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Sympetrum danae

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Sympetrum danae
Male
Female
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Odonata
Infraorder: Anisoptera
Family: Libellulidae
Genus: Sympetrum
Species:
S. danae
Binomial name
Sympetrum danae
(Sulzer, 1776)
Synonyms[1]
  • Libellula danae Sulzer, 1776
  • Libellula nigra Vander Linden, 1825
  • Libellula nigricula Eversmann, 1836
  • Libellula scotica Donovan, 1811
  • Libellula veronensis Charpentier, 1825
  • Sympetrum arcticum Matsumura, 1911
  • Sympetrum verum Bartenev, 1915

Sympetrum danae, the black darter or black meadowhawk, is a dragonfly found in northern Europe, Asia, and North America. At about 30 mm (1.2 in) long, it is Britain's smallest resident dragonfly. It is a very active late summer insect typical of heathland and moorland bog pools.

Members of the genus Sympetrum are known as darters in the UK and as meadowhawks in the US and Canada.[2]

Description

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Both sexes have black legs and pterostigmata and a very broad base to the hind wing. The thorax has yellow sides separated by a bold black panel in which are three yellow spots, resembling a highland darter (Sympetrum nigrescens).[3]

The male has a mainly black thorax and abdomen. The abdomen has small yellow marks on the side, that darken with age. The wings are clear.[3]

The female has black legs and brown eyes. The abdomen is mainly yellow, becoming browner with age. It has small yellow patches at the wing bases.[3]

Breeding

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This darter is restricted to acidic shallow pools, lake margins, and ditches in lowland heath and moorland bogs, usually with bog-mosses and rushes. Eggs are laid in flight by dipping the tip of the abdomen into the water.[4] The eggs hatch the following spring and the larvae develop very rapidly, emerging after as little as two months.[5]

Females tend to choose where to lay their eggs based on the appearance of the site. Female meadowhawks also base the location of their oviposition on temperature. The females tend to gravitate more towards cooler climates rather than warmer climates. They are also likely to choose an oviposition site that contains little to no predators within the surrounding area.

Population and conservation

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In the British Isles, this dragonfly is very locally distributed in the lowlands, but more widespread in the north-west and in Ireland. It is often very locally abundant and maybe this triggers dispersal. Records from the south coast suggest that immigration from the continent does occur. Its main threats, however, are development, drainage, agriculture, and peat extraction.[3]

Diet

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The immature meadowhawk dragonflies feed on various organisms that can be found in aquatic environments. Some of their prey items include fly larvae, mosquito larvae, mayfly larvae, shrimp, and small fish. The adult meadowhawks feed on smaller, typically flying insects. This, for example, includes mosquitoes, flies, moths, and mayflies. Much of their diet consists of insects from the order Diptera.

Reproductive structures

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One factor that distinguishes the female dragonfly from the male is the presence of two spermatheca, this trait is absent in males. Females also obtain spherical bursa copulatrix. Male dragonflies, on the other hand, possess copulatory organs that aid them during sperm competition. During this process, the males have the capability of removing the sperm of previous mates from the female and replacing it with their own sperm. Males can also be distinguished by their genitalia which is uniquely four-segmented.[6]

Development

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The development of Sympetrum danae is divided into seven different phases. The first phase begins with newly developed eggs. When eggs are first laid they are white in color, but after approximately 18 hours, they become grayish. The second phase takes place four days later when the structure of the yolk alters. It is then followed by the third stage on the eighth day. During this stage, the germ plate becomes visible to the naked eye. The fourth stage occurs on the tenth day. This is when segmentation throughout the body becomes noticeable. Then, on the second week the fifth stage occurs. The eyes, mouthparts, and antennae develop during this particular stage. Many days later, on the 189th day, the sixth stage takes place and the embryo flips 180 degrees. Lastly, the seventh stage. This happens on the 197th day and it is when development is complete. The dragonfly typically hatches from its shell 217 days after it was oviposited. [7]

Female versus male activity

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Meadowhawk males are typically more active in the morning hours. They spend most of their mornings in search of females to mate with. Their activity lessens in the afternoon. Female meadowhawks are the opposite. They tend to be more dormant in the early hours and more active at night. Male dragonflies are likely to be more active near ponds and bodies of water. Oppositely, females tend to be less active when near the water and prefer to be in areas with overgrown plants and grasses. Female dragonflies typically only go to the water when they are in search of a mate or if they are laying their eggs. Unlike female dragonflies, males have two different types of flight: search flight and patrol flight. [8]

References

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  1. ^ Jump up to: a b Paulson, D.R. (2017). "Sympetrum danae". IUCN Red List of Threatened Species. 2017: e.T165473A65834539. doi:10.2305/IUCN.UK.2017-3.RLTS.T165473A65834539.en. Retrieved 20 November 2021.
  2. ^ *Black Meadowhawk, NJodes, Archive link
  3. ^ Jump up to: a b c d "Sympetrum danae". British Dragonfly Society. Retrieved 28 December 2020.
  4. ^ Dave Smallshire; Andy Swash (22 May 2014). Britain's Dragonflies: A Field Guide to the Damselflies and Dragonflies of Britain and Ireland – Fully Revised and Updated Third Edition. Princeton University Press. pp. 6, 142. ISBN 978-1-4008-5186-7.
  5. ^ "Sympetrum danae, Black Darter dragonfly, identification guide". www.first-nature.com.
  6. ^ Michiels, N. K. (January 1989). "Morphology of male and female genitalia in Sympetrum danae(Sulzer), with special reference to the mechanism of sperm removal during copulation(Ansioptera:Libellulidae)". Odonatologica. 18 (1). Societas Internationalis Odonatologica: 21–31. Retrieved April 26, 2022.
  7. ^ Waringer, J. (January 1983). "A study on embryonic development and larval growth of Symeptrum danae (Sulzer) at two artificial ponds in lower Austria(Ansioptera:Libellulidae)". Odonatologica. 12 (4). Societas Internationalis Odonatologica: 331–343. Retrieved April 25, 2022.
  8. ^ Michiels, N. K.; Dhondt, A. A. (January 1989). "Differences in male and female activity patterns in the dragonfly (Sulzer) and their relation to mate-finding (Ansioptera:Libellulidae)". Odonatologica. 18 (4). Societas Internationalis Odonatologica: 349–364. Retrieved April 26, 2022.
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