Yellow-green algae

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Yellow-green algae
Album general des Cryptogames, Pl. 20.jpg
Examples of xanthophytes (repair the unequal flagella in the cells)
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Clade: Diaphoretickes
Clade: SAR
Clade: Stramenopiles
Phylum: Gyrista
Subphylum: Ochrophytina
Superclass: Fucistia
Class: Xanthophyceae
Allorge, 1930, [1] emend. Fritsch, 1935 [2]
Synonyms
  • Heterokontae Luther, 1899 [3]
  • Heterochloridia Pascher, 1912
  • Tribophyceae Hibberd, 1981 [4]
  • Heteromonadida Leedale, 1983 [5]
  • Xanthophyta Hibberd, 1990 [6]

Yellow-green algae or the Xanthophyceae (xanthophytes) are an important group of heterokont algae. Most live in fresh water, but some are found in marine and soil habitats. They vary from single-celled flagellates to simple colonial and filamentous forms. Xanthophyte chloroplasts contain the photosynthetic pigments chlorophyll a, chlorophyll c, β-carotene, and the carotenoid diadinoxanthin. [7] Unlike other Stramenopiles (heterokonts), their chloroplasts do not contain fucoxanthin, which accounts for their lighter colour. Their storage polysaccharide is chrysolaminarin. [7] Xanthophyte cell walls are produced of cellulose and hemicellulose. [7] They appear to be the closest relatives of the brown algae.

Contents

Classifications

The species now placed in the Xanthophyceae were formerly included in the Chlorophyceae. [8] In 1899, Lüther created the group Heterokontae for green algae with unequal flagella. Pascher (1914) included the Heterokontae in the Chrysophyta. In 1930, Allorge renamed the group as Xanthophyceae.

The monadoid (unicellular flagellates) and also sometimes the amoeboid species have been included by some authors in the Protozoa or Protista, [9] [10] as order Heterochloridina (e.g., Doflein and Reichenow, 1927-1929 [11] ), as class Xanthomonadina, with orders Heterochloridea and Rhizochloridea (e.g., Deflandre, 1956 [12] ), as order Heterochlorida (e.g., Hall, 1953, [13] Honigberg et al., 1964 [14] ), as order Heteromonadida (e.g., Leedale, 1983 [15] ), or as subclass Heterochloridia (e.g., Puytorac et al., 1987 [16] ). These groups are called ambiregnal protists, as names for these have been published under either or both of the ICZN and the ICN.

AlgaeBase (2020)

Xanthophyceae have been divided into the following five orders in some classification systems: [17]

Lüther (1899)

Classification according to Lüther (1899): [19] [20]

Pascher (1912)

Classification according to Pascher (1912): [21]

Fritsch (1935)

Fritsch (1935) recognizes the following orders in the class Xanthophyceae: [22]

Smith (1938)

In the classification of Smith (1938), there are six orders in the class Xanthophyceae, placed in the division Chrysophyta:

Pascher (1939)

Pascher (1939) recognizes 6 classes in Heterokontae: [23]

Copeland (1956)

Copeland (1956) treated the group as order Vaucheriacea: [24]

Ettl (1978), van den Hoek et al. (1995)

In a classification presented by van den Hoek, Mann and Jahns (1995), based on the level of organization of the thallus, there are seven orders:

These are the same orders of the classification of Ettl (1978), [25] an updated version of the classic work by Pascher (1939). Ultrastructural and molecular studies shows that the Mischococcales might be paraphyletic, and the Tribonematales and Botrydiales polyphyletic, [26] and suggests two orders at most be used until the relationships within the division are sorted. [27]

Maistro et al. (2009)

Informal groups, according to Maistro et al. (2009): [28]

Unicellular flagellates, amoeboid and palmelloid taxa were not included in this study.

Adl et al. (2005, 2012)

According to Adl et al. (2005, 2012): [27] [29]

See also

Related Research Articles

<span class="mw-page-title-main">Chlorophyceae</span> Class of green algae

The Chlorophyceae are one of the classes of green algae, distinguished mainly on the basis of ultrastructural morphology. 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.

<span class="mw-page-title-main">Chlorophyta</span> Phylum of green algae

Chlorophyta is a taxon of green algae informally called chlorophytes. The name is used in two very different senses, so care is needed to determine the use by a particular author. In older classification systems, it is a highly paraphyletic group of all the green algae within the green plants (Viridiplantae) and thus includes about 7,000 species of mostly aquatic photosynthetic eukaryotic organisms. In newer classifications, it is the sister clade of the streptophytes/charophytes. The clade Streptophyta consists of the Charophyta in which the Embryophyta emerged. In this latter sense the Chlorophyta includes only about 4,300 species. About 90% of all known species live in freshwater. Like the land plants, green algae contain chlorophyll a and chlorophyll b and store food as starch in their plastids.

