Fact-checked by Grok 2 weeks ago

Halictidae

Halictidae is a family of bees within the order , commonly known as sweat bees due to their attraction to human perspiration for , and they represent one of the seven bee families with over 4,000 described species worldwide. These small to medium-sized bees, typically measuring 3 to 20 mm in length, exhibit a wide range of morphologies, including slender bodies with metallic green, blue, or purple hues in some species and dull black or brown in others, and they are distinguished by unique wing venation features such as a strongly curved basal vein and two or three submarginal cells in the forewing. Halictids play a crucial role as pollinators, visiting a diverse array of flowers indiscriminately to collect and , which females transport using scopae on their hind legs or by scattering it on their bodies. The family Halictidae is divided into four subfamilies—Rophitinae, Nomiinae, Nomioidinae, and Halictinae—and includes notable genera such as (the largest, with over 1,700 species), Halictus, , and Nomia. Species vary in coloration and size; for instance, bees are often brightly metallic green or blue with black-and-yellow abdomens, while Sphecodes cuckoo bees are duller and lack pollen-carrying structures. Larvae are legless, C-shaped grubs, and pupae are enclosed in cocoons within the nest, with adults emerging to forage throughout the growing season. Halictidae are distributed globally, with a particular abundance in temperate regions, and hosts approximately 500 , making it the second-largest bee family after . They inhabit diverse environments, from prairies and forests to urban areas, and prefer nesting in bare, sunny , rotten wood, or stems, where they construct simple burrows for mass-provisioning their young with and . Ecologically, halictids are polylectic, on multiple plant per foraging trip, which supports biodiversity by pollinating wildflowers, crops like and stone fruits, and even adapting to varied floral structures through behavioral flexibility. Behaviorally, Halictidae display remarkable social plasticity, ranging from fully solitary nesting to communal, semisocial, or eusocial colonies with division of labor, and some , like alkali bees (Nomia melanderi), form large aggregations in alkaline soils for efficient . Cleptoparasitic in genera such as Sphecodes invade nests of other halictids to lay eggs, relying on host provisions without foraging themselves, though they still contribute to via collection. Despite their generally docile nature and rarity of stinging, their ecological significance as non-specialist pollinators underscores their importance in maintaining plant-pollinator networks amid environmental changes.

Description and Distribution

Physical Characteristics

Halictidae bees are small to medium-sized, typically measuring 3 to 20 mm in length, with females generally larger than males to facilitate tasks such as nesting and provisioning. This size range allows them to navigate diverse floral resources efficiently, though variations occur across the family's nearly 4,500 . Their coloration is highly variable, spanning dull black or brown to striking metallic hues of , , , or purple, often with an iridescent sheen that enhances visibility during . Many species exhibit robust or slender builds, with the metallic forms particularly prominent in genera like Augochlora and . A key morphological trait is the short , adapted for accessing in shallow flowers, complemented by wings featuring arcuate (strongly curved) basal veins and typically three submarginal cells. Females possess scopae—dense brushes of hairs on the hind legs for transporting —while some in the subfamily Halictinae also feature a facial fovea, a grooved area lined with hairs along the inner eye margins. is evident, with males often slimmer, bearing longer antennae for mate location, and lacking scopae; females, in contrast, have stronger mandibles suited for excavating nests. This family earns the "sweat bees" due to their attraction to human perspiration, which provides essential sodium and proteins.

Geographic Range and Habitat

Halictidae exhibit a , occurring on all continents except , with particularly high species diversity in tropical and temperate regions where environmental conditions support their varied ecological roles. This global presence reflects their adaptability to diverse climates, from equatorial zones to areas, though they are notably absent from polar extremes. The family encompasses nearly 4,500 described species across approximately 75 genera, underscoring its taxonomic richness; in north of alone, around 400–500 species have been documented as of recent estimates, contributing significantly to regional communities. These bees thrive in open, sun-exposed habitats such as grasslands, meadows, forest edges, and urban green spaces, where they favor well-drained, stable soils like sandy or clay types for ground nesting. Their preference for such sites ensures access to nesting materials and proximity to floral resources. Halictids occupy a wide altitudinal gradient, from to montane elevations exceeding 3,000 meters, including species in the Andean highlands that endure cooler, oxygen-scarce conditions. Certain taxa have adapted to extreme environments, such as arid deserts where they nest in saline soils, or wetlands like coastal marshes, demonstrating physiological tolerances to moisture variability and substrate differences. Ongoing is driving distributional shifts in Halictidae, with warming temperatures facilitating range expansions and poleward migrations in some species, such as Halictus scabiosae in , potentially altering local patterns.

