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Mecoptera

Mecoptera is an order of holometabolous insects commonly known as scorpionflies and hangingflies, distinguished by their elongated rostrum housing chewing mouthparts, long filiform antennae, and membranous wings held roof-like over the abdomen when at rest.^[1] These small to medium-sized insects typically measure 5–25 mm in length, with bodies that are slender and often mottled for camouflage; males in the family Panorpidae possess enlarged terminal abdominal segments that curve upward, resembling a scorpion's tail, though they are harmless.^[1] The order Mecoptera encompasses approximately 800 extant species arranged in 9 families and over 40 genera, representing a minor but ancient lineage within the Endopterygota.^[2] Global diversity is highest in the Northern Hemisphere, particularly in temperate and subtropical forested regions of North America, Europe, and Asia, with the Oriental region serving as a biodiversity hotspot containing over 40% of known species.^[2] In North America, around 85 species occur across 5 families, while tropical areas host fewer due to their preference for cooler, moist habitats.^[1] Mecopterans inhabit shaded, humid environments such as woodlands, leaf litter, and near streams, where adults and larvae are omnivorous, feeding on decaying organic matter, dead arthropods, pollen, and nectar; some hangingflies (Bittacidae) are active predators using raptorial legs to capture prey.^[1] Their life cycle includes four stages—egg, larva, pupa, and adult—with campodeiform or eruciform larvae developing in soil for 1–2 years, and adults living briefly to mate and reproduce.^[1] Mating behaviors are elaborate, often involving nuptial gifts like dead insects or salivary secretions provided by males to females.^[1] Fossils of Mecoptera date back to the Lower Permian period, approximately 270 million years ago, indicating an early divergence among holometabolous insects and potential ancestral ties to orders such as Diptera (flies) and Siphonaptera (fleas).^[3] Despite their evolutionary antiquity and former abundance in Mesozoic deposits, modern Mecoptera play minor ecological roles as decomposers and predators, with no significant pest status.^[1]

Description and Diversity

Physical Characteristics

Mecoptera, commonly known as scorpionflies, exhibit a distinctive body plan characterized by an elongated abdomen and a head extended into a rostrum-like structure housing chewing mouthparts adapted for liquefying and consuming soft or decaying organic matter.^[1] The rostrum is typically slender and beak-shaped, with mandibles positioned at its tip, enabling the insects to grasp and process food such as dead arthropods or nectar.^[4] In some families, such as Bittacidae (hangingflies), the hind legs are raptorial, modified for capturing prey while suspended from vegetation by the forelegs.^[1] Adults range in size from approximately 2 to 25 mm in body length, with wings that are generally narrow, elongate, and of similar size between fore and hind pairs, though reduced or absent in certain species like those in Boreidae.^[5]^[6] A prominent distinguishing feature is the upturned male genital segment in families like Panorpidae, which resembles a scorpion's tail but is non-venomous and used in mating displays.^[1] They possess large compound eyes and filiform antennae typically comprising 16 or more segments.^[7] Coloration in Mecoptera is generally subdued, often featuring shades of brown, yellow, or gray, which provides camouflage in leaf litter or forest floors.^[8] Wings, when present, may display mottled patterns or subtle iridescence in some species, aiding in blending with their surroundings.^[1] Across families, variations in form exist, but the overall slender, fragile appearance remains consistent.^[6]

