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Daphnia pulicaria

April 14, 2024

Daphnia pulicaria is a species of freshwater crustaceans found within the genus of Daphnia, which are often called "water fleas," and they are commonly used as model organisms for scientific research.[1] Like other species of Daphnia, they reproduce via cyclic parthenogenesis.[2] D. pulicaria are filter-feeders with a diet primarily consisting of algae, including Ankistrodesmus falcatus, and they can be found in deep lakes located in temperate climates.[3] Furthermore, D. pulicaria are ecologically important herbivorous zooplankton, which help control algal populations and are a source of food for some fish.[4] D. pulicaria are closely related to Daphnia pulex, and numerous studies have investigated the nature and strength of this relationship because these species can produce Daphnia pulex-pulicaria hybrids.[5] In recent years, D. pulicaria along with other Daphnia species have been negatively affected by invasive predators, such as Bythotrephes longimanus.[6]

Daphnia pulicaria
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Branchiopoda
Order: Anomopoda
Family: Daphniidae
Genus: Daphnia
Subgenus: Daphnia
Species:
D. pulicaria
Binomial name
Daphnia pulicaria
Forbes, 1893

Habitat and life history edit

Daphnia pulicaria generally live in deep, permanent lakes.[7] These lakes provide a more stable environment than temporary ponds, which eventually dry up, so populations of D. pulicaria tend to have lower mortality rates than D. pulex populations living in ponds.[7] Furthermore, D. pulicaria have a relatively long lifespan of 60–65 days.[8] The populations of D. pulicaria in the Great Lakes in the United States have been negatively affected by the invasive species Bythotrephes longimanus.[6] This invasive predator of D. pulicaria has also contributed to a decline of other zooplankton species in the Great Lakes.[6]

Reproduction edit

Cyclic parthenogenesis is the primary mode of reproduction in D. pulicaria and other species within the genus Daphnia.[2] Therefore, D. pulicaria are capable of switching between sexual and asexual reproduction based on environmental conditions.[9] Typically, Daphnia undergo asexual reproduction when living in favorable conditions, such as in environments with abundant food or with negligible crowding.[9] In contrast, they produce ephippia, which are dormant eggs, and reproduce sexually if environmental conditions worsen.[9] Some studies suggest that populations of D. pulicaria in lakes in North America reproduce using the expected pattern of cyclic parthenogenesis while other populations in smaller ponds have shifted toward obligate parthenogenesis.[2] The number of offspring produced through asexual reproduction is heavily influenced by the environmental conditions experienced by an individual.[10] For instance, females in a high-food environment with a longer photoperiod tend to have more offspring.[10] Environmental cues, such as food level, photoperiod, and temperature, significantly influence the reproduction of D. pulicaria.[10]

Morphology edit

Daphnia pulicaria have a translucent carapace and two prominent second antennae, which they use to move.[11] The carapace, composed primarily of chitin, helps protect the feeding apparatus, and it is periodically shed during an individual's life.[11] Daphnia have a compound eye, and they are known to have an optomotor response.[12] D. pulicaria generally have a body length less than 3mm.[3] Because of the clear carapace of Daphnia, it is possible to see the heart and digestive tract, which often appears to be green due to the consumption of algae.[11] The abdominal claw is also visible toward the end of the abdomen, and it can be used to dislodge any algae from the feeding apparatus if some begins to stick.[11]

Closely related species edit

D. pulicaria are considered to be part of the Daphnia pulex species complex and can produce hybrids with D. pulex.[3] While it is difficult to distinguish between these two species using morphological traits, D. pulicaria and D. pulex have significant genomic differences.[13] Phylogenetic studies, using mitochondrial DNA analysis, have identified genetic divergence between D. pulicaria and D. pulex.[5] For instance, variations in the Lactate dehydrogenase gene can help identify D. pulicaria from others in the D. pulex species complex.[13]

Model organisms edit

Species of Daphnia, including D. pulicaria, are commonly used as model organisms for studying life-history traits and phenotypic plasticity.[4] For example, D. pulicaria can detect and respond to kairomones produced by predatory fish.[4] Their sensitivity to environmental cues contributes to the observed seasonal trends in population sizes of D. pulicaria.[4] Moreover, because D. pulicaria reproduce using cyclic parthenogenesis, they are ideal models for genetic studies, including ones concerning spontaneous mutations.[14]

