Diplostraca Explained

The Diplostraca or Cladocera, commonly known as water fleas, is a superorder of small, mostly freshwater crustaceans, most of which feed on microscopic chunks of organic matter, though some forms are predatory.

Over 1000 species have been recognised so far, with many more undescribed.[1] [2] [3] [4] The oldest fossils of diplostracans date to the Jurassic, though their modern morphology suggests that they originated substantially earlier, during the Paleozoic. Some have also adapted to a life in the ocean, the only members of Branchiopoda to do so, though several anostracans live in hypersaline lakes.[5] Most are 0.2- long, with a down-turned head with a single median compound eye, and a carapace covering the apparently unsegmented thorax and abdomen. Most species show cyclical parthenogenesis, where asexual reproduction is occasionally supplemented by sexual reproduction, which produces resting eggs that allow the species to survive harsh conditions and disperse to distant habitats.

Description

They are mostly 0.2- long, with the exception of Leptodora, which can be up to 18mm long. The body is not obviously segmented and bears a folded carapace which covers the thorax and abdomen.

The head is angled downwards, and may be separated from the rest of the body by a "cervical sinus" or notch. It bears a single black compound eye, located on the animal's midline, in all but two genera, and often, a single ocellus is present. The head also bears two pairs of antennae – the first antennae are small, unsegmented appendages, while the second antennae are large, segmented, and branched, with powerful muscles. The first antennae bear olfactory setae, while the second are used for swimming by most species. The pattern of setae on the second antennae is useful for identification. The part of the head which projects in front of the first antennae is known as the rostrum or "beak".

The mouthparts are small, and consist of an unpaired labrum, a pair of mandibles, a pair of maxillae, and an unpaired labium. They are used to eat "organic detritus of all kinds" and bacteria.

The thorax bears five or six pairs of lobed, leaf-like appendages, each with numerous hairs or setae. Carbon dioxide is lost, and oxygen taken up, through the body surface.

Lifecycle

With the exception of a few purely asexual species, the lifecycle of diplostracans is dominated by asexual reproduction, with occasional periods of sexual reproduction; this is known as cyclical parthenogenesis.[6] When conditions are favourable, reproduction occurs by parthenogenesis for several generations, producing only female clones. As the conditions deteriorate, males are produced, and sexual reproduction occurs. This results in the production of long-lasting dormant eggs. These ephippial eggs can be transported over land by wind, and hatch when they reach favourable conditions, allowing many species to have very wide – even cosmopolitandistributions.[7] Except for the genus Leptodora, which has a metanauplius stage, a nauplius larval stage is absent in Diplostraca.[8]

Evolutionary history

Diplostraca are nested within the clam shrimp, being most closely related to the order Cyclestherida, the only living genus of which is Cyclestheria. Though several fossils from the Paleozoic have been claimed to represent fossils of diplostracans, none of these records can be confirmed. The oldest confirmed records of diplostracans are from the Early Jurassic of Asia. Fossils from the Jurassic are assignable to modern as well as extinct groups, indicating that the initial radiation of the group occurred prior to the beginning of the Jurassic, likely during the late Paleozoic.[9]

Ecology

Most diplostracan species live in fresh water and other inland water bodies, with only eight species being truly oceanic.[10] The marine species are all in the family Podonidae, except for the genus Penilia.[10] Some diplostracans inhabit leaf litter.[11]

Taxonomy

According to the World Registry of Marine Species, Cladocera is a synonym of the superorder Diplostraca, which is included in the class Branchiopoda. Both names are currently in use. The superorder forms a monophyletic group of 7 orders, about 24 families, and more than 11,000 species. Many more species remain undescribed.[12] The genus Daphnia alone contains around 150 species.[6] Many groups of the water fleas are cryptic species or species flocks.[13]

The following families are recognised:

Superorder Diplostraca Gerstaecker, 1866 (=Cladocera)

Order Anomopoda G.O. Sars, 1865

Family Acantholeberidae Smirnov, 1976

Family Bosminidae Baird, 1845

Family Chydoridae Dybowski & Grochowski, 1894

Family Daphniidae Straus, 1820

Family Dumontiidae Santos-Flores & Dodson, 2003

Family Eurycercidae Kurz, 1875

Family Gondwanothrichidae Van Damme, Shiel & Dumont, 2007

Family Ilyocryptidae Smirnov, 1976

Family Macrothricidae Norman & Brady, 1867

Family Moinidae Goulden, 1968

Family Ophryoxidae Smirnov, 1976

Order Ctenopoda G.O. Sars, 1865

Family Holopediidae G.O. Sars, 1865

Family Pseudopenilidae Korovchinsky & Sergeeva, 2008

Family Sididae Baird, 1850

Order Cyclestherida Sars G.O., 1899

Family Cyclestheriidae Sars G.O., 1899

Order Haplopoda G.O. Sars, 1865

Family Leptodoridae Lilljeborg, 1861

Order Laevicaudata Linder, 1945

Family Lynceidae Stebbing, 1902

Order Onychopoda G.O. Sars, 1865

Family Cercopagididae Mordukhai-Boltovskoi, 1968

Family Podonidae Mordukhai-Boltovskoi, 1968

Family Polyphemidae Baird, 1845

Order Spinicaudata Linder, 1945

Family Cyzicidae Stebbing, 1910

Family Eocyzicidae Schwentner, et al., 2020

Family Leptestheriidae Daday, 1913: 44

Family Limnadiidae Burmeister, 1843

Etymology

The word "Cladocera" derives via Neo-Latin from the Ancient Greek Greek, Modern (1453-);: [[:wikt:κλάδος|κλάδος]] (Greek, Modern (1453-);: kládos, "branch") and Greek, Modern (1453-);: [[:wikt:κέρας|κέρας]] (Greek, Modern (1453-);: kéras, "horn").[14]