Species Diversity and Distribution

Mecoptera, commonly known as scorpionflies, exhibit relatively low species diversity compared to other insect orders, with approximately 800 extant species distributed across 9 families and 40 genera. This modest extant diversity contrasts sharply with the fossil record, which documents over 400 species assigned to 87 genera, indicating a significant decline from their Mesozoic abundance.^[2]^[9]^[10] Among the families, Panorpidae stands out as the most diverse, encompassing about 500 species primarily in the genus Panorpa, which dominates temperate forest habitats. Bittacidae, known as hangingflies, follows with around 220 species, mainly in the genus Bittacus, noted for their raptorial legs adapted for predation. In contrast, Meropeidae is notably rare, represented by only 3 extant species in the genera Merope and Austromerope, confined to specific locales in North America, Australia, and South America. Other families, such as Boreidae and Choristidae, contribute fewer species but highlight the order's relictual nature in boreal and southern temperate zones.^[11]^[12] Mecoptera display a cosmopolitan distribution, though they are predominantly found in temperate and subtropical regions worldwide, with notable absences in polar areas and isolated oceanic islands due to their dependence on humid, forested environments. Diversity peaks in eastern Asia, particularly China, which hosts approximately 30% of known species (around 242 as of 2022), and in North America, especially the eastern United States, reflecting historical biogeographic patterns tied to ancient Laurasian landmasses. Lower diversity characterizes southern continents like South America and Australia, where species are often endemic to relict habitats.^[13]^[14]^[15] Recent discoveries from 2020 to 2025 have incrementally expanded known diversity, underscoring ongoing taxonomic exploration in underrepresented regions. Notable additions include the hangingfly Bittacus yunlongensis from Yunnan Province, China, described in 2025 for its distinctive elongated male genitalia. Similarly, the fossil scorpionfly Mesochorista tillyardi from the same region was named in November 2025, featuring unique wing spotting patterns. A 2024 biodiversity survey in Thailand documented 21 species across 4 genera, enhancing understanding of Southeast Asian faunas. Although primarily fossil-focused, the erection of the extinct family Sinoagetopanorpidae in 2023 from Permian deposits in South China highlights persistent paleontological contributions to mecopteran taxonomy.^[16]^[17]^[2]^[18]

Biology

Morphology

Adult Mecoptera exhibit a distinctive head morphology characterized by an elongated rostrum that houses the mandibulate mouthparts adapted for scavenging dead organic matter or occasionally preying on small insects. The rostrum, formed by the prolongation of the clypeus and labrum, positions the chewing mouthparts at its apex, facilitating the manipulation and ingestion of soft, decaying tissues or captured prey.^[19] Mandibles vary in size across species and sexes, with sexual dimorphism evident in some lineages, such as enlarged mandibles in males of certain Panorpidae species that aid in preparing nuptial gifts from scavenged insects during courtship.^[20]^[19] The thorax is robust and supports two pairs of membranous wings that are typically similar in size and shape, featuring characteristic venation patterns essential for flight and identification. In the family Panorpidae, the subcosta (Sc) fuses with the radius (R) near the pterostigma, contributing to the reticulate appearance of the wing membrane and enhancing structural integrity during weak, fluttering flight.^[19]^[21] However, wing reduction occurs in specialized taxa, such as Apteropanorpidae, where adults are entirely wingless (apterous), an adaptation likely linked to their subterranean or low-mobility lifestyles in moist forest floors.^[19] The abdomen is cylindrical and segmented, comprising eleven visible segments with the first fused to the metathorax, terminating in paired cerci that serve mechanoreceptive functions by detecting air currents and vibrations. In males, the abdomen features upturned genitalia equipped with claspers (hypovalves and parameres) that secure the partner during copulation, often displaying sexual dimorphism in size and shape.^[19] Females possess a short, valvular ovipositor adapted for depositing eggs into soil or decaying wood, ensuring protection for the developing larvae.^[19]^[22] These abdominal structures briefly contribute to mating behaviors, where male claspers facilitate prolonged copulation while females assess nuptial offerings.^[19] Larval Mecoptera display varied body forms, including eruciform (caterpillar-like in Panorpidae), scarabaeiform (in Boreidae), and campodeiform (in Nannochoristidae), with a hardened head capsule, three pairs of thoracic legs for locomotion, and abdominal prolegs on segments 1–8 or more, enabling crawling through soil or litter while foraging on organic detritus. Unlike most holometabolous insects, their larvae possess functional compound eyes, providing visual acuity for navigating humid, dark environments.^[19]^[23]^[24] In Bittacidae species, such as Bittacus cirratus, B. planus, B. lii, and Terrobittacus, these compound eyes consist of 6–10 ommatidia per eye, typically seven, with variations stable across instars but differing between individuals and species, potentially reflecting adaptations to predatory habits.^[25] Sensory structures in Mecoptera are well-developed for detecting environmental cues. The filiform antennae, composed of numerous segments, primarily function in chemoreception, bearing sensilla that detect pheromones and host volatiles crucial for locating food and mates.^[19] Cerci at the abdominal apex are equipped with mechanoreceptors, including setae sensitive to mechanical stimuli like wind or substrate vibrations, aiding in predator avoidance and orientation.^[19]^[26]

