world. As a solitary bee species, it does not build colonies or store honey, but is a very efficient pollinator of alfalfa, carrots, other vegetables, and some fruits. Because of this, farmers often use M. rotundata as a pollination aid by distributing M. rotundata prepupae around their crops. Each female constructs and provisions her own nest, which is built in old trees or log tunnels. Being a leafcutter bee, these nests are lined with cut leaves. These bees feed on pollen and nectar and display sexual dimorphism. This species has been known to bite and sting, but it poses no overall danger unless it is threatened or harmed, and its sting has been described as half as painful as a honey bee's.

<span class="mw-page-title-main">Halictidae</span> Family of bees

Halictidae is the second-largest family of bees with nearly 4,500 species. They are commonly called sweat bees, as they are often attracted to perspiration. Halictid species are an extremely diverse group that can vary greatly in appearance. These bees occur all over the world and are found on every continent except Antarctica. Usually dark-colored and often metallic, halictids are found in various sizes, colors and patterns. Several species are all or partly green and a few are red, purple, or blue. A number of them have yellow markings, especially the males, which commonly have yellow faces, a pattern widespread among the various families of bees. The family is one of many with short tongues and is best distinguished by the arcuate basal vein found on the wing. Females in this family tend to be larger than the males. They are the group for which the term 'eusocial' was first coined by entomologist, Suzanne Batra.

<span class="mw-page-title-main">Mason bee</span> Genus of insects

Mason bee is a name now commonly used for species of bees in the genus Osmia, of the family Megachilidae. Mason bees are named for their habit of using mud or other "masonry" products in constructing their nests, which are made in naturally occurring gaps such as between cracks in stones or other small dark cavities. When available, some species preferentially use hollow stems or holes in wood made by wood-boring insects.

<i>Osmia lignaria</i> Species of bee

Osmia lignaria, commonly known as the orchard mason bee or blue orchard bee, is a megachilid bee that makes nests in natural holes and reeds, creating individual cells for its brood that are separated by mud dividers. Unlike carpenter bees, it cannot drill holes in wood. O. lignaria is a common species used for early spring fruit bloom in the United States and Canada, though a number of other Osmia species are cultured for use in pollination.

<i>Osmia cornifrons</i> Species of bee

Osmia cornifrons, also known as the horned-face bee, is a species of solitary bee indigenous to Northern Asia. Physically, this species of bee is recognized for its horn-like extensions originating from its lower face. Populations of O. cornifrons have been recorded in multiple locations, including Japan, Korea, China, and Russia. O. cornifrons are more docile as compared to other species of bees and are less prone to sting when aggravated.

<i>Halictus rubicundus</i> Species of bee

Halictus rubicundus, the orange-legged furrow bee, is a species of sweat bee found throughout the Northern Hemisphere. H. rubicundus entered North America from the Old World during one of two main invasions of Halictus subgenera. These invasions likely occurred via the Bering land bridge at times of low sea level during the Pleistocene epoch.

<i>Habropoda laboriosa</i> Species of bee

Habropoda laboriosa, the southeastern blueberry bee, is a bee in the family Apidae. It is native to the eastern United States. It is regarded as the most efficient pollinator of southern rabbiteye blueberries, because the flowers require buzz pollination, and H. laboriosa is one of the few bees that exhibit this behavior. It is active for only a few weeks of the year, while the blueberries are in flower during early spring, when the temperature is warm and humid. H. laboriosa are solitary bees that live alone but nest in close proximity with other nests of their species. They have similar features to bumble bees, but they are smaller in size compared to them. H. laboriosa are arthropods so they have segmented bodies that are composed of the head, thorax, and abdomen.

<i>Nomada</i> Genus of bees

With over 850 species, the genus Nomada is one of the largest genera in the family Apidae, and the largest genus of cuckoo bees. Cuckoo bees are so named because they enter the nests of a host and lay eggs there, stealing resources that the host has already collected. The name "Nomada" is derived from the Greek word nomas, meaning "roaming" or "wandering."

<i>Lasioglossum malachurum</i> Species of bee

Lasioglossum malachurum, the sharp-collared furrow bee, is a small European halictid bee. This species is obligately eusocial, with queens and workers, though the differences between the castes are not nearly as extreme as in honey bees. Early taxonomists mistakenly assigned the worker females to a different species from the queens. They are small, shiny, mostly black bees with off-white hair bands at the bases of the abdominal segments. L. malachurum is one of the more extensively studied species in the genus Lasioglossum, also known as sweat bees. Researchers have discovered that the eusocial behavior in colonies of L. malachurum varies significantly dependent upon the region of Europe in which each colony is located.

<i>Philanthus gibbosus</i> Species of wasp

Philanthus gibbosus, the hump-backed beewolf, is a species of bee-hunting wasp and is the most common and widespread member of the genus in North America. P. gibbosus is of the order Hymenoptera and the genus Philanthus. It is native to the Midwestern United States and the western Appalachians. P. gibbosus are often observed to visit flowers and other plants in search of insect prey to feed their young. The prey that P. gibbosus catches is then coated in a layer of pollen and fed to the young wasps.

<i>Anthidium florentinum</i> Species of bee

Anthidium florentinum, one of several European wool carder bees, is a territorial species of bee in the family Megachilidae, the leaf-cutter, carder, or mason bees.

