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Chlorophyceae

February 15, 2024

The Chlorophyceae are one of the classes of green algae, distinguished mainly on the basis of ultrastructural morphology.[2] They are usually green due to the dominance of pigments chlorophyll a and chlorophyll b. The chloroplast may be discoid, plate-like, reticulate, cup-shaped, spiral- or ribbon-shaped in different species. Most of the members have one or more storage bodies called pyrenoids located in the chloroplast. Pyrenoids contain protein besides starch. Some green algae may store food in the form of oil droplets. They usually have a cell wall made up of an inner layer of cellulose and outer layer of pectose.

Chlorophyceae
Scientific classification
(unranked): Viridiplantae
Division: Chlorophyta
Subphylum: Chlorophytina
Class: Chlorophyceae
Wille in Warming, 1884[1]
Orders

See text.

General characteristics edit

  • the body may be unicellular, colonial, filamentous or multicellular.
  • They are usually green due to the presence of chlorophyll a, chlorophyll b and beta-carotene.
  • The chloroplast may be discoid, cup-shaped (e.g. Chlamydomonas), spiral or ribbon shaped[example needed]
  • Most chlorophytes have one or more storage bodies called pyrenoids (central proteinaceous body covered with a starch sheath) that are localised around the chloroplast.
  • The inner cell wall layer is made of cellulose and the outer layer of pectose.
  • Asexual reproduction is by zoospores. They are flagellates produced from the parent cells by mitosis. Also by aplanospores, hypnospores, akinetes, Palmella stage, etc.
  • Sexual reproduction of Chlorophyceae is isogamous, anisogamous or oogamous.
  • The chlorophycean CW clade, and chlorophycean DO clade, are defined by the arrangement of their flagella. Members of the CW clade have flagella that are displaced in a "clockwise" (CW, 1–7 o'clock) direction e.g. Chlamydomonadales. Members of the DO clade have flagella that are "directly opposed" (DO, 12–6 o'clock) e.g. Sphaeropleales.[3]

Reproduction edit

Vegetative reproduction usually takes place by fragmentation. Asexual reproduction is by flagellated zoospores. And haplospore, perennation (akinate and palmella stage). Asexual reproduction by mitospore absent in spyrogyra. Sexual reproduction shows considerable variation in the type and formation of sex cells and it may be isogamous e.g. Chlamydomonas, Ulothrix, anisogamous e.g. Chlamydomonas, Eudorina or Oogamous e.g. Chlamydomonas, Volvox. Chlamydomonas has all three types of sexual reproduction.

They share many similarities with the higher plants, including the presence of asymmetrical flagellated cells, the breakdown of the nuclear envelope at mitosis, and the presence of phytochromes, flavonoids, and the chemical precursors to the cuticle.[4]

The sole method of reproduction in Chlorella is asexual and azoosporic. The content of the cell divides into 2,4 (B), 8(C) sometimes daughter protoplasts. Each daughter protoplast rounds off to form a non-motile spore. These autospores (spores having the same distinctive shape as the parent cell) are liberated by the rupture of the parent cell wall (D). On release each autospore grows to become a new individual. The presence of sulphur in the culture medium is considered essential for cell division. It takes place even in the dark with sulphur alone as the source material but under light conditions nitrogen also required in addition. Pearsal and Loose (1937)[citation needed] reported the occurrence of motile cells in Chlorella. Bendix (1964)[citation needed] also observed that Chlorella produces motile cells which might be gametes. These observations have an important bearing on the concept of the life cycle of Chlorella, which at present is considered to be strictly asexual in character.

Asexual reproduction in Chlorella ellipsoides has been studied in detail and the following four phases have been observed during the asexual reproduction.

(i) Growth Phase - During this phase the cells grow in size by utilizing the photosynthetic products.

(ii) Ripening phase - In this phase the cells mature and prepare themselves for division.

(iii) Post ripening phase - During this phase, each mature cell divides twice either in dark or in light. The cells formed in dark are known as dark to light phase, cells again grow in size.

(iv) Division Phase - During this phase the parent cell wall ruptures and unicells are released.

Orders edit

As of May 2023, AlgaeBase accepted the following orders in the class Chlorophyceae:

Along with these genera, AlgaeBase recognizes several taxa that are incertae sedis (i.e. unplaced to an order):

  • Dangeardinellaceae Ettl - 1 species

Other orders that have been recognized include:

In older classifications, the term Chlorophyceae is sometimes used to apply to all the green algae except the Charales, and the internal division is considerably different.