References edit

  1. ^ Geedey, C. K.; Tessier, A. J.; Machledt, K. (1996). "Habitat heterogeneity, environmental change, and the clonal structure of Daphnia populations". Functional Ecology. 10 (5): 613–621. Bibcode:1996FuEco..10..613G. doi:10.2307/2390171. JSTOR 2390171.
  2. ^ a b c Černý, Martin; Hebert, Paul D. N. (1993). "Genetic diversity and breeding system variation in Daphnia pulicaria from North American lakes". Heredity. 71 (5): 497–507. doi:10.1038/hdy.1993.168.
  3. ^ a b c Dudycha, Jeffry L.; Tessier, Alan J. (1999). "Natural Genetic Variation of Life Span, Reproduction, and Juvenile Growth in Daphnia". Evolution. 53 (6): 1744–1756. doi:10.1111/j.1558-5646.1999.tb04559.x. PMID 28565448.
  4. ^ a b c d Bernot, Randall J.; Dodds, Walter K.; Quist, Michael C.; Guy, Christopher S. (2006). "Temperature and kairomone induced life history plasticity in coexisting Daphnia". Aquatic Ecology. 40 (3): 361–372. Bibcode:2006AqEco..40..361B. doi:10.1007/s10452-006-9035-5.
  5. ^ a b Colbourne, J.K.; Crease, T. J.; Weider, L. J.; Hebert, P. D. N.; Dufresne, F.; Hobæk, A. (1998). "Phylogenetics and evolution of a circumarctic species complex (Cladocera: Daphnia pulex)". Biological Journal of the Linnean Society. 65: 347–365.
  6. ^ a b c Barbiero, Richard; Tuchman, Marc (2004). "Changes in the crustacean communities of Lakes Michigan, Huron, and Erie following the invasion of the predatory cladoceran Bythotrephes longimanus". Canadian Journal of Fisheries and Aquatic Sciences. 61 (11): 2111–2125. doi:10.1139/f04-149.
  7. ^ a b Dudycha, Jeffry L. (2004). "Mortality dynamics of Daphnia in contrasting habitats and their role in ecological divergence". Freshwater Biology. 49 (5): 505–514. Bibcode:2004FrBio..49..505D. doi:10.1111/j.1365-2427.2004.01201.x.
  8. ^ Schumpert, Charles; Handy, Indhira; Dudycha, Jeffry L.; Patel, Rekha C. (2014). "Relationship between heat shock protein 70 expression and life span in Daphnia". Mechanisms of Ageing and Development. 139: 1–10. doi:10.1016/j.mad.2014.04.001. PMC 4122616. PMID 24814302.
  9. ^ a b c Thielsch, Anne; Brede, Nora; Petrusek, Adam; De Meester, Luc; Schwenk, Klaus (2009). "Contribution of cyclic parthenogenesis and colonization history to population structure in Daphnia". Molecular Ecology. 18 (8): 1616–1628. Bibcode:2009MolEc..18.1616T. doi:10.1111/j.1365-294X.2009.04130.x. PMID 19298264.
  10. ^ a b c Alekseev, Victor; Lampert, Winfried (2004). "Maternal effects of photoperiod and food level on life history characteristics of the cladoceran Daphnia pulicaria Forbes". Hydrobiologia. 526: 225–230. doi:10.1023/B:HYDR.0000041600.16226.12.
  11. ^ a b c d Introduction to Daphnia Biology. National Center for Biotechnology Information (US). 2005. {{cite book}}: |website= ignored (help)
  12. ^ Hathaway, Campbell R.; Dudycha, Jeffry L. (2018). "Quantitative measurement of the optomotor response in free-swimming Daphnia". Journal of Plankton Research. 40 (3): 222–229. doi:10.1093/plankt/fby014.
  13. ^ a b Crease, Teresa J; Floyd, Robin; Cristescu, Melania E; Innes, David (2011). "Evolutionary factors affecting Lactate dehydrogenase A and B variation in the Daphnia pulex species complex". BMC Evolutionary Biology. 11 (1): 212–223. Bibcode:2011BMCEE..11..212C. doi:10.1186/1471-2148-11-212. PMC 3231769. PMID 21767386.
  14. ^ Schaack, S.; Allen, D. E.; Latta IV, L. C.; Morgan, K. K.; Lynch, M. (2013). "The effect of spontaneous mutations on competitive ability". Journal of Evolutionary Biology. 26 (2): 451–456. doi:10.1111/jeb.12058. PMC 3548015. PMID 23252614.