Life Cycle

Mecoptera exhibit holometabolous development, characterized by four distinct life stages: egg, larva, pupa, and adult. Females typically deposit eggs singly or in small clusters within moist soil or decaying organic matter, where they develop for 5–14 days depending on temperature and humidity.^[8] The larval stage consists of 4–8 instars, with most Panorpidae species featuring four; larvae are either eruciform (caterpillar-like, as in Panorpa), scarabaeiform (as in Boreidae), or campodeiform (as in Nannochoristidae), and they function primarily as detritivores, feeding on decaying plant material and small dead invertebrates in soil or litter habitats.^[27]^[24] Larvae undergo ecdysis between instars, shedding their exoskeleton to accommodate growth, with each molt involving behavioral preparation such as burrowing deeper into the soil for protection. Following the final larval instar, individuals enter the pupal stage within a silken or earthen cocoon constructed in the soil, where significant metamorphosis occurs, including the development of wing pads, elongation of legs and antennae, and resorption of larval tissues to form adult structures.^[28] The pupal duration varies from 10–30 days, after which the adult emerges through ecdysis, splitting the pupal case. Adults are short-lived, surviving 1–2 weeks primarily for reproduction.^[28] The complete life cycle typically spans about one year in temperate regions, with larvae overwintering in diapause; laboratory conditions can shorten it to 3–4 months, as in a study on Panorpa liui reporting 87–108 days at 25°C.^[29]^[5] In temperate regions, some larvae enter diapause during winter, suspending development to overwinter in the soil until spring warming resumes growth.^[5]

Ecology

Mecoptera primarily inhabit moist, shaded forest environments, including leaf litter, under bark, and herbaceous understories, where they favor cool and humid conditions to maintain hydration and facilitate their activities. These insects are commonly associated with temperate and tropical woodlands, such as oak forests in Europe and mountainous regions in Asia, and they exhibit a broad altitudinal range extending up to approximately 3,000 m, with higher diversity often observed at mid-elevations between 500 and 1,000 m. ^[30] ^[31] ^[32] ^[2] Adult Mecoptera are predominantly scavengers, consuming dead insects and soft-bodied arthropods, though some species act as predators on live prey or feed on nectar and pollen from flowers. In contrast, larvae function as detritivores, breaking down decaying vegetation and organic matter in soil or litter, which supports nutrient recycling in forest floors. This dietary partitioning underscores their role as minor predators and decomposers within forest ecosystems, contributing to the breakdown of organic material and indirectly aiding soil health. ^[30] ^[33] ^[34] ^[35] ^[36] Their trophic interactions extend to potential pollination services, as nectar-feeding adults in modern species parallel hypothesized roles of early Mecoptera in fossil ecosystems as primitive pollinators. Activity patterns show seasonal peaks during warmer months, such as late spring to summer in temperate regions, aligning with increased humidity and prey availability. A 2024 study in Thailand revealed spatiotemporal variations, with highest diversity during the rainy season (May–October) in northern forest hotspots like Doi Pha Hom Pok, where 12 species were recorded, highlighting vulnerability to climate warming due to temperature sensitivity and restricted elevational niches. ^[35] ^[11] ^[2] Symbiotic interactions occasionally involve parasitism, with fungi and nematodes infecting larvae or adults in humid forest settings, though such occurrences are infrequent and do not significantly impact populations. ^[36]