Taxonomy and Evolution

Phylogeny

Halictidae is a family within the clade Anthophila (true bees), part of the superfamily in the suborder of the stinging (Aculeata). Within Anthophila, molecular phylogenies place Halictidae among the early-diverging lineages, with Melittidae as the sister group to all other bees, followed by as sister to the clade comprising Halictidae, , and Stenotritidae. Recent supermatrix analyses as of 2023 continue to robustly support these family-level relationships. This positioning highlights Halictidae's close evolutionary ties to and Melittidae, reflecting shared ancestral traits in the short-tongued bee radiation during the early diversification of bees alongside angiosperms in the . The record of Halictidae dates to the Early Eocene, approximately 53 million years ago, with the oldest known body , Halictus? savenyei, preserved in lacustrine shales from the Okanagan Highlands of , . This specimen, the second-oldest body overall and the first from , indicates early diversification within the family, supported by additional amber-preserved halictines from Eocene deposits that show morphological similarities to modern subfamilies. These s underscore Halictidae's antiquity and suggest that the family had achieved a broad across Laurasian continents by the mid-Paleogene, coinciding with post-Cretaceous radiations. Phylogenetic analyses of Halictidae, incorporating molecular data such as nuclear genes (elongation factor-1α, wingless, and long-wavelength ) and mitochondrial sequences, consistently support of the family and resolve four subfamilies: Rophitinae, Nomiinae, Nomioidinae, and Halictinae. Rophitinae emerges as the basal to the remaining subfamilies, characterized by solitary habits and host-plant specialization, while Halictinae represents the most diverse with over 3,500 species. Within the family, has evolved independently at least three to four times, primarily in Halictinae during the (around 20-22 million years ago), with frequent reversals to solitary nesting driven by climatic and ecological shifts. Similarly, has arisen multiple times, at least eight independent origins documented in Halictinae, often linked to host-specific adaptations in genera like Sphecodes and Parathrincostoma. These repeated evolutionary transitions highlight Halictidae's in social and parasitic strategies, contributing to its global success.

Classification

The family Halictidae, established by Thomson in , encompasses approximately 4,500 across more than 80 genera, making it the second-largest of bees within the Anthophila. This diverse group is characterized by short-tongued bees that exhibit a wide range of body sizes, colors (often metallic or dark with pale bands), and social behaviors, though the focuses on morphological and molecular traits rather than ecological roles. The family lacks formal tribal divisions at the highest level, but subfamilies contain informal groupings based on shared synapomorphies such as venation and nesting structures. Halictidae is systematically divided into four subfamilies: Rophitinae, Nomiinae, Nomioidinae, and Halictinae. The Rophitinae form the basal , comprising solitary bees with distinctive nesting habits where larval cells are typically excavated at a slant or horizontal angle from the main . Nomiinae includes small-bodied , frequently metallic in appearance with wasp-like forms in shades of red or black, and they generally nest solitarily or in loose communal aggregations. Nomioidinae bees construct nests featuring sub-horizontal cells branching from vertical , reflecting their ground-nesting adaptations in diverse habitats. The largest and most varied , Halictinae, encompasses over 3,500 with a spectrum of social structures from solitary to eusocial, including kleptoparasitic cuckoo bees in the tribe Sphecodini (such as those in genus Sphecodes), which lack pollen-collecting structures and invade host nests. Prominent genera illustrate the family's taxonomic breadth. Halictus, with around 200 species, includes widespread forms like H. rubicundus, noted for its robust build and variable sociality. Lasioglossum, the largest genus with approximately 1,800 , dominates Halictinae and features small, often dull or metallic bees adapted to diverse floral resources. In the Augochlorini tribe of Halictinae, Augochlora represents the vibrant green sweat bees, known for their metallic sheen and tropical to temperate distributions. Kleptoparasitic diversity is exemplified by Sphecodes in Sphecodini, with over 300 that mimic host bees to infiltrate nests. Megalopta, a nocturnal genus in Halictinae, stands out for its crepuscular activity and enlarged eyes, primarily in the Neotropics. Taxonomic revisions in recent decades have relied on to resolve cryptic species and refine generic boundaries, particularly within Halictinae. For instance, the Evylaeus has been synonymized into following integrative analyses combining , molecular data, and , which clarified relationships among over 100 eastern North American species. Such updates have increased recognized diversity while stabilizing , though challenges persist in understudied regions like the Paleotropics.

Biology and Behavior

Life Cycle and Reproduction

Halictidae bees undergo complete (holometabolous) , consisting of four distinct developmental stages: , , , and adult. Females construct individual brood cells within nests and mass-provision them with a of and , forming compact balls that serve as the sole source for offspring; after provisioning, the female lays a single on the provision and seals the cell. The hatches into a legless, grub-like that consumes the provisioned food, growing through several instars before defecating and entering a prepupal stage where it spins a . Larval development typically lasts 1–3 weeks, after which the pupates within the ; the pupal stage is brief and delicate, often lasting days to weeks, though some individuals overwinter as prepupae in . Adults emerge by chewing through the and cell cap, ready to mate and initiate nesting activities. Most Halictidae species exhibit univoltine life cycles, producing one generation per year in temperate regions, while multivoltine species in warmer climates produce multiple broods annually; , a period of dormancy, commonly occurs in the prepupal or adult stage during cooler months to synchronize emergence with favorable conditions. Transitions between univoltine and multivoltine strategies are linked to environmental factors like season length, influencing reproductive timing across the family. Reproduction in Halictidae follows the haplodiploid sex determination system typical of , where fertilized eggs develop into diploid females and unfertilized eggs into haploid males; , producing offspring from unfertilized eggs, results in males but is not a primary reproductive mode for females. occurs soon after adult emergence, with males often patrolling nesting sites or forming leks to locate receptive females, guided by visual cues and pheromones produced by virgin females to attract mates. Foundress females, typically solitary, mate once and use stored sperm to fertilize eggs selectively throughout their reproductive life. Adult lifespan varies by sex and role but generally spans 4–8 weeks, with females dedicating much of this period to nesting and provisioning before senescence.