April 14, 2024
daphnia, pulicaria, species, freshwater, crustaceans, found, within, genus, daphnia, which, often, called, water, fleas, they, commonly, used, model, organisms, scientific, research, like, other, species, daphnia, they, reproduce, cyclic, parthenogenesis, puli. Daphnia pulicaria is a species of freshwater crustaceans found within the genus of Daphnia which are often called water fleas and they are commonly used as model organisms for scientific research 1 Like other species of Daphnia they reproduce via cyclic parthenogenesis 2 D pulicaria are filter feeders with a diet primarily consisting of algae including Ankistrodesmus falcatus and they can be found in deep lakes located in temperate climates 3 Furthermore D pulicaria are ecologically important herbivorous zooplankton which help control algal populations and are a source of food for some fish 4 D pulicaria are closely related to Daphnia pulex and numerous studies have investigated the nature and strength of this relationship because these species can produce Daphnia pulex pulicaria hybrids 5 In recent years D pulicaria along with other Daphnia species have been negatively affected by invasive predators such as Bythotrephes longimanus 6 Daphnia pulicariaScientific classificationDomain EukaryotaKingdom AnimaliaPhylum ArthropodaClass BranchiopodaOrder AnomopodaFamily DaphniidaeGenus DaphniaSubgenus DaphniaSpecies D pulicariaBinomial nameDaphnia pulicariaForbes 1893 Contents 1 Habitat and life history 2 Reproduction 3 Morphology 4 Closely related species 5 Model organisms 6 ReferencesHabitat and life history editDaphnia pulicaria generally live in deep permanent lakes 7 These lakes provide a more stable environment than temporary ponds which eventually dry up so populations of D pulicaria tend to have lower mortality rates than D pulex populations living in ponds 7 Furthermore D pulicaria have a relatively long lifespan of 60 65 days 8 The populations of D pulicaria in the Great Lakes in the United States have been negatively affected by the invasive species Bythotrephes longimanus 6 This invasive predator of D pulicaria has also contributed to a decline of other zooplankton species in the Great Lakes 6 Reproduction editCyclic parthenogenesis is the primary mode of reproduction in D pulicaria and other species within the genus Daphnia 2 Therefore D pulicaria are capable of switching between sexual and asexual reproduction based on environmental conditions 9 Typically Daphnia undergo asexual reproduction when living in favorable conditions such as in environments with abundant food or with negligible crowding 9 In contrast they produce ephippia which are dormant eggs and reproduce sexually if environmental conditions worsen 9 Some studies suggest that populations of D pulicaria in lakes in North America reproduce using the expected pattern of cyclic parthenogenesis while other populations in smaller ponds have shifted toward obligate parthenogenesis 2 The number of offspring produced through asexual reproduction is heavily influenced by the environmental conditions experienced by an individual 10 For instance females in a high food environment with a longer photoperiod tend to have more offspring 10 Environmental cues such as food level photoperiod and temperature significantly influence the reproduction of D pulicaria 10 Morphology editDaphnia pulicaria have a translucent carapace and two prominent second antennae which they use to move 11 The carapace composed primarily of chitin helps protect the feeding apparatus and it is periodically shed during an individual s life 11 Daphnia have a compound eye and they are known to have an optomotor response 12 D pulicaria generally have a body length less than 3mm 3 Because of the clear carapace of Daphnia it is possible to see the heart and digestive tract which often appears to be green due to the consumption of algae 11 The abdominal claw is also visible toward the end of the abdomen and it can be used to dislodge any algae from the feeding apparatus if some begins to stick 11 Closely related species editD pulicaria are considered to be part of the Daphnia pulex species complex and can produce hybrids with D pulex 3 While it is difficult to distinguish between these two species using