Behavior

Adult Mecoptera primarily locomote by walking on the ground or vegetation, with some species capable of short flights, while hangingflies in the family Bittacidae often suspend themselves from foliage using their front legs to ambush prey with raptorial middle and hind legs.^[37] Larvae exhibit burrowing behavior in damp soil or leaf litter to access decaying organic matter.^[38] Foraging in adults involves scavenging dead insects, carrion, or occasionally capturing live prey, using strong mandibles to consume soft tissues; larvae feed saprophagously on decomposing plant and animal material.^[37] Social interactions among Mecoptera are limited, with most species exhibiting solitary behaviors, though some individuals aggregate in humid microhabitats to maintain moisture levels.^[37] Defensive behaviors include thanatosis, or death feigning, observed in larvae of Panorpa japonica and P. pryeri, where individuals become immobile in response to tactile stimuli like brush poking, adopting either a straight extended posture or a curled "ball" shape.^[27] This anti-predator strategy shows no significant variation in frequency across larval instars or species, but postural shifts occur developmentally, with "ball" formations increasing in later instars, potentially aiding escape by rolling.^[27] Camouflage is achieved through body postures that mimic twigs or debris during rest.^[37] Sensory behaviors rely on antennal sensilla for detecting environmental cues; in scorpionflies like Panorpa, porous chemoreceptors sense odors potentially linked to food sources, while coeloconic sensilla in hangingflies like Bittacus detect mechanical vibrations for prey location.^[37] Many Mecoptera species display nocturnal or crepuscular activity rhythms, with adults foraging and mating primarily at dusk or night to avoid diurnal predators, though some bittacids show diurnal patterns.^[37]

Evolutionary History

Fossil Record

The fossil record of Mecoptera extends back to the Early Permian, approximately 290 million years ago, with the earliest known specimens reported from localities in European Russia and North America.^[39]^[40] These early fossils, including representatives of primitive families like Mesopsychidae from the Upper Permian Isady locality in Russia's Vologda Province, indicate that mecopterans were already diverse by the late Paleozoic.^[41] Mecoptera reached their peak in abundance during the Jurassic and Cretaceous periods, with approximately 400 described fossil species assigned to 87 genera across numerous extinct families, far exceeding the diversity of modern forms.^[42] This Mesozoic radiation is evidenced by rich assemblages preserved in sedimentary deposits and amber, including key sites such as the Upper Jurassic Karabastau Formation at Karatau in Kazakhstan, which has yielded diverse compression fossils of families like Orthophlebiidae, and the Lower Cretaceous Crato Formation in Brazil's Araripe Basin, known for well-preserved limestone specimens of hangingflies (Bittacidae).^[43]^[44] Recent discoveries highlight ongoing revelations about this diversity, such as the new family Sinoagetopanorpidae from the Guadalupian Yinping Formation in China, comprising three genera and eleven species with unique wing venation patterns, and Middle Jurassic Orthophlebiidae from China exhibiting swollen first metatarsal segments suggestive of sexual dimorphism.^[18]^[45] Extinct families like Permochoristidae, primarily known from Permian deposits in China and elsewhere, underscore the higher past diversity of mecopterans compared to the nine extant families today.^[17] Fossils from mid-Cretaceous amber inclusions from Myanmar illustrate a gradual decline in mecopteran prominence toward the end of the Mesozoic, though the order persisted into the Cenozoic with reduced diversity.