Social Organization

Halictidae exhibit a wide spectrum of social behaviors, ranging from solitary nesting in most species of the subfamily Rophitinae to primitively eusocial organization in many Halictinae genera such as Halictus and Lasioglossum. Solitary species, like those in Xeralictus (Rophitinae), construct individual nests with minimal interactions beyond aggregation, while eusocial forms display cooperative brood care, division of labor, and overlapping generations. Primitively eusocial species, such as Halictus ligatus, feature flexible castes where workers may reproduce under certain conditions, contrasting with advanced eusociality in other bees. Many halictids demonstrate facultative , shifting between solitary and social nesting based on environmental cues; for instance, albipes forms eusocial colonies in warmer regions with longer growing seasons but remains solitary in cooler areas. These transitions are influenced by , resource availability, and pressure, with recent studies indicating that current may further promote social nesting in some populations; global warming events around 20–22 million years ago correlating with the independent origins of eusociality in three lineages. In favorable conditions, foundresses initiate social nests, whereas harsh environments promote solitary behavior to maximize individual fitness. Colonies in eusocial species are typically small, comprising 10–50 individuals, with a single queen laying eggs while workers forage for provisions and defend the nest; temperate species like Halictus ligatus form annual colonies that cycle through worker and reproductive broods before overwintering. In Halictus scabiosae, queens mass-provision brood cells, providing smaller pollen loads to first-brood offspring to induce worker phenotypes, exemplifying subsocial maternal care that progresses to cooperative rearing in social nests. Sociality in Halictidae is maintained through kin selection, where workers gain indirect fitness benefits by aiding full sisters, as seen in Lasioglossum zephyrum where relatedness influences cooperative tendencies. Dominance hierarchies emerge early in colony development, with queens suppressing worker reproduction via aggressive interactions, though workers in Lasioglossum zephyrum can challenge this based on age and kinship. Some species exhibit subsocial elements, where mothers directly tend larvae through progressive provisioning before full eusocial division of labor evolves. The evolution of in Halictidae involved multiple origins—three within Halictinae—often linked to ground-nesting habits that facilitate communal and resource sharing, with up to 12 reversals to solitariness tied to ecological shifts like host-plant . Recent genomic studies have identified as a key regulator of behavioral in sweat bees, pointing to molecular behind social transitions. These transitions highlight the family's role as a model for understanding the plasticity and repeated evolution of eusocial traits.

Ecology

Nesting and Foraging

Halictidae, commonly known as sweat bees, are predominantly ground-nesters that construct burrows in bare, sunny soil, often forming aggregations in areas such as earth banks or level ground. These aggregations can enhance nesting efficiency in suitable substrates like loose or sandy soils, allowing multiple females to share proximity without direct interference. While most species excavate soil burrows, a minority, such as those in the genus Augochlora, nest aboveground in rotting wood, utilizing pre-existing cavities in logs, stumps, or dead limbs to form chambers for brood cells. Nest architecture typically features a main vertical , 10–20 deep and 0.5–1 in diameter, from which lateral tunnels branch to connect with spherical brood cells measuring 1–2 in diameter. Each brood cell accommodates a single and is provisioned with a pollen-nectar mass; the cells are lined with a waterproof from the Dufour's gland, which prevents collapse and regulates moisture. This glandular lining, often waxy in texture, provides structural integrity and protection against soil pathogens. Foraging in Halictidae is characterized by polylectic habits, with females collecting and from a diverse array of flowering across multiple families. These bees exhibit short ranges, typically 100–200 m from the nest, reflecting their small body size and energy constraints, though some individuals may extend to 500 m under optimal conditions. Peak foraging activity occurs midday, coinciding with warmer temperatures and floral availability, which supports efficient resource gathering. Provisioning behavior involves females mass-collecting pollen and nectar to form compact balls within each brood cell, providing complete larval sustenance before sealing the cell and laying an egg. In some primitively eusocial species, elements of progressive provisioning emerge, where workers periodically supplement larval food, though mass provisioning remains the dominant strategy. Seasonal patterns align nesting initiation with spring emergence of overwintered females, who establish burrows and provision first-generation brood from April onward in temperate regions. Foraging intensifies through summer peaks, sustaining colony growth and second-generation production until late fall, after which adults enter diapause.

