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Panorpa vulgaris

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Species of insect

Panorpa vulgaris
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Mecoptera
Family: Panorpidae
Genus: Panorpa
Species: P. vulgaris
Binomial name
Panorpa vulgaris
Imhoff & Labram, 1845

Panorpa vulgaris, also known by its common name meadow scorpionfly is a species from the genus Panorpa. The species was first described in 1845.

Distribution and habitat

P. vulgaris are commonly distributed throughout central Europe. They prefer dry and warm habitats that provide shade at high temperatures and are most abundant along the edges of low-lying shrubs. Despite their environmental preference, smaller populations do occur in forested areas that experience moist and cool conditions.

Physiology

Vision

Meadow scorpionfly larvae have stemmata. In adult individuals the cytoplasm of their neuron cells located within the eye become reduced with aging, resulting in decreased vision

Flight

Adult individuals are often considered weak flyers due to deterioration of tissues with increasing age. Flight musculature degenerates over time due to the combination of deformed mitochondria and hypertrophy of connective tissues.

Immunity

In early developmental stages larvae decrease their amount of hemocytes when transitioning into pupae. This is hypothesized by the distribution of resources to reproductive structures. Females are considered to have better immunity. Females have higher amounts of hemocytes and increased lysosomal activity in their hemolymph compared to males.

Female Meadow Scorpionfly
Male Meadow Scorpionfly

Nutrition

Individuals of both sexes are capable of foraging for food, they are heavily influenced by their environments. Intraspecific and interspecific competition is common between and within both sexes when food sources are limited. Both larvae and adults typically feed on dead arthropods, and adults are often kleptoparasites of spider webs. Adults are generally capable of avoiding spiderwebs when feeding on prey. Males will use their genital claspers and females will use their abdomens to remove prey from spider webs and will even strike spiders who attempt to interfere with them.

Life cycle

The meadow scorpionfly develops two separate generations per year, one generation that undergoes overwintering in early spring and another that experiences a diapause free-developing stage in the summer. During their lifecycle individuals can survive up to two months.

Mating

Females meadow scorpionflies are known to be polyandrous, allowing them to make multiple mating attempts with numerous males. Some females have shown evidence of being capable of mating with up to nine different males. During mating, males will attach themselves to one of the females forewings with their genital claspers to remain connected until copulation is complete. Male meadow scorpionflies provide nuptial gifts for their female counterparts. The gifts males provide are a series of salivary secretions and different types of carrion that the females will ingest as a nutrient source. In the males first generation salivary secretions are the main source of nuptial gifting. During the second generation male salivary protein structures become depleted, resulting in the use of carrion. These nuptial gifts are both a mating effort and a form of paternal investment. The duration of copulation between males and females is determined by the amount of saliva a male is able to produce. While mating males will continuously transfer sperm to females until nuptial gifts are completely consumed. The sperm transferred by males will eventually compete with other ejaculates from other males by the means of the raffle principle. Since saliva production is a significant energy investment, it can be a quality indicator of male health. Females will further discriminate between different males based on the amount of saliva provided. The amount of saliva a female receives during mating directly influences the amount of offspring she is able to produce. Males will also be selective of females based on the amount of offspring a female will be able to produce. Inherently, males are capable of influencing the quality or the amount of ejaculate that they provide to females based on their bias.