Taxonomic History

The genus Panorpa, the type genus of the order, was first described by Linnaeus in 1758, placing scorpionflies within the broad Linnaean order Neuroptera due to similarities in wing venation and net-like patterns.^[46] Early entomologists often confused Mecoptera with Neuroptera and other veined-winged insects, leading to their inclusion in heterogeneous groups until the 19th century.^[47] The order Mecoptera was formally established by Alpheus Spring Packard Jr. in 1886 as "Mecaptera," recognizing distinct morphological traits such as elongated wings and specialized genitalia, and dividing it into six initial families based on genital and wing structures.^[48] The name was emended to Mecoptera by John Henry Comstock in 1895 to correct the etymological error, solidifying its status as a separate holometabolous order.^[15] Packard's work marked a pivotal revision, separating Mecoptera from Neuroptera and emphasizing their unique rostrum and raptorial legs.^[48] Subsequent contributions advanced the classification, with George W. Byers providing a comprehensive modern monograph in 1991, detailing morphology, distribution, and familial divisions in The Insects of Australia.^[49] Byers recognized nine extant families—Boreidae, Panorpidae, Bittacidae, Meropeidae, Choristidae, Nannochoristidae, Apteropanorpidae, Eomeropidae, and Notiophasmatidae—based on genital sclerites, wing venation, and larval traits, a framework still largely accepted today.^[49] Recent taxonomic revisions continue to expand knowledge, particularly in Asia, with discoveries such as three new species from Yunnan Province, China—Bittacus yunlongensis, Dicerapanorpa maoershanensis, and Dicerapanorpa yunnanensis—described in 2025, highlighting ongoing biodiversity in understudied regions.^[16] Nomenclature challenges persist, especially in fossil taxa, where incomplete specimens have led to synonyms like multiple junior names for Permian forms initially assigned to Mecynorhyncha or Pseudorthophlebia, requiring revisions through comparative morphology.^[50] Recent biodiversity surveys, such as those in Thailand and China, document species richness in the order.^[2]

Phylogeny

Mecoptera belongs to the clade Antliophora, which encompasses the orders Diptera (true flies) and Siphonaptera (fleas) alongside Mecoptera (scorpionflies).^[51] Within Antliophora, molecular phylogenomic analyses using transcriptomic data from over 3,000 single-copy genes across 56 species indicate that Mecoptera and Siphonaptera form a monophyletic sister group to Diptera.^[52] This relationship is supported by shared morphological features, such as the structure of the rostrum and male genitalia, which exhibit derived traits linking Mecoptera and Siphonaptera, including a reduced number of tarsal segments and specialized abdominal modifications.^[53] The internal phylogeny of Mecoptera reveals Panorpidae as a basal family, with Bittacidae positioned as more derived, based on combined morphological and molecular evidence.^[54] Phylogenetic trees often show unresolved polytomies among families like Panorpodidae and Choristidae, reflecting challenges in resolving deep divergences with current datasets.^[52] Evidence integrates morphological characters, such as rostrum elongation and genital sclerite configurations, with molecular markers including 18S rRNA for nuclear ribosomal data and COI for mitochondrial coding sequences, which collectively support monophyly of major lineages while highlighting homoplasy in wing venation.^[54] Fossils are incorporated into these trees to calibrate branches, providing temporal context without altering core topologies.^[18] Controversies persist regarding the exact position of Meropeidae, with some analyses placing it as sister to the remaining Mecoptera due to unique cephalic features like a prepharyngeal tube, while others suggest it nests within a paraphyletic grade leading to Panorpidae and Bittacidae.^[53] Permian fossils from sites like Tshekarda in Russia indicate early origins of Mecoptera around 290 million years ago, supporting its role as a basal holometabolan group with primitive traits such as long wings and predatory habits preserved in early lineages.^[18] Recent discoveries of mandibular dimorphism in mid-Cretaceous Meropeidae fossils demonstrate the evolution of sexually dimorphic feeding structures during the Mesozoic, likely tied to ecological shifts in resource partitioning.^[20]