Species Interactions

Halictidae exhibit diverse interspecific interactions, prominently featuring , allowing parasitic species to exploit host nests for provisioning without nest construction. The genus Sphecodes (subfamily Halictinae) includes obligate that oviposit in the nests of other halictid or related bee species; the parasitic larvae typically eliminate the host egg or and consume the and provisions stockpiled by the host. This behavior binds the evolutionary fate of parasites to their hosts, often leading to cospeciation patterns observed in phylogenetic analyses. Predators of Halictidae include birds, spiders, and various wasps, such as beewolf wasps (Philanthus spp.), which ambush foraging bees on flowers and provision them to their own larvae. Sweat bees demonstrate evasive behaviors, such as altering landing patterns to avoid ambushing predators like ants (Ectatomma ruidum), by detecting chemical or visual cues from a distance. Parasitic threats also encompass fungal pathogens, including species of Aspergillus (e.g., A. flavus), which can infect larvae and adults, causing diseases like stonebrood through toxin production and enzymatic degradation, though such infections are less studied in wild halictids compared to managed bees. Over 30 species of Halictidae, primarily in the genus Megalopta (with approximately 32 species) and a few in Megommation, display crepuscular or nocturnal foraging behaviors, enabling them to exploit low-light conditions in understories where diurnal competitors are absent. For instance, Megalopta genalis, native to , possesses enlarged ocelli and compound eyes adapted for dim-light vision, allowing nest excavation and foraging at dawn and dusk while minimizing encounters with predators active during brighter hours. This temporal niche shift represents an to reduce and predation pressure in resource-limited environments. Mutualistic interactions in Halictidae primarily involve pollination partnerships with flowering plants, where bees collect nectar and pollen in exchange for cross-pollination services, supporting plant reproduction across diverse ecosystems. Some species, such as Neocorynura in Central America, employ aposematic mimicry—convergent black-and-red coloration patterns resembling other defended aculeates—to deter predators by signaling potential stinging defenses, akin to Müllerian mimicry complexes. Competition for floral resources occurs frequently among Halictidae and other bee taxa, particularly in nesting aggregations where high densities of individuals deplete local and supplies, leading to exploitative interactions that can influence efficiency and community structure. In tropical settings, nocturnal halictids like Megalopta spp. mitigate daytime competition from diurnal bees by accessing flowers during crepuscular periods, thereby partitioning resources temporally. Halictidae populations are increasingly threatened by habitat loss, urbanization, pesticide exposure, and climate change, which disrupt nesting aggregations and foraging resources. As of 2025, comprehensive reviews identify them as vital bioindicators of ecosystem health, with documented declines in many regions emphasizing the need for conservation efforts to protect these key pollinators.

Human Relevance

Pollination and Economic Value

Halictidae, commonly known as sweat bees, serve as important pollinators in both natural and agricultural ecosystems due to their foraging habits, which allow them to visit a diverse array of flowers, including those with small or shallow blooms that are less accessible to larger bees. This versatility enables them to effectively pollinate wildflowers, contributing to the maintenance of plant diversity in native habitats, while also supporting crop production through cross-pollination of various fruits and . As solitary or primitively social bees, many Halictidae exhibit behaviors that enhance pollen transfer, making them particularly valuable for crops requiring to release , such as members of the family. Certain Halictidae hold significant economic value in , notably the alkali bee (Nomia melanderi), which is a specialized of (Medicago sativa) in the , where it excels at "tripping" the flowers to facilitate seed production. This has been intensively managed since the mid-20th century, with farmers establishing artificial nesting beds—often shallow, saline mounds—to boost local populations and increase alfalfa seed yields by up to 50% in key production areas like and . Similarly, sweat bees in the genus are abundant pollinators of highbush and lowbush blueberries ( spp.), comprising over 60% of wild visitors in some fields and aiding set through their efficient on these crops, while also contributing to () pollination in regions like the northeastern U.S. These managed and wild populations collectively support pollination services valued at over $34 billion annually in the U.S. agricultural sector as of recent estimates, though this figure encompasses contributions from all insect pollinators including . Despite their benefits, Halictidae populations face threats from habitat loss due to , agricultural intensification, and soil disturbance, which reduce available nesting sites and floral resources, leading to localized declines in many regions. Emerging threats as of 2024-2025 include intensified , such as heatwaves overheating nests and altering , alongside exposure and competition, contributing to declines in species like Lasioglossum subfasciatum. As ground-nesters sensitive to environmental changes, these bees serve as effective bioindicators of , with their diversity reflecting , exposure, and landscape connectivity. Conservation efforts, such as creating protected nesting areas and reducing in farmlands, are essential to sustain their roles, particularly for managed species like the alkali bee, with recent reviews emphasizing their value in monitoring and mitigating . While Halictidae primarily benefit crops, their nature means some individuals pollinate non-crop plants, including weeds, potentially aiding spread in agricultural settings; however, this non-target effect is outweighed by their overall positive contributions to and food production.