See also edit

References edit

  1. ^ Warming, E., 1884. Haandbog i den systematiske botanik. Anden gjennemsete udgave. 2nd ed. Kjøbenhavn, 434 pp. German translation (1890) of the 2nd Danish edition available at archive.org: [1]. English translation (1895) of the 3rd Danish edition (1892) available at archive.org: [2].
  2. ^ Štenclová, Lenka, Karolina Fučíková, Jan Kaštovský, and Marie Pažoutová (December 2017). "Molecular and morphological delimitation and generic classification of the family Oocystaceae (Trebouxiophyceae, Chlorophyta)". Journal of Phycology. 53 (6): 1263–1282. doi:10.1111/jpy.12581. PMID 28833138. S2CID 21278460 – via PubMed.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  3. ^ Lewis, Louise A. and Richard M. McCourt (2004-10-01). "Green algae and the origin of land plants". American Journal of Botany. 91 (10): 1535–1556. doi:10.3732/ajb.91.10.1535. PMID 21652308 – via onlinelibrary.wiley.com.
  4. ^ Raven, Evert and Eichhorn. The Biology of Plants 7th edition, pg. 335. W. H. Freeman and Company, New York, 2005.
  5. ^ Guiry, M.D.; Guiry, G.M. "Dunaliella". AlgaeBase. World-wide electronic publication, National University of Ireland, Galway. Retrieved 2022-02-25.
  6. ^ Guiry, M.D.; Guiry, G.M. "Chlorococcum". AlgaeBase. World-wide electronic publication, National University of Ireland, Galway. Retrieved 2022-02-25.
  7. ^ Guiry, M.D.; Guiry, G.M. "Microspora". AlgaeBase. World-wide electronic publication, National University of Ireland, Galway. Retrieved 2022-02-25.
  8. ^ Guiry, M.D.; Guiry, G.M. "Tetraspora". AlgaeBase. World-wide electronic publication, National University of Ireland, Galway. Retrieved 2022-02-25.