<i>Halictus ligatus</i> Species of bee

Halictus ligatus is a species of sweat bee from the family Halictidae, among the species that mine or burrow into the ground to create their nests. H. ligatus, like Lasioglossum zephyrus, is a primitively eusocial bee species, in which aggression is one of the most influential behaviors for establishing hierarchy within the colony, and H. ligatus exhibits both reproductive division of labor and overlapping generations.

<i>Ptilothrix</i> Genus of bees

Ptilothrix is a genus within the tribe Emphorini of the family Apidae. Bees of this genus can range from 7 to 15 mm. Ptilothrix species are solitary, ground-nesting bees. These bees have especially prominent hairs in the scopae of their hind legs, to help gather pollen to provision their nests. Ptilothrix species specialize on certain families of plants for their pollen, including the families Malvaceae, Convolvulaceae, Onagraceae, Cactaceae, Pontederiaceae, and Asteraceae. The genus is found in the New World, with species ranging across the Americas.

<i>Macropis nuda</i> Species of bee

Macropis nuda is a ground nesting, univoltine bee native to northern parts of North America. Thus, this species cocoons as pupae and hibernates over the winter. The species is unusual as it is an oligolectic bee, foraging exclusively for floral oils and pollen from Primulaceae of the species Lysimachia ciliata.

<i>Augochlora pura</i> Species of insect

Augochlora pura is a solitary sweat bee found primarily in the Eastern United States. It is known for its bright green color and its tendency to forage on a variety of plants. Inhabiting rotting logs, this bee can produce up to three generations per year. Both males and females have been observed licking sweat from human skin, most likely seeking salt

<i>Macrotera portalis</i> Species of bee

Macrotera portalis is a species of communal, ground nesting, partially bivoltine bees found in arid grasslands and desert regions of North America. An oligolectic bee, M. portalis gathers pollen only from plants in the genus Sphaeralcea and has patterns of seasonal emergence to survive the harsh conditions of the desert, with emergence delayed until monsoon rains arrive.

<i>Nomia</i> (bee) Genus of bees

Nomia is a genus of sweat bees in the family Halictidae. Many species have opalescent bands on the metasoma. Nomia species are moderate-sized bees that nest in the ground. Most species nest solitarily, but some species also nest communally where females share a nest but where there are no queen or worker castes. Nomia species are found Africa, tropical Asia, Australia, and in North America. There are about 130 species world wide.

<i>Augochlorella</i> Genus of bees

Augochlorella is a genus in the bee family Halictidae, commonly called sweat bees. They display metallic coloration, ranging from reddish to gold to bluish green, as is typical for other genera in the tribe Augochlorini.

<i>Colletes validus</i> Species of bee

Colletes validus, colloquially known as the blueberry cellophane bee, is a solitary, specialist bee in the family Colletidae. It is found primarily in eastern North America where it nests in sandy soils near ericaceous plants.

References

  1. "Nomia melanderi Cockerell, 1906". Integrated Taxonomic Information System.
  2. "...Nomia melanderi, sustainably managed to pollinate alfalfa ...", USDA
  3. 1 2 Delaplane, K. S.; Mayer, D. F. (2000). Crop pollination by bees. doi:10.1079/9780851994482.0000. ISBN   9780851994482.
  4. Moisset, Beatriz; Wojcik, Vicki. "The Alkali Bee (Nomia melanderi)". USDA Forest Service.
  5. Matthew Cobb (Aug 11, 2018). "Buzz: A beautiful book shows why modern bees are hippy wasps at heart". New Scientist. (A book review of Buzz by Thor Hanson.)
  6. Kapheim, Karen M.; Johnson, Makenna M. (2017). "Juvenile hormone, but not nutrition or social cues, affects reproductive maturation in solitary alkali bees (Nomia melanderi)" (PDF). Journal of Experimental Biology. 220 (Pt 20): 3794–3801. doi: 10.1242/jeb.162255 . PMID   28821570.
  7. 1 2 3 BioOne (Projet) (2004). Journal of the Kansas Entomological Society. Lawrence, Kan.: Kansas Entomological Society. OCLC   300283411.
  8. 1 2 3 4 Cane, James H. (2008-05-01). "A native ground-nesting bee (Nomia melanderi) sustainably managed to pollinate alfalfa across an intensively agricultural landscape". Apidologie. 39 (3): 315–323. doi:10.1051/apido:2008013. ISSN   1297-9678. S2CID   13556738.
  9. Howell, J.F. (1967). "Biology of Zodion obliquefasciatum (Macq.) (Diptera: Conopidae) a parasite of the alkali bee, Nomia melanderi Ckll. (Hymenoptera: Halictidae)". Bulletin of the Washington Agriculture Experimental Station. 51: 1–33.
  10. 1 2 3 Batra, S. W. T. (1970-03-16). "Behavior of the Alkali Bee, Nomia melanderi, within the Nest (Hymenoptera: Halictidae)" . Annals of the Entomological Society of America. 63 (2): 400–406. doi:10.1093/aesa/63.2.400. ISSN   0013-8746.
  11. "Insect Orders". texasinsects.tamu.edu. Retrieved 2021-03-31.
  12. Cane, James H. (25 January 2024). "The Extraordinary Alkali Bee, Nomia melanderi (Halictidae), the World's Only Intensively Managed Ground-Nesting Bee". Annual Review of Entomology. 69 (1): 99–116. doi:10.1146/annurev-ento-020623-013716. ISSN   0066-4170.
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