Stinging Behavior and Safety

Only female Halictidae bees possess stingers, which are modified ovipositors used for egg-laying and . Males lack stingers and cannot . The delivered by these stingers is mild, typically causing brief , localized redness, and minimal swelling that resolves quickly without significant discomfort for most individuals. Stinging in Halictidae is rarely aggressive and occurs primarily when females feel threatened, such as during direct disturbance or when trapped against . These bees are often drawn to for its salts and moisture, landing on exposed skin in warm, humid environments like fields or during outdoor activities, but they usually depart with a gentle brush-off rather than stinging. Defensive responses may include buzzing flights as a warning or biting with mandibles if handling is persistent, though such actions are uncommon compared to the more defensive swarming of honey bees. Medically, Halictidae stings pose low risk to humans, with allergic reactions being rare and no recorded fatalities attributed specifically to their venom. In cases of allergy, symptoms may escalate to hives or anaphylaxis, necessitating prompt use of epinephrine and medical attention, but most incidents require only simple treatment like applying ice, antihistamine creams, or over-the-counter pain relievers. To mitigate encounters, individuals can reduce attraction by wiping away sweat during outdoor work in bee-active areas, as Halictidae are not considered a major public health threat due to their docile nature and mild effects.

References

  1. [1]
    EENY499/IN897: Sweat Bees, Halictid Bees, Halictidae (Insecta
    Jul 19, 2022 · Halictidae are one of the six bee families in the order Hymenoptera. Also known as sweat bees, halictids are a very diverse group of metallic and non-metallic ...
  2. [2]
    Family Halictidae – ENT 425 – General Entomology
    They are unique to the Hymenoptera with a curved basal vein and two or three submarginal cells in the forewing. They are solitary in nature and nest in the ...
  3. [3]
    Halictid Bees - USDA Forest Service
    However, no less wonderful are the many other bee species, especially in the family Halictidae (sweat bees), which seem to be "anti-specialists".
  4. [4]
    Halictidae: Alkali Bees, Sweat Bees and Cuckoo Bees - Hortsense
    Jun 17, 2025 · Halictidae occur worldwide and are the second largest family of bees. There are about 500 species in North America and they are small to medium-sized bees.
  5. [5]
    Beginner's Guide to Common Native Bees | USU
    Sweat Bees (Family: Halictidae)​​ Key features: Sweat bees are small to medium (¼–½ inch) in size. The head and thorax are often bright metallic green or black.
  6. [6]
    Halictid Bees (Sweat Bees) | Missouri Department of Conservation
    All are small; none are aggressive. Most members of this family are black or brown, but some are brightly colored, notably with metallic greens and blues. Their ...
  7. [7]
    [PDF] Identification of Bees in Southwest Idaho—A Guide for Beginners
    Figure 85. A Dufourea wing with two submarginal cells and the arcuate basal vein of all halictids. The submarginal cells are numbered (1, 2).
  8. [8]
    [PDF] COMMON BEES & WASPS OF OHIO field guide - Camp Joy
    have evolved to reach into deep flower carollas; short-tongued sweat bees and others are adapted to shallow carollas. In addition to pollination services ...
  9. [9]
    Halictidae (halictid bees, sweat bees) - Animal Diversity Web
    They are most abundant in temperate regions but are also found in tropical climates. Sweat bees are most commonly found in the ground, in habitats like clay ...
  10. [10]
    Global patterns and drivers of buzzing bees and poricidal plants
    Jul 22, 2024 · In the Americas, Apidae and Halictidae buzzing peaks in tropical regions (Figure S2A), where up to around 60% of species buzz in tropical ...Patterns Of Bee And Trait... · Star Methods · Supplemental Information
  11. [11]
    Halictidae - an overview | ScienceDirect Topics
    Halictidae is defined as a family of small solitary bees, commonly known as sweat bees, comprising approximately 4,387 described species with a worldwide ...
  12. [12]
    Halictidae Bee Family - Description, With Subfamilies And Examples
    Halictidae is the second largest bee family, with over 4000 named species with more awaiting description. Species vary in foraging habit & level of ...
  13. [13]
    Sweat Bees: 7 Quick Facts and More - The Best Bees Company
    May 7, 2024 · Halictinae is the largest subfamily, with over 3,500 species. Most are characterized by a strongly curved basil vein in their wings, and many ...
  14. [14]
    Redefining the Geographic Distribution of Two Cryptic Halictus ...
    Jun 20, 2025 · We found that H. ligatus is present at higher elevations while H. poeyi is present at lower elevations, with both species present at three sample sites in ...
  15. [15]
    Chilean bee diversity: Contrasting patterns of species and ...
    May 21, 2023 · Chile's isolation and varied climates have driven the evolution of a unique biodiversity with a high degree of endemism.Missing: wetlands | Show results with:wetlands
  16. [16]
    Bees - Arizona-Sonora Desert Museum