External links edit

  • AlgaeBase

February 15, 2024
chlorophyceae, classes, green, algae, distinguished, mainly, basis, ultrastructural, morphology, they, usually, green, dominance, pigments, chlorophyll, chlorophyll, chloroplast, discoid, plate, like, reticulate, shaped, spiral, ribbon, shaped, different, spec. The Chlorophyceae are one of the classes of green algae distinguished mainly on the basis of ultrastructural morphology 2 They are usually green due to the dominance of pigments chlorophyll a and chlorophyll b The chloroplast may be discoid plate like reticulate cup shaped spiral or ribbon shaped in different species Most of the members have one or more storage bodies called pyrenoids located in the chloroplast Pyrenoids contain protein besides starch Some green algae may store food in the form of oil droplets They usually have a cell wall made up of an inner layer of cellulose and outer layer of pectose ChlorophyceaeScientific classification unranked ViridiplantaeDivision ChlorophytaSubphylum ChlorophytinaClass ChlorophyceaeWille in Warming 1884 1 OrdersSee text Contents 1 General characteristics 2 Reproduction 3 Orders 4 See also 5 References 6 External linksGeneral characteristics editthe body may be unicellular colonial filamentous or multicellular They are usually green due to the presence of chlorophyll a chlorophyll b and beta carotene The chloroplast may be discoid cup shaped e g Chlamydomonas spiral or ribbon shaped example needed Most chlorophytes have one or more storage bodies called pyrenoids central proteinaceous body covered with a starch sheath that are localised around the chloroplast The inner cell wall layer is made of cellulose and the outer layer of pectose Asexual reproduction is by zoospores They are flagellates produced from the parent cells by mitosis Also by aplanospores hypnospores akinetes Palmella stage etc Sexual reproduction of Chlorophyceae is isogamous anisogamous or oogamous The chlorophycean CW clade and chlorophycean DO clade are defined by the arrangement of their flagella Members of the CW clade have flagella that are displaced in a clockwise CW 1 7 o clock direction e g Chlamydomonadales Members of the DO clade have flagella that are directly opposed DO 12 6 o clock e g Sphaeropleales 3 Reproduction editVegetative reproduction usually takes place by fragmentation Asexual reproduction is by flagellated zoospores And haplospore perennation akinate and palmella stage Asexual reproduction by mitospore absent in spyrogyra Sexual reproduction shows considerable variation in the type and formation of sex cells and it may be isogamous e g Chlamydomonas Ulothrix anisogamous e g Chlamydomonas Eudorina or Oogamous e g Chlamydomonas Volvox Chlamydomonas has all three types of sexual reproduction They share many similarities with the higher plants including the presence of asymmetrical flagellated cells the breakdown of the nuclear envelope at mitosis and the presence of phytochromes flavonoids and the chemical precursors to the cuticle 4 The sole method of reproduction in Chlorella is asexual and azoosporic The content of the cell divides into 2 4 B 8 C sometimes daughter protoplasts Each daughter protoplast rounds off to form a non motile spore These autospores spores having the same distinctive shape as the parent cell are liberated by the rupture of the parent cell wall D On release each autospore grows to become a new individual The presence of sulphur in the culture medium is considered essential for cell division It takes place even in the dark with sulphur alone as the source material but under light conditions nitrogen also required in addition Pearsal and Loose 1937 citation needed reported the occurrence of motile cells in Chlorella Bendix 1964 citation needed also observed that Chlorella produces motile cells which might be gametes These observations have an important bearing on the concept of the life cycle of Chlorella which at present is considered to be strictly asexual in character Asexual reproduction in Chlorella ellipsoides has been studied in detail and the following four phases have been observed during the asexual reproduction i Growth Phase During this phase the cells grow in size by utilizing the photosynthetic products ii Ripening phase In this phase the cells mature and prepare themselves for division iii Post ripening phase During this phase each mature cell divides twice either in dark or in light The cells formed in dark are known as dark to light phase cells again grow in size iv Division Phase During this phase the parent cell wall ruptures and unicells are released Orders editAs of May 2023 update AlgaeBase accepted the following orders in the class Chlorophyceae Chaetopeltidales C J O Kelly Shin Watanabe amp G L Floyd 16 species Chaetophorales Wille 225 species Chlamydomonadales F E Fritsch also known as Volvocales 1793 species Oedogoniales Heering 792 species Sphaeropleales Luerssen 941 speciesAlong with these genera AlgaeBase recognizes several taxa that are incertae sedis i e unplaced to an order Dangeardinellaceae Ettl 1 speciesOther orders that have been recognized include Dunaliellales Dunaliella and Dunaliellaceae are placed in Chlamydomonadales by AlgaeBase 5 Chlorococcales Chlorococcum and Chlorococcaceae are placed in Chlamydomonadales by AlgaeBase 6 Microsporales Microspora and Microsporaceae are placed in Sphaeropleales by AlgaeBase 7 Tetrasporales Tetraspora and Tetrasporaceae are placed in Chlamydomonadales by AlgaeBase 8 In older classifications the term Chlorophyceae is sometimes used to apply to all the green algae except the Charales and the internal division is considerably different See also editCladistics List of Chlorophyceae generaReferences edit Warming E 1884 Haandbog i den systematiske botanik Anden gjennemsete udgave 2nd ed Kjobenhavn 434 pp German translation 1890 of the 2nd Danish edition available at archive org 1 English translation 1895 of the 3rd Danish edition 1892 available at archive org 2 Stenclova Lenka Karolina Fucikova Jan Kastovsky and Marie Pazoutova December 2017 Molecular and morphological delimitation and generic classification of the family Oocystaceae Trebouxiophyceae Chlorophyta Journal of Phycology 53 6 1263 1282 doi 10 1111 jpy 12581 PMID 28833138 S2CID 21278460 via PubMed a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Lewis Louise A and Richard M McCourt 2004 10 01 Green algae and the origin of land plants American Journal of Botany 91 10 1535 1556 doi 10 3732 ajb 91 10 1535 PMID 21652308 via onlinelibrary wiley com Raven Evert and Eichhorn The Biology of Plants 7th edition pg 335 W H Freeman and Company New York 2005 Guiry M D Guiry G M Dunaliella AlgaeBase World wide electronic publication National University of Ireland Galway Retrieved 2022 02 25 Guiry M D Guiry G M Chlorococcum AlgaeBase World wide electronic publication National University of Ireland Galway Retrieved 2022 02 25 Guiry M D Guiry G M Microspora AlgaeBase World wide electronic publication National University of Ireland Galway Retrieved 2022 02 25 Guiry M D Guiry G M Tetraspora AlgaeBase World wide electronic publication National University of Ireland Galway Retrieved 2022 02 25 External links editAlgaeBase Retrieved from https en wikipedia org w index php title Chlorophyceae amp oldid 1180288131, wikipedia, wiki, book, books, library,

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