morphological traits D pulicaria and D pulex have significant genomic differences 13 Phylogenetic studies using mitochondrial DNA analysis have identified genetic divergence between D pulicaria and D pulex 5 For instance variations in the Lactate dehydrogenase gene can help identify D pulicaria from others in the D pulex species complex 13 Model organisms editSpecies of Daphnia including D pulicaria are commonly used as model organisms for studying life history traits and phenotypic plasticity 4 For example D pulicaria can detect and respond to kairomones produced by predatory fish 4 Their sensitivity to environmental cues contributes to the observed seasonal trends in population sizes of D pulicaria 4 Moreover because D pulicaria reproduce using cyclic parthenogenesis they are ideal models for genetic studies including ones concerning spontaneous mutations 14 References edit Geedey C K Tessier A J Machledt K 1996 Habitat heterogeneity environmental change and the clonal structure of Daphnia populations Functional Ecology 10 5 613 621 Bibcode 1996FuEco 10 613G doi 10 2307 2390171 JSTOR 2390171 a b c Cerny Martin Hebert Paul D N 1993 Genetic diversity and breeding system variation in Daphnia pulicaria from North American lakes Heredity 71 5 497 507 doi 10 1038 hdy 1993 168 a b c Dudycha Jeffry L Tessier Alan J 1999 Natural Genetic Variation of Life Span Reproduction and Juvenile Growth in Daphnia Evolution 53 6 1744 1756 doi 10 1111 j 1558 5646 1999 tb04559 x PMID 28565448 a b c d Bernot Randall J Dodds Walter K Quist Michael C Guy Christopher S 2006 Temperature and kairomone induced life history plasticity in coexisting Daphnia Aquatic Ecology 40 3 361 372 Bibcode 2006AqEco 40 361B doi 10 1007 s10452 006 9035 5 a b Colbourne J K Crease T J Weider L J Hebert P D N Dufresne F Hobaek A 1998 Phylogenetics and evolution of a circumarctic species complex Cladocera Daphnia pulex Biological Journal of the Linnean Society 65 347 365 a b c Barbiero Richard Tuchman Marc 2004 Changes in the crustacean communities of Lakes Michigan Huron and Erie following the invasion of the predatory cladoceran Bythotrephes longimanus Canadian Journal of Fisheries and Aquatic Sciences 61 11 2111 2125 doi 10 1139 f04 149 a b Dudycha Jeffry L 2004 Mortality dynamics of Daphnia in contrasting habitats and their role in ecological divergence Freshwater Biology 49 5 505 514 Bibcode 2004FrBio 49 505D doi 10 1111 j 1365 2427 2004 01201 x Schumpert Charles Handy Indhira Dudycha Jeffry L Patel Rekha C 2014 Relationship between heat shock protein 70 expression and life span in Daphnia Mechanisms of Ageing and Development 139 1 10 doi 10 1016 j mad 2014 04 001 PMC 4122616 PMID 24814302 a b c Thielsch Anne Brede Nora Petrusek Adam De Meester Luc Schwenk Klaus 2009 Contribution of cyclic parthenogenesis and colonization history to population structure in Daphnia Molecular Ecology 18 8 1616 1628 Bibcode 2009MolEc 18 1616T doi 10 1111 j 1365 294X 2009 04130 x PMID 19298264 a b c Alekseev Victor Lampert Winfried 2004 Maternal effects of photoperiod and food level on life history characteristics of the cladoceran Daphnia pulicaria Forbes Hydrobiologia 526 225 230 doi 10 1023 B HYDR 0000041600 16226 12 a b c d Introduction to Daphnia Biology National Center for Biotechnology Information US 2005 a href Template Cite book html title Template Cite book cite book a website ignored help Hathaway Campbell R Dudycha Jeffry L 2018 Quantitative measurement of the optomotor response in free swimming Daphnia Journal of Plankton Research 40 3 222 229 doi 10 1093 plankt fby014 a b Crease Teresa J Floyd Robin Cristescu Melania E Innes David 2011 Evolutionary factors affecting Lactate dehydrogenase A and B variation in the Daphnia pulex species complex BMC Evolutionary Biology 11 1 212 223 Bibcode 2011BMCEE 11 212C doi 10 1186 1471 2148 11 212 PMC 3231769 PMID 21767386 Schaack S Allen D E Latta IV L C Morgan K K Lynch M 2013 The effect of spontaneous mutations on competitive ability Journal of Evolutionary Biology 26 2 451 456 doi 10 1111 jeb 12058 PMC 3548015 PMID 23252614 Retrieved from https en wikipedia org w index php title Daphnia pulicaria amp oldid 1218561802, wikipedia, wiki, book, books, library,

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