    There are at least 45 genera in 7 families, and perhaps as many as 1000 species of bees distributed within the Sonoran Desert bioregion. Unlike most other ...Missing: wetlands arid
  17. [17]
    The bee fauna of an Atlantic coastal plain tidal marsh community in ...
    Aug 7, 2019 · In this study, we characterize the wild bee fauna of a discrete maritime habitat in Connecticut, USA, and examine salt-marsh, beach dune, and ...<|control11|><|separator|>
  18. [18]
    Distribution widening of a ground-nesting social bee across Europe ...
    Jun 3, 2024 · Halictus scabiosae is thus expanding its range because climate change is producing—and urban environment is offering—suitable conditions in ...<|control11|><|separator|>
  19. [19]
    Consequences of a warming climate for social organisation in sweat ...
    Apr 30, 2016 · This dramatic shift in social organisation due to climate change should lead to a bigger workforce being available for summer pollination and ...
  20. [20]
    The bee tree of life: a supermatrix approach to apoid phylogeny and ...
    Jul 3, 2013 · Morphological studies have generally suggested that the phylogeny of bees is rooted near the family Colletidae, whereas many molecular studies ...
  21. [21]
    The history of early bee diversification based on five genes ... - PNAS
    Oct 10, 2006 · In contrast, ST bee families, such as Halictidae, are much less well represented in the Eocene, and representatives of Andrenidae and Colletidae ...Sign Up For Pnas Alerts · Results · Materials And Methods
  22. [22]
    An Early Eocene bee (Hymenoptera: Halictidae) from Quilchena ...
    Apr 2, 2012 · A fossil halictine bee from Early Eocene, Okanagan Highlands deposits of Quilchena, British Columbia, Canada, is described and figured.
  23. [23]
    Phylogeny of Halictidae with an emphasis on endemic African ...
    Abstract – We review the literature on phylogeny, fossil record, biogeography, and social evolution in Hal- ictidae. We then present a phylogenetic analysis ...
  24. [24]
    Bee Diversity — Museum of the Earth
    Halictidae is the second largest bee family, with almost 4,500 species. The family Halictidae is probably between 96 and 75 million years old. Fossils from ...
  25. [25]
    Family Halictidae - Sweat, Furrow, Nomiine, and Short-faced Bees
    Ascher J.S., Pickering J. (2024) Discover Life bee species guide and world checklist (Hymenoptera: Apoidea: Anthophila). 2. The Bees in Your Backyard: A ...Missing: count | Show results with:count
  26. [26]
    Bees of subfamily Nomiinae (Hymenoptera, Halictidae ... - ZooKeys
    May 19, 2025 · The subfamily Nomiinae consists of 17 genera with 626 reported species throughout the world ( Ascher and Pickering 2024 ). From Pakistan, ~ 335 ...
  27. [27]
    Bees of the Genus Dufourea Lepeletier (Hymenoptera: Halictidae
    May 1, 2012 · Rophitinae is the only subfamily of Halictidae in which all members are solitary (Pesenko and Astafurova 2006; Patiny et al. 2007; Danforth et ...
  28. [28]
    Sphecodes Sweat Bee (Family Halictidae) - UW-Milwaukee
    Mar 5, 2013 · Sphecodes bees, the stars of today's show, are parasitic solitary bees in the large, but mostly-not-parasitic sweat bee family Halictidae.Missing: Sphecodinae subfamily
  29. [29]
    The bees of the family Halictidae (Hymenoptera) described by ...
    Nov 17, 2020 · Family Halictidae, subfamilies Rophitinae, Nomiinae, and Nomioidinae. ... Sphecodes Latreille (Hymenoptera, Halictidae) in the Palaearctic ...
  30. [30]
    Seven new species of Lasioglossum (Dialictus) Robertson, 1902 ...
    Mar 22, 2023 · With more than 1900 described species, the taxonomy of the genus is complex and largely unresolved in many regions.
  31. [31]
    Genus Lasioglossum - BugGuide.Net
    Numbers. ~290 spp. in 5 subgenera in our area, ~1760 spp. in 24 subgenera ... Identifying Lasioglossum to species is difficult because they look similar.
  32. [32]
    Revision and reclassification of Lasioglossum (Evylaeus ... - PubMed
    The black species of weak-veined Lasioglossum (or Hemihalictus series) in eastern North America are revised to clarify their taxonomy and nomenclature and to ...
  33. [33]
    (PDF) Revision and reclassification of Lasioglossum (Evylaeus), L ...
    Aug 7, 2025 · Notes on available DNA barcode data are given, with diagnostic characters supplied for closely related species. One new species is described ...
  34. [34]
    DNA barcoding a nightmare taxon - Canadian Science Publishing
    Recent revisions of Lasioglossum (Dialictus) (Hymenoptera: Halictidae) for Canada and the eastern United States were completed using integrative taxonomy. DNA ...
  35. [35]
    [PDF] Loss of developmental diapause as prerequisite for social evolution ...
    Jul 23, 2019 · Univoltine species diapause during development or as adults, while multivoltine species diapause during any phase (electronic supplementary ...
  36. [36]
    Trapping studies reveal phenology and reproductive behaviour in ...
    Aug 14, 2023 · In halictid bees, evolutionary transitions from univoltine to bivoltine or multivoltine life histories seem to be favoured when changing ...Missing: haplodiploidy | Show results with:haplodiploidy
  37. [37]
    Single locus complementary sex determination in Hymenoptera