<span class="mw-page-title-main">Flagellate</span> Group of protists with at least one whip-like appendage

A flagellate is a cell or organism with one or more whip-like appendages called flagella. The word flagellate also describes a particular construction characteristic of many prokaryotes and eukaryotes and their means of motion. The term presently does not imply any specific relationship or classification of the organisms that possess flagella. However, the term "flagellate" is included in other terms which are more formally characterized.

<span class="mw-page-title-main">Stramenopile</span> Clade of eukaryotes

The Stramenopiles, also called Heterokonts, are a clade of organisms distinguished by the presence of stiff tripartite external hairs. In most species, the hairs are attached to flagella, in some they are attached to other areas of the cellular surface, and in some they have been secondarily lost. Stramenopiles represent one of the three major clades in the SAR supergroup, along with Alveolata and Rhizaria.

<span class="mw-page-title-main">Chlorarachniophyte</span> Group of algae

The chlorarachniophytes are a small group of exclusively marine algae widely distributed in tropical and temperate waters. They are typically mixotrophic, ingesting bacteria and smaller protists as well as conducting photosynthesis. Normally they have the form of small amoebae, with branching cytoplasmic extensions that capture prey and connect the cells together, forming a net. They may also form flagellate zoospores, which characteristically have a single subapical flagellum that spirals backwards around the cell body, and walled coccoid cells.

<span class="mw-page-title-main">Golden algae</span> Class of algae

The Chrysophyceae, usually called chrysophytes, chrysomonads, golden-brown algae or golden algae are a large group of algae, found mostly in freshwater. Golden algae is also commonly used to refer to a single species, Prymnesium parvum, which causes fish kills.

<i>Stephanopogon</i> Genus of flagellate marine protozoan

Stephanopogon is a genus of flagellated marine protist that superficially resembles a ciliate.

<span class="mw-page-title-main">Viridiplantae</span> Clade of archaeplastids including green algae and the land plants

Viridiplantae constitute a clade of eukaryotic organisms that comprises approximately 450,000–500,000 species that play important roles in both terrestrial and aquatic ecosystems. They include the green algae, which are primarily aquatic, and the land plants (embryophytes), which emerged from within them. Green algae traditionally excludes the land plants, rendering them a paraphyletic group. However it is accurate to think of land plants as a kind of alga. Since the realization that the embryophytes emerged from within the green algae, some authors are starting to include them. They have cells with cellulose in their cell walls, and primary chloroplasts derived from endosymbiosis with cyanobacteria that contain chlorophylls a and b and lack phycobilins. Corroborating this, a basal phagotroph archaeplastida group has been found in the Rhodelphydia.

<span class="mw-page-title-main">Archaeplastida</span> Clade of eukaryotes containing land plants and some algae

The Archaeplastida are a major group of eukaryotes, comprising the photoautotrophic red algae (Rhodophyta), green algae, land plants, and the minor group glaucophytes. It also includes the non-photosynthetic lineage Rhodelphidia, a predatorial (eukaryotrophic) flagellate that is sister to the Rhodophyta, and probably the microscopic picozoans. The Archaeplastida have chloroplasts that are surrounded by two membranes, suggesting that they were acquired directly through a single endosymbiosis event by feeding on a cyanobacterium. All other groups which have chloroplasts, besides the amoeboid genus Paulinella, have chloroplasts surrounded by three or four membranes, suggesting they were acquired secondarily from red or green algae. Unlike red and green algae, glaucophytes have never been involved in secondary endosymbiosis events.

<span class="mw-page-title-main">Cryptophyceae</span> Class of single-celled organisms

The cryptophyceae are a class of algae, most of which have plastids. About 220 species are known, and they are common in freshwater, and also occur in marine and brackish habitats. Each cell is around 10–50 μm in size and flattened in shape, with an anterior groove or pocket. At the edge of the pocket there are typically two slightly unequal flagella.

<span class="mw-page-title-main">Monadofilosa</span> Group of protists

Monadofilosa is a grouping of Cercozoa. These organisms are single-celled amoeboid protists.

Protistology is a scientific discipline devoted to the study of protists, a highly diverse group of eukaryotic organisms. All eukaryotes apart from animals, plants and fungi are considered protists. Its field of study therefore overlaps with the more traditional disciplines of phycology, mycology, and protozoology, just as protists embrace mostly unicellular organisms described as algae, some organisms regarded previously as primitive fungi, and protozoa.

