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Peridinium

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Peridinium
Peridinium digitale
Peridinium digitale
Scientific classification Edit this classification
Domain: Eukaryota
Clade: Diaphoretickes
Clade: SAR
Clade: Alveolata
Phylum: Myzozoa
Superclass: Dinoflagellata
Class: Dinophyceae
Order: Peridiniales
Family: Peridiniaceae
Genus: Peridinium
Ehrenberg
Type species
Peridinium cinctum
Species

See text

Peridinium is a genus of motile, marine and freshwater dinoflagellates.[1][2] Their morphology is considered typical of the armoured dinoflagellates, and their form is commonly used in diagrams of a dinoflagellate's structure.[1][3] Peridinium can range from 30 to 70 μm in diameter, and has very thick thecal plates.[1][3]

Morphology

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Peridinium is enclosed by cellulose theca and with two flagellates. The composition of the theca is laminaribiose and laminaritriose linking by β – 1, 4 and β – 1, 3 linkages.[4] The cell body of Peridinium is highly polarized and is distinguishable from apical and antapical sides or dorsal and ventral sides. Their theca is divided into epicone and hypocone by the middle region (also called girdle or cingulum). The flagellates have two different directions, one is surrounding the middle region while the other are in the longitudinal groove of hypocone. The chloroplast in Peridinium is triple membrane, and some plastid-derived organelles like pyrenoid or eyespot also. This provides the evidence that these organelles originated from secondary endosymbiosis. The inner membrane of mitochondrion is tubular. Trichocyst is a specialized organelle in dinoflagellate which help them defense to predators.[5]

Life cycle

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Peridinium is a haplontic algae. Most time of Peridinium are haploid vegetative cells and undergoing asexual or sexual cycle. They only form zygote before dormancy.

In asexual cycle, the haploid vegetative cell throws the theca before mitosis and produces two daughter cells by mitosis. During mitosis, the chromosome in their nucleus condenses but the nucleus of endosymbiont doesn’t. After the cleavage furrow starts to separate their nucleus, the nucleus of endosymbiont then passes through the gaps between cleavage furrow and their nucleus. Then the nucleus of endosymbiont was divided by cleavage furrow together. [6]

In sexual cycle, they produce gametes as isogamete and the gametes fuse to form planozygotes to get dormancy. After dormancy, the zygote starts to undergo meiosis. The first meiosis produces a two diploid nuclei cell without cytokinesis. An asynchronized nucleus division then occurs in one of the two nuclei. One nucleus undergoing second meiosis before cytokinesis in first meiosis and turns into a trinucleate stage. After it, the cytokinesis of first meiosis is completed, and the trinucleate cell is divided into a diploid nucleus cell and a double haploid nuclei cell. When the cytokinesis of second meiosis is completed, finally, it produces four haploid daughter cells.[7] [8] [9] [10] [11]

Overall, Peridinium dominants in mobile haploid generation. Between spring and summer, the haploid venerative cells produce gametes by mitosis and fuse gametes into a diploid planozygote. The diploid planozygotes then transform into immobile hypnozygotes and deposit to get dormancy in winter. After a year, the hypnozygotes germinate in spring and release haploid vegetative cells.[12]

Ecology

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Peridinium gatunense blooms in the Lake Kinneret in Israel which changing the color of the lake is discovered in 1960.[13] The blooming event occurs because the organic mineral is flushed into the sea every year in spring. Organic mineral nourishes the diatom and increases their population. Thus, the planozygotes of Peridinium break dormancy and release thousands of vegetative cells into the sea by feeding on diatom. From 1960 to 1996, the annual pattern was regularly peaked at spring in each year. But starting from 1996, the blooming was broken. The break of blooming is related to high temperature, other phytoplanktonic competitor (Chytrid or Microcystis),[14][15] and human activities in the aquatic system by managing the water flow of the river.

Species

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Species include:[16]

References

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  1. ^ a b c S.C. Agrawal (1999). Limnology. APH. ISBN 978-81-7648-108-3.
  2. ^ C.S. Reynolds (2006). The Ecology of Phytoplankton (Ecology, Biodiversity and Conservation). Cambridge University Press. ISBN 978-0-521-84413-0.
  3. ^ a b Lee, Robert Edward (2008). Phycology (4th ed.). Cambridge University Press. ISBN 9780521682770.
  4. ^ Nevo Z. and N. Sharon (1969), The cell wall of Peridinium westii, a non cellulosic glucan. Biochimica et Biophysica Acta, 173(2): 161–175.
  5. ^ Messer G. and Y. Ben-shaul. (1969), Fine Structure of Peridinium westii Lemm., a Freshwater Dinoflagellate. The Journal of Protozoology, 16(2): 262-280.
  6. ^ Tippit D. H. and J. D. Pickett-Heaps. (1976), Apparent amitosis in the binucleate dinoflagellate Peridinium balticum. Journal of Cell Science, 21(2): 273–289.
  7. ^ Yoshihiko S., M. Nakanishi, T. Konda, Y. Ishida, H. Kadota, K. Shrestha, H. R. Bhandary and R. L. Shrestha. (1986), Life Cycle of Peridinium sp. B3 (Dinophyceae) Isolated from Lake Begnas, Nepal. Journal of Cell Science, 1(1): 19-27. {{citation}}: CS1 maint: multiple names: authors list (link)
  8. ^ Pfiester A Lois., P. Timpano, J. J. Skvarla and J. R. Holt. (1984), Sexual Reproduction and Meiosis in Peridinium inconspicuum Lemmermann (Dinophyceae). American Journal of Botany, 71(8): 1121-1127. {{citation}}: CS1 maint: multiple names: authors list (link)
  9. ^ Pfiester A Lois. (1997), Sexual Reproduction of Peridinium gatunense (Dinophyceae). Journal of Phycology, 13: 92-95.
  10. ^ Salmaso N. and M. Tolot. (2009), Other Phytoflagellates and Groups of Lesser Importance. Earth Systems and Environmental Sciences, 174-183.
  11. ^ Coats, D. W. (2002), Dinoflagellate Life-Cycle Complexities. Journal of Phycology, 38: 417-419.
  12. ^ S. Baldauf (2008), An overview of the phylogeny and diversity of eukaryotes. Journal of Systematics and Evolution, 46: 263-273.
  13. ^ Tamar Z. A. (2014), Lake Kinneret, Ecology and Management Aquatic Ecology Series, 6:191-212.
  14. ^ Alster A. and T. Zohary. (2007), Interactions between the bloom-forming dinoflagellate Peridinium gatunense and the chytrid fungus Phlyctochytrium sp. Hydrobiologia, 578: 131–139.
  15. ^ Assaf S., R. Eshkol, A. Livne, and O. Hadas. (2002), Inhibition of growth and photosynthesis of the dinoflagellate Peridinium gatunenseby Microcystis sp. (cyanobacteria): A novel allelopathic mechanism. Limnology and Oceanography, 47(6): 1656-1663. {{citation}}: CS1 maint: multiple names: authors list (link)
  16. ^ M.D. Guiry in Guiry, M.D. & Guiry, G.M. 2018. AlgaeBase. World-wide electronic publication, National University of Ireland, Galway. http://www.algaebase.org/search/genus/detail/?genus_id=Se66edad67e72e87b ; searched on 19 August 2018.