    All members have haplodiploid sex determination; males are haploid (one chromosome set) and females are diploid (two chromosome sets). Arrhenotoky is the ...
  38. [38]
    Haplodiploidy and the Evolution of Facultative Sex Ratios ... - Science
    In eusocial Hymenoptera, the haplodiploid system of sex determination creates relatedness asymmetries such that workers are more closely related on average ...
  39. [39]
    mating behavior in halictine bees (hymenoptera: halictidae): i ... - jstor
    When alighted, halictine males frequently groom, feed, "lingualate" nectar, and rotate their bodies. They sleep solitarily or gregariously, depending on the ...
  40. [40]
    Evidence for an Antiaphrodisiac in the Sweat Bee Lasioglossum ...
    Male Lasioglossum (Dialictus) zephyrum in the field are attracted to models impregnated with the odor of virgin females. The number of males responding ...
  41. [41]
    Sociality | Minnesota Native Bees
    Other than social, semi-social, or communal reproductive females or queens, adult bees have a relatively short lifespan of two to five weeks. In general, males ...
  42. [42]
    Furrow Bee Insect Facts - A-Z Animals
    In general, however, adult furrow bees have a relatively short lifespan of several weeks to a few months. The female bees typically spend much of their time ...
  43. [43]
    [PDF] Evolution of sociality in a primitively eusocial lineage of bees
    Eusociality is a major evolutionary innovation involving alterations in life history, morphology, and behavior. Advanced eusocial insects, such as ants, ...
  44. [44]
    Social Behaviours in Solitary Bees: Interactions Among Individuals ...
    Aug 9, 2025 · It has been argued that solitary species tend to show very low levels of aggression and high levels of avoidance, communal species tend to be ...
  45. [45]
    (PDF) The social organisation of Halictus ligatus (Hymenoptera
    Aug 6, 2025 · These late first brood males probably survive to mate with reproductive brood females. In orphaned nests, one worker dominates the others to ...
  46. [46]
    The genetic basis of a social polymorphism in halictid bees - Nature
    Oct 18, 2018 · Within one family of bees, the halictid or “sweat” bees (Halictidae), eusociality has arisen independently at least twice1,2. Even within ...
  47. [47]
    Recent and simultaneous origins of eusociality in halictid bees - NIH
    Previous phylogenetic studies indicate that eusociality evolved three times within this group, with multiple reversals back to simpler modes of eusociality or ...
  48. [48]
    Born to be bee, fed to be worker? The caste system of a primitively ...
    Dec 10, 2012 · Primitively eusocial halictids have a low degree of morphological differentiation between queens and helpers and a high degree of behavioural ...
  49. [49]
    costs and benefits of worker production in a facultatively social bee
    Nov 17, 2017 · Kin selection theory is foundational in helping to explain the evolution of sociality; however, the degree to which indirect fitness benefits ...
  50. [50]
    Effects of genealogical relationship and colony age on the ...
    Dominance interactions between queens and workers of the primitively eusocial bee Lasioglossum zephyrum (Hymenoptera: Halictidae) were affected by the ...Missing: care | Show results with:care
  51. [51]
    Subsociality in halictine bees - ResearchGate
    Aug 5, 2025 · This association strongly suggests that the subsocial route with maternal brood care is the route to eusociality in halictine bees.
  52. [52]
    [PDF] Sweat Bees (Halictidae): Natural History and Pesticide Exposure
    Halictidae are a diverse and widespread family, found in all terrestrial biogeographic regions of the world. They are known as “sweat bees” from the habit ...
  53. [53]
    Augochlora | Minnesota Native Bees
    This bee has solitary nests in dry-rotting cavities in wood such as in a log lying on the ground, dead tree limb, or stump.
  54. [54]
    Nesting biology and phenology of a population of Halictus farinosus ...
    Apr 24, 2013 · In this study we present phenological, sociobiological and nest architecture data from field studies on Halictus farinosus in North Logan, Utah.
  55. [55]
    Maximum foraging ranges in solitary bees: only few individuals have ...
    Previous investigations predicted maximum foraging distances of 100–200 m for small bee species and up to 1100 m for very large species based on mainly indirect ...Missing: Halictidae | Show results with:Halictidae
  56. [56]
    Trade‐Off between Foraging Activity and Infestation by Nest ...
    Feb 3, 2010 · Foraging activity correlated with ambient temperature only before midday and decreased in the afternoon. The activity of nest-infesting ...
  57. [57]
    Cryptic extended brood care in the facultatively eusocial sweat bee ...
    Apr 26, 2015 · Once provisioning is completed, an egg is laid on the pollen ball and the brood cell is closed with a plug made of wood particles (Wcislo et al.
  58. [58]
    Native Animal Profile: Sweat Bees (aka Halictid Bees)
    Oct 18, 2019 · Maryland is home to 437 species of bees, just over a quarter of which are members of the family Halictidae: sweat bees.
  59. [59]