See also

References

External links

Notes and References

  1. Kotov . Alexey . 2007 . Jurassic Cladocera (Crustacea, Branchiopoda) with a description of an extinct Mesozoic order . . 41 . 1–4 . 13–37. 10.1080/00222930601164445. 2007JNatH..41...13K . 83483722 .
  2. Kotov . Alexey . 2009 . New finding of Mesozoic ephippia of the Anomopoda (Crustacea: Cladocera) . . 43 . 9–10 . 523–528 . 10.1080/00222930802003020. 2009JNatH..43..523K . 84144888 .
  3. Kotov . Alexey . Korovchinsky . Nikolai . 2006 . First record of fossil Mesozoic Ctenopoda (Crustacea, Cladocera) . . 146 . 2 . 269–274 . 10.1111/j.1096-3642.2006.00204.x. free .
  4. Kotov . Alexey . Taylor . Derek . 2011 . Mesozoic fossils (>145 Mya) suggest the antiquity of the subgenera of Daphnia and their coevolution with chaoborid predators . . 11 . 1 . 129 . 10.1186/1471-2148-11-129. 21595889 . 3123605 . 2011BMCEE..11..129K . free .
  5. Book: Vernberg, F. John . Environmental Adaptations . 2014 . Elsevier Science . 978-0-323-16282-1 . 338–.
  6. Book: Isa Schön . Koen Martens . Peter van Dijk . 2009 . Lost Sex: The Evolutionary Biology of Parthenogenesis . . 978-90-481-2769-6 . Cyclical parthenogeness in Daphnia: sexual versus asexual reproduction . Ellen Decaestecker . Luc De Meester . Joachim Mergaey . 295–316 . https://lirias.kuleuven.be/handle/123456789/208129 . 10.1007/978-90-481-2770-2_15. 82949264 .
  7. Book: Douglas Grant Smith . Cladoceran Branchiopoda (water fleas) . 453–488 . Douglas Grant Smith . Kirstern Work . 2001 . Pennak's Freshwater Invertebrates of the United States: Porifera to Crustacea . 4th . . 978-0-471-35837-4 . https://books.google.com/books?id=GqIctb8IqPoC&pg=PA468.
  8. https://books.google.com/books?id=2U8CBAAAQBAJ&dq=A+naupliar+stage+is+absent+in+Cladocera%2C+except+Leptodora%2C+which+has+a+metanauplius+stage&pg=PA438 Thorp and Covich's Freshwater Invertebrates: Keys to Nearctic Fauna
  9. Van Damme. Kay. Kotov. Alexey A.. December 2016. The fossil record of the Cladocera (Crustacea: Branchiopoda): Evidence and hypotheses. Earth-Science Reviews. en. 163. 162–189. 10.1016/j.earscirev.2016.10.009. 2016ESRv..163..162V.
  10. Book: Sol Felty Light . James T. Carlton . 2007 . The Light and Smith Manual: Intertidal Invertebrates from Central California to Oregon . 4th . . 978-0-520-23939-5. Branchiopoda . Denton Belk . 414–417 . https://books.google.com/books?id=64jgZ1CfmB8C&pg=PA416.
  11. Rubbo . Michael J. . Kiesecker . Joseph M. . 2004 . Leaf litter composition and community structure: translating regional species changes into local dynamics . Ecology . 85 . 9 . 2519–2525 . 10.1890/03-0653. 2004Ecol...85.2519R . free .
  12. L. Forró . N. M. Korovchinsky . A. A. Kotov . A. Petrusek . 2008 . Global diversity of cladocerans (Cladocera; Crustacea) in freshwater . . 595 . 1 . 177–184 . 10.1007/s10750-007-9013-5 . 45363782 .
  13. Kotov . Alexey A. . Garibian . Petr G. . Bekker . Eugeniya I. . Taylor . Derek J. . Karabanov . Dmitry P. . 2020-06-17 . A new species group from the Daphnia curvirostris species complex (Cladocera: Anomopoda) from the eastern Palaearctic: taxonomy, phylogeny and phylogeography . . 191 . 3 . 772–822 . 10.1093/zoolinnean/zlaa046 . 0024-4082 .
  14. Webster's II New College Dictionary . Cladoceran . 211 . 3rd . . 2005 . 978-0-618-39601-6 . https://books.google.com/books?id=OL60E3r2yiYC&pg=PA211.
  15. (April 16, 2013) NorthAmericanFishing - "Silent Invaders" Spiny Water Flea PT 1 2013