<span class="mw-page-title-main">Eustigmatophyte</span> A small group of algae with marine, freshwater and soil-living species

Eustigmatophytes are a small group of eukaryotic forms of algae that includes marine, freshwater and soil-living species.

<span class="mw-page-title-main">Corticata</span> Type of plant

Corticata, in the classification of eukaryotes, is a clade suggested by Thomas Cavalier-Smith to encompass the eukaryote supergroups of the following two groups:

<span class="mw-page-title-main">Ochrophyte</span> Phylum of algae

The ochrophytes are is a group of mostly photosynthetic stramenopiles (heterokonts), placed either in phylum Ochrophyta or subphylum Ochrophytina. Their plastid is of red algal origin.

<span class="mw-page-title-main">Protozoa</span> Single-celled eukaryotic organisms that feed on organic matter

Protozoa are a polyphyletic group of single-celled eukaryotes, either free-living or parasitic, that feed on organic matter such as other microorganisms or organic debris. Historically, protozoans were regarded as "one-celled animals".

<span class="mw-page-title-main">Holozoa</span> Clade containing animals and some protists

Holozoa is a clade of organisms that includes animals and their closest single-celled relatives, but excludes fungi and all other organisms. Together they amount to more than 1.5 million species of purely heterotrophic organisms, including around 300 unicellular species. It consists of various subgroups, namely Metazoa and the protists Choanoflagellata, Filasterea, Pluriformea and Ichthyosporea. Along with fungi and some other groups, Holozoa is part of the Opisthokonta, a supergroup of eukaryotes. Choanofila was previously used as the name for a group similar in composition to Holozoa, but its usage is discouraged now because it excludes animals and is therefore paraphyletic.

<span class="mw-page-title-main">Ciliate</span> Taxon of protozoans with hair-like organelles called cilia

The ciliates are a group of alveolates characterized by the presence of hair-like organelles called cilia, which are identical in structure to eukaryotic flagella, but are in general shorter and present in much larger numbers, with a different undulating pattern than flagella. Cilia occur in all members of the group and are variously used in swimming, crawling, attachment, feeding, and sensation.

<span class="mw-page-title-main">Cryptista</span> Phylum of algae

Cryptista is a clade of alga-like eukaryotes. It is most likely related to Archaeplastida which includes plants and many algae, within the larger group Diaphoretickes.

<span class="mw-page-title-main">Gyrista</span> Phylum of eukaryotic organisms

Gyrista is a phylum of heterokont protists containing three diverse groups: the mostly photosynthetic Ochrophyta, the parasitic Pseudofungi, and the recently described group of nanoflagellates known as Bigyromonada. Members of this phylum are characterized by the presence of a helix or a double helix/ring system in the ciliary transition region.