References

  1. ^ Joachim Kurtz; Wiesner A; Götz P; Sauer KP (1 January 2000). "Gender differences and individual variation in the immune system of the scorpionfly Panorpa vulgaris (Insecta: Mecoptera)". Developmental and Comparative Immunology. 24 (1): 1–12. doi:10.1016/S0145-305X(99)00057-9. ISSN 0145-305X. PMID 10689094. Wikidata Q52576756.
  2. Joachim Kurtz (1 June 2002). "Phagocytosis by invertebrate hemocytes: causes of individual variation in Panorpa vulgaris scorpionflies". Microscopy Research and Technique. 57 (6): 456–468. doi:10.1002/JEMT.10099. ISSN 1059-910X. PMID 12112428. Wikidata Q34733255.
  3. "Panorpa vulgaris". iNaturalist. Retrieved 2022-05-17.
  4. "Panorpa vulgaris Imhoff & Labram, 1845". www.gbif.org. Retrieved 2022-05-17.
  5. "Panorpa vulgaris Imhoff & Labram, 1845 | Fauna Europaea". fauna-eu.org. Retrieved 2022-12-16.
  6. ^ Kaltenbach, Alfred (1978). Handuch der Zoologie. W. de Gruyter. ISBN 3-11-007432-X. OCLC 468346800.
  7. Sauer, K. P.; Hensle, R. (April 1975). "Panorpa communis L. undPanorpa vulgaris Imhoff und Labram, zwei Arten". Experientia. 31 (4): 428–430. doi:10.1007/bf02026358. ISSN 0014-4754. PMID 1120506. S2CID 21175528 – via JSTOR.
  8. Melzer, Roland R. (1994-02-01). "Optic lobes of the larval and imaginal scorpionfly Panorpa vulgaris (Mecoptera, Panorpidae): A neuroanatomical study of neuropil organization, retinula axons, and lamina monopolar cells". Cell and Tissue Research. 275 (2): 283–290. doi:10.1007/BF00319426. ISSN 1432-0878. S2CID 35335056.
  9. ^ Collatz, K. -G.; Collatz, S. (1981-01-01). "Age dependent ultrastructural changes in different organs of the mecopteran fly Panorpa vulgaris". Experimental Gerontology. 16 (2): 183–193. doi:10.1016/0531-5565(81)90044-9. ISSN 0531-5565. PMID 7286097. S2CID 34952661.
  10. ^ Bockwinkel, G.; Sauer, K. P. (1993). Panorpa scorpionflies foraging in spider webs - kleptoparasitism at low risk.
  11. ^ Kurtz, Joachim (2002-06-15). "Phagocytosis by invertebrate hemocytes: Causes of individual variation inPanorpa vulgaris scorpionflies". Microscopy Research and Technique. 57 (6): 456–468. doi:10.1002/jemt.10099. ISSN 1059-910X. PMID 12112428. S2CID 24453198.
  12. ^ Missoweit, M.; Engels, S.; Sauer, K. P. (2007-01-01). "Foraging ability in the scorpionfly Panorpa vulgaris: individual differences and heritability". Behavioral Ecology and Sociobiology. 61 (3): 487–492. doi:10.1007/s00265-006-0277-y. ISSN 1432-0762. S2CID 7358938.
  13. Missoweit, Merle; Engqvist, Leif; Lubjuhn, Thomas; Sauer, Klaus Peter (2007-07-17). "Nuptial feeding in the scorpionfly Panorpa vulgaris: maintenance of genetic variance in sexual advertisement through dependence on condition influencing traits". Evolutionary Ecology. 22 (5): 689–699. doi:10.1007/s10682-007-9191-7. ISSN 0269-7653. S2CID 22358227.
  14. Thornhill, R (November 1981). "Panorpa (Mecoptera: Panorpidae) Scorpionflies: Systems for Understanding Resource-Defense Polygyny and Alternative Male Reproductive Efforts". Annual Review of Ecology and Systematics. 12 (1): 355–386. doi:10.1146/annurev.es.12.110181.002035. ISSN 0066-4162.
  15. ^ Sauer, Klaus Peter; Sindern, Jörn; Kall, Nicole (1997-01-01). "Nutritional Status of Males and Sperm Transfer in the Scorpionfly Panorpa vulgaris (Mecoptera: Panorpidae)". Entomologia Generalis: 189–204. doi:10.1127/entom.gen/21/1997/189.
  16. ^ Engels, Sierk; Sauer, Klaus Peter (2006-01-01). "Love for sale and its fitness benefits: nuptial gifts in the scorpionfly Panorpa vulgaris represent paternal investment". Behaviour. 143 (7): 825–837. doi:10.1163/156853906778017962. ISSN 0005-7959.
  17. Thornhill, Randy; Sauer, K. Peter (1991). "The notal organ of the scorpionfly (Panorpa vulgaris): an adaptation to coerce mating duration". Behavioral Ecology. 2 (2): 156–164. doi:10.1093/beheco/2.2.156. ISSN 1045-2249.
Taxon identifiers
Panorpa vulgaris
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