Interactions and Conservation

Human Interactions

Mecoptera, commonly known as scorpionflies, are often misunderstood due to the male's enlarged genital segment at the abdomen's tip, which curls upward and resembles a scorpion's stinger, leading to the common name "scorpionfly."^[4] Despite this appearance, scorpionflies are entirely harmless to humans, lacking the ability to sting or bite.^[34]^[55] In scientific research, Mecoptera serve as important models for studying insect evolution, particularly in phylogenetics and the relationships between orders like Mecoptera, Siphonaptera (fleas), and Diptera (flies). Their diverse mating strategies also make them key subjects in investigations of sexual conflict and evolutionary biology.^[56] Additionally, certain species, such as Panorpa nuptialis, act as early colonizers of cadavers, arriving within minutes to feed on bodily fluids, which assists forensic entomologists in estimating the postmortem interval for time-of-death determinations.^[57] Culturally, Mecoptera have minor references in folklore, occasionally viewed as omens due to their eerie appearance, though such associations are rare and often conflated with true scorpions.^[58] They are routinely collected during biodiversity surveys to assess species diversity and habitat health in forested regions.^[2]^[59] Economically, Mecoptera pose negligible impact as pests, with no significant damage to agriculture or human structures reported.^[34] Some species function as bioindicators, their abundance and diversity reflecting forest health and responding to environmental stressors like decline and climate shifts.^[60] Observations of Mecoptera mating behaviors in laboratory settings have advanced understanding of sexual selection, particularly through studies of nuptial gifts such as saliva droplets or dead prey offered by males to females.^[61] Research from 2022 highlighted the evolutionary trade-offs between these gifts and coercive copulation strategies, where males grasp females to enforce mating, revealing adaptations in abdominal morphology that correlate with strategy dominance across species.^[62]

Conservation Status

The majority of Mecoptera species are considered of Least Concern globally, with no comprehensive IUCN Red List assessment available for the order as a whole.^[63] However, certain taxa exhibit vulnerability, such as Merope tuber, ranked G3G5 (vulnerable to apparently secure) by NatureServe due to limited distribution and habitat specificity in eastern North America.^[64] Similarly, the Florida scorpionfly Panorpa floridana, the state's only endemic mecopteran, is regarded as rare based on sparse collection records and sightings.^[8] Primary threats to Mecoptera include habitat loss from deforestation and urbanization, which fragment the moist, forested environments essential for their survival. Climate change exacerbates these risks, as rising temperatures and altered precipitation patterns reduce suitable humid microhabitats, rendering the order particularly susceptible; a 2024 study in Thailand highlighted this vulnerability through modeled associations between species richness, abundance, and environmental variables like elevation and temperature.^[2] Declines in mecopteran populations have been noted in North America, Mexico, and Java, attributed to habitat destruction from human activities, though quantitative data remain limited. Local endemics face heightened risks from these pressures, with no evidence of recovery in affected areas.^[65] Conservation efforts for Mecoptera are integrated into broader insect biodiversity monitoring programs, such as those in Canada documenting 25 species across four families and in the UK via recording schemes like the Neuroptera Recording Scheme.^[63]^[66] Recommendations emphasize forest preservation and habitat connectivity to mitigate threats, informed by recent spatiotemporal analyses identifying diversity hotspots in Southeast Asia that warrant targeted protection.^[2]