References

  1. Allorge, P (1930). "Heterocontées ou Xanthophycées?". Rev. Alg. 5: 230.
  2. Fritsch, F.E. (1935) The Structure and Reproduction of the Algae. Volume I. Introduction, Chlorophyceae, Xanthophyceae, Chrysophyceae, Bacillariophyceae, Cryptophyceae, Dinophyceae, Chloromonadineae, Euglenineae, Colourless Flagellata. Cambridge University Press, Cambridge.[ page needed ]
  3. Lüther, A. (1899). "Über Chlorosaccus eine neue Gattung der Süsswasseralgen". Bihang Til Kongliga Svenska Vetenskaps-Akademiens Handlingar. 24: 1–22. OCLC   178060545.
  4. Hibberd, D. J. (February 1981). "Notes on the taxonomy and nomenclature of the algal classes Eustigmatophyceae and Tribophyceae (synonym Xanthophyceae)". Botanical Journal of the Linnean Society. 82 (2): 93–119. doi:10.1111/j.1095-8339.1981.tb00954.x.
  5. Leedale, G.F. (1985). "Order 5, Heteromonadida Leedale, 1983". In Lee, John J.; Hutner, Seymour Herbert; Bovee, Eugene C. (eds.). An illustrated Guide to Protozoa. Lawrence, Kansas: Society of Protozoologists. pp. 70–.[ page needed ]
  6. Hiberd, D. J. (1990). "Phylum Xanthophyta". In Margulis, L.; Corliss, J. O.; Melkonian, M.; et al. (eds.). Handbook of Protoctista. Boston, Massachusetts, USA: Jones and Bartlett Publishers. pp. 686–97.
  7. 1 2 3 Stace, Clive A. (1991). Plant Taxonomy and Biosystematics. Cambridge University Press. ISBN   978-0-521-42785-2.[ page needed ]
  8. Chapman, V. J. An Introduction to the Study of Algae. University Press, Cambridge; The Macmillan Company, New York, 1941, p. 18, .
  9. Copeland (1956), p. 63
  10. Fernández-Galiano, D (1990). "Las nuevas clasificaciones de los organismos eucarióticos unicelulares. Protistología versus Protozoología" (PDF). Rev. R. Soc. Esp. Hist Nat., (Secc. Biol.). 85 (1–4): 107–125.
  11. Doflein, F. & Reichenow, E. 1927-1929. Lehrbuch der Protozoenkunde, 5th ed, G. Fischer, Jena. 1262 p.
  12. Deflandre, G. (1952). In: Grassé, P.-P. (Ed.). Traité de Zoologie . Vol. 1, fasc. 1. Phylogénie. Protozoaries: Generalités, Flagellés. Masson et Cie, Paris. pp. 212, 217, 220.
  13. Hall, R.P., 1953. Protozoology. Prentice-Hall, New York, ,
  14. Honigberg, B.M.; Balamuth, W.; Bovee, E.C.; Corliss, J.O.; Gojdics, M.; Hall, R.P.; Kudo, R.R.; Levine, N.D.; Loeblich, A.R.Jr.; Weiser, J.; Wenrich, D.H. (1964). "A revised classification of the phylum Protozoa". Journal of Protozoology. 11 (1): 7–20. doi:10.1111/j.1550-7408.1964.tb01715.x. PMID   14119564.
  15. Leedale, G.F. (1985). "Order 5, Heteromonadida Leedale, 1983". In Lee, John J.; Hutner, Seymour Herbert; Bovee, Eugene C. (eds.). An illustrated Guide to Protozoa. Lawrence, Kansas: Society of Protozoologists. pp. 70–.[ page needed ]
  16. Puytorac, P. de, Grain, J., Mignot, J.P. Précis de protistologie. Lubrecht & Cramer Ltd, 1987. 581 p.
  17. Guiry, M.D.; Guiry, G.M. (2020). "Xanthophyceae". AlgaeBase. National University of Ireland, Galway. Retrieved 2 June 2020.
  18. Christensen, T. 1987. Seaweeds of the British Isles. Volume 4 Tribophyceae (Xanthophyceae). British Museum (Natural History), London ISBN   0-565-00980-X [ page needed ]
  19. Lüther, A (1899). "Über Chlorosaccus eine neue Gattung der Süsswasseralgen". Bihang Til Kongliga Svenska Vetenskaps-Akademiens Handlingar. 24: 1–22.
  20. Pascher (1912), p. 9, .
  21. Pascher, A (1912). "Zur Gliederung der Heterokonten (Kieine Beiträge zur Kenntnis unserer Mikroflora 3)". Hedwigia. 53: 6–22.
  22. Fritsch, F.E. (1935) The Structure and Reproduction of the Algae. Volume I. Introduction, Chlorophyceae. Xanthophyceae, Chrysophyceae, Bacillariophyceae, Cryptophyceae, Dinophyceae, Chloromonadineae, Euglenineae, Colourless Flagellata. Vol. I, Cambridge University Press, Cambridge, .
  23. Pascher, A., 1939. Heterokonten. In: Rabenhorsts Kryptogamen-Flora von Deutschland, Österreich und der Schweiz. Aufl. 2 Bd. XI. Leipzig: Akad. Verlagsges (1937–1939). p. 204, .
  24. Copeland, H. F. (1956). The Classification of Lower Organisms. Palo Alto: Pacific Books, pp. 63-67, .
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  26. Negrisolo, E.; et al. (2004). "Morphological convergence characterizes the evolution of Xanthophyceae (Heterokontophyta): evidence from nuclear SSU rDNA and plastidial rbcL genes". Molecular Phylogenetics and Evolution. 33 (1): 156–170. doi:10.1016/j.ympev.2004.04.016. PMID   15324845.
  27. 1 2 Adl SM, Simpson AG, Farmer MA, et al. (2005). "The new higher level classification of eukaryotes with emphasis on the taxonomy of protists". The Journal of Eukaryotic Microbiology. 52 (5): 399–451. doi: 10.1111/j.1550-7408.2005.00053.x . PMID   16248873.
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  29. Adl SM, Simpson AG, Lane CE, et al. (September 2012). "The revised classification of eukaryotes". The Journal of Eukaryotic Microbiology. 59 (5): 429–93. doi:10.1111/j.1550-7408.2012.00644.x. PMC   3483872 . PMID   23020233.
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