    [PDF] Do Sphecodes cuckoo bees use chemical insignificance to ... - HAL
    Jan 18, 2021 · Here, we investigated which chemical strategy may have evolved in the cuckoo bee genus. Sphecodes (Halictidae), whose species are obligate ...
  60. [60]
    [PDF] Origins, evolution, and diversification of cleptoparasitic lineages in ...
    The evolution of parasitic behavior may catalyze the exploitation of new ecological niches yet also binds the fate of a parasite to that of its host.
  61. [61]
    Natural Enemies | Minnesota Native Bees
    Philanthus (beewolves) are predators of bees (less often wasps). Philanthus females search for and capture bees on flowers. To avoid detection, these predatory ...
  62. [62]
    [PDF] Predator recognition and evasive behavior by sweat bees ...
    These data show that bees can perceive ambushing predators and land in a more distant sector to avoid the predator. Responses of ants to evasive behavior of ...
  63. [63]
    The mycoflora of domesticated and wild bees (Apoidea)
    Aspergillus flavus andSaccharomyces spp. are pathogenic to many species of bees, and fungi are the main cause of declining alkali bee populations. There are 124 ...
  64. [64]
    Light intensity regulates flower visitation in Neotropical nocturnal bees
    Sep 18, 2020 · However, approximately 1% of the known bee species—ca. 250—are nocturnal, and the obligate dim-light taxa are distributed among the families ...Introduction · Discussion · Methods
  65. [65]
    Is Nocturnal Foraging in a Tropical Bee an Escape From ...
    Megalopta (Halictidae) are solitary or weakly social (typically 2–3 colony members) bees that forage from both diurnal flowers that remain open past sunset or ...
  66. [66]
    (PDF) Systematics and mimicry of the genus Neocorynura
    Aug 9, 2025 · Systematics and mimicry of the genus Neocorynura: an example of two species from Central America (Hymenoptera: Halictidae). December 2005 ...Missing: mutualisms | Show results with:mutualisms
  67. [67]
    Solitary Bees as Vital Bioindicators: A Comprehensive Review of the ...
    Jun 2, 2025 · Some species have characteristic yellow markings, especially on the facial region, short tongues, and arcuate (curved) basal wing veins.
  68. [68]
    [PDF] Do You “Know Your 5”? - BLUEBERRY POLLINATION
    Metallic Sweat Bees(genus Lasioglossum). These small, slightly metallic bees are abundant and diverse. They are also capable of “buzz” pollination. Most are ...
  69. [69]
    Alkali Bee (Nomia melanderi) - USDA Forest Service
    Most importantly - they are willing to pollinate flowers of the pea family, such as the introduced alfalfa, that give a floral “slap-in-the-face”. Alfalfa ...
  70. [70]
    The Extraordinary Alkali Bee, Nomia melanderi (Halictidae), the ...
    Jan 25, 2024 · Among the ground-nesting bees are several proven crop pollinators, but only the alkali bee (Nomia melanderi) has been successfully managed.
  71. [71]
    Common wild bees found in blueberry fields - Cooperative Extension
    May 22, 2013 · A little over 60% of the bees I've caught are from this group- the vast majority from the genus Lasioglossum. They are found in all fields. Some ...
  72. [72]
    Synthesis of highbush blueberry pollination research reveals region ...
    Oct 11, 2023 · Many species of solitary bees visit blueberry, with genera including mining bees (Andrena spp.), sweat bees (Lasioglossum spp.; includes some ...Missing: cranberries | Show results with:cranberries
  73. [73]
    Fact Sheet: The Economic Challenge Posed by Declining Pollinator ...
    Jun 20, 2014 · Pollinators contribute more than 24 billion dollars to the United States economy, of which honey bees account for more than 15 billion dollars ...
  74. [74]
    Native bee habitat restoration: key ecological considerations from ...
    Habitat loss is a primary driver of global biodiversity decline, negatively impacting many species, including native bees. One approach to counteract the ...Missing: Halictidae | Show results with:Halictidae
  75. [75]
    (PDF) Solitary Bees as Vital Bioindicators - ResearchGate
    Jun 8, 2025 · Solitary Bees as Vital Bioindicators: A Comprehensive Review of the Diversity, Decline, and Conservation Imperatives of the Halictidae Family.
  76. [76]
    Weed-insect pollinator networks as bio-indicators of ecological ...
    Jan 11, 2016 · Weeds provide food for insects in exchange for pollination. The stability of mutualistic interactions in pollination networks depends on ...
  77. [77]
    Weed Role for Pollinator in the Agroecosystem: Plant–Insect ...
    Aug 13, 2024 · Many typically insect-pollinated weeds can represent a valid indicator of the ecological sustainability of crop management techniques, as their ...
  78. [78]
    What to Know About Sweat Bees - WebMD
    Jan 23, 2025 · For most people, this sting is mild and won't cause much irritation. But you could have a problem if you're allergic to bee venom. Are Sweat ...Missing: behavior | Show results with:behavior
  79. [79]
    Honey Bees, Bumble Bees, Carpenter Bees and Sweat Bees
    Honey bees are defensive toward anything approaching their hive. ... Sweat bees are a few species in the family Halictidae (also called halictid bees).Honey Bees (apis Mellifera) · Carpenter Bees · Bumble Bees