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A new group of fossil insects: Scorpionfly with cicada and butterfly ...
Aug 9, 2025 · The fossil beds of the Karabastau Formation in southern Kazakhstan, known as the “Jurassic Lake of Karatau”, represent one of the richest ...
[44]
A new genus of Bittacidae (Insecta: Mecoptera) from the Crato ...
This paper describes a new genus and species of hangingfly (Mecoptera: Bittacidae) from the Lower Cretaceous Crato Formation of Brazil.
[45]
Jurassic scorpionflies (Mecoptera) with swollen first metatarsal ...
Mar 20, 2021 · The tarsal swellings are considered to be sexual dimorphic, potentially associated with sexual display by males and/or camouflage of a “nuptial ...Missing: mandible | Show results with:mandible
[46]
[PDF] Mecoptera and Planipennia of Insulinde
MECOPTERA. (With. 1 plate and. 8 text-figures). These curious insects are ... Leach (1815). Leach, Edinhurg Encycl. IX, p. 138. (1815). This genus has the.
[47]
[PDF] mecoptera, megaloptera and neuroptera
Costal space of fore wing of normal width. Basal cross-vein connecting Sc with R pale coloured; fore wings pale yellow with poorly defined greyish markings ...
[48]
A Preliminary Study of Pennsylvania Mecoptera - jstor
The order Mecaptera was established by Packard (1886) and this was changed by Comstock (1895) to Mecoptera as it stands today. The Mecoptera form a small ...
[49]
The first hangingfly (Insecta: Mecoptera: Bittacidae) from the ...
May 20, 2016 · Byers G. W. 1991. Mecoptera, p. 696–704. In Naumann I. D. (ed.), The Insects of Australia: A Textbook for Students and Research Workers ...
[50]
Fossil Panorpodidae - Palaeontologia Electronica
Jun 5, 2015 · Fully transparent wings predominate in extant Panorpidae, being characteristic of five species. Only three living species have coloured ...
[51]
Phylogenomic Approach to Resolve the Arthropod Tree of Life
Abstract. Arthropods were the first animals to conquer land and air. They encompass more than three quarters of all described living species. This extraord.
[52]
Are fleas highly modified Mecoptera? Phylogenomic resolution of ...
Nov 20, 2020 · Are fleas highly modified Mecoptera? Phylogenomic resolution of Antliophora (Insecta: Holometabola) · Karen Meusemann. 1Albert Ludwig University ...Missing: et | Show results with:et
[53]
The head of Merope tuber (Meropeidae) and the phylogeny of ...
Mecoptera is a small holometabolan order but arguably a key taxon of Mecopterida and Antliophora, with more plesiomorphic conditions preserved than in the ...
[54]
Mecoptera is paraphyletic: multiple genes and phylogeny of ...
Apr 8, 2002 · Siphonaptera (fleas) is a highly specialized holometabolous insect order with 2380 described species placed in 15 families and 238 genera (Lewis ...
[55]
Mecoptera - scorpionflies - Extension Entomology - Purdue University
Scorpionflies are small to medium insects with four long, narrow wings, long antennae, and a broad, flat snout. They are harmless to people.
[56]
Evolution of sexual conflict in scorpionflies - PMC - NIH
Scorpionflies (Insecta: Mecoptera) are models in sexual conflict research due to their large variety of mating practices, including coercive behaviour and ...
[57]
https://doi.org/10.1093/jme/tju023
[58]
Scorpionfly | The Wildlife Trusts
The scorpionfly is a strange-looking insect that is found in gardens and hedgerows, and along woodland edges, particularly among stinging nettles and bramble.
[59]
Biodiversity of Mecoptera - Wiley Online Library
May 23, 2018 · A collection of Mecoptera from Latin America. Journal of the Kansas Entomological Society 77: 137–142. Google Scholar. Byers, G. W. 2008. New ...
[60]
(PDF) Influence of forest decline on the abundance and diversity of ...
Oct 6, 2020 · Our results show that declining forests can either host more or fewer species of Raphidioptera with saproxylic larvae, whereas Mecoptera with ...
[61]
Sexual Conflict: Evolving new ways to secure a mate - eLife
Apr 5, 2022 · Currently, the fossil record of Mecoptera shows evidence for 39 families, but only nine of these have survived until the present (Lin et al., ...
[62]
Evolving new ways to secure a mate - PMC - NIH
Apr 5, 2022 · Coercive copulation and gift giving have both had prominent roles in the evolution of mating strategies for Mecoptera. Now, in eLife, Agnieszka ...
[63]
Mecoptera of Canada - ZooKeys - Pensoft Publishers
Jan 24, 2019 · The Mecoptera are represented in Canada by 25 extant species in four families, an increase of three species since the prior assessment in 1979.
[64]
Merope tuber | NatureServe Explorer
This seldom-collected species was historically considered rare, but because of a variety of mostly passive collecting techniques, its known distribution has ...Missing: count | Show results with:count
[65]
[PDF] Mecoptera (Scorpionflies) | Buglife
Buglife – The Invertebrate Conservation Trust. This document provides information on species known to occur in Scotland at the time of publication. This ...<|control11|><|separator|>