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Red algae



Red algae

Scientific classification
Domain: Eukaryota
(unranked) Archaeplastida
Phylum: Rhodophyta
Wettstein, 1922
Possible classes

The red algae (Rhodophyta, IPA: /ˌroʊdəˈfaɪtə, roʊˈdɒfɨtə/, from Greek: ῥόδον (rhodon) = rose + φυτόν (phyton) = plant, thus red plant) are a large group, about 5,000–6,000 species [1] of mostly multicellular, marine algae, including many notable seaweeds. Other references indicate 10,000 species. [2] Most of the coralline algae, which secrete calcium carbonate and play a major role in building coral reefs, belong here. Red algae such as dulse (Palmaria palmata) and nori are a traditional part of European and Asian cuisine and are used to make other products like agar, carrageenans and other food additives. [3]

Contents

Fossil record

The oldest fossil identified as a red alga is also the oldest fossil eukaryote that belongs to a specific modern taxon. Bangiomorpha pubescens, a multicellular fossil from arctic Canada, strongly resembles the modern red alga Bangia despite occurring in rocks dating to 1200 million years ago. [4]

Red algae are important builders of limestone reefs. The earliest such coralline algae, the solenopores, are known from the Cambrian Period. Other algae of different origins filled a similar role in the late Paleozoic, and in more recent reefs.

Taxonomy

The diverse eukaryotes that constitute the red algae have been the focus of numerous recent molecular surveys and remain a rich source of undescribed and little known species for the traditional taxonomist. Molecular studies place the red algae in the Archaeplastida (Plantae sensu lato); however, supraordinal classification has been largely confined to debate on subclass vs. class level status for the two recognized subgroups, one of which is widely acknowledged as paraphyletic. This narrow focus has generally masked the extent to which red algal classification needs modification.

Below are two valid published taxonomies of the red algae, although neither necessarily has to be used, as the taxonomy of the algae is still in a state of flux. Note also that there is continued scientific debate as to whether the Rhodophyta should be included in the Kingdom Protista or the Kingdom Plantae. These two classification systems, which place the red algae in the plant kingdom, are shown in the table below.

Classification system according to
Hwan Su Yoon et al. 2006[5]
Classification system according to
Saunders and Hommersand 2004[6]
Kingdom Plantae Haeckel
  • Subkingdom Biliphyta Wettstein
    • Phylum Rhodophyta Wettstein
      • Subphylum Cyanidiophytina subphylum novus
        • Class Cyanidiophyceae Merola et al
      • Subphylum Rhodophytina subphylum novus
        • Class Bangiophyceae Wettstein
        • Class Compsopogonophyceae Saunders et Hommersand
        • Class Florideophyceae Cronquist
        • Class Porphyridiophyceae classis nova
        • Class Rhodellophyceae Cavalier-Smith
        • Class Stylonematophyceae classis nova
Kingdom Plantae Haeckel
  • Subkingdom Rhodoplantae
    • Phylum Cyanidiophyta
      • Class Cyanidiophyceae Merola et al
    • Phylum Rhodophyta Wettstein
      • Subphylum Rhodellophytina
        • Class Rhodellophyceae Cavalier-Smith
      • Subphylum Metarhodophytina
        • Class Compsopogonophyceae Saunders et Hommersand
      • Subphylum Eurhodophytina
        • Class Bangiophyceae Wettstein
        • Class Florideophyceae Cronquist
          • Subclass Hildenbrandiophycidae
          • Subclass Nemaliophycidae
          • Subclass Ahnfeltiophycidae
          • Subclass Rhodymeniophycidae

Species

There are around 6,500 to 10,000 known species, [2][3] nearly all of which are marine, with about 200 that only live in fresh water. However estimates of the number of real species vary by 100%. [2] Some examples are:[clarify]

Pit connections and pit plugs

Pit connections

Pit connections and pit plugs are unique and distinctive features of red algae that form during the process of cytokinesis following mitosis. In red algae, cytokinesis is incomplete. Typically, a small pore is left in the middle of the newly formed partition. The pit connection is formed where the daughter cells remain in contact.

Shortly after the pit connection is formed cytoplasmic continuity is blocked by the generation of a pit plug, which is deposited in the wall gap that connects the cells.

Connections between cells having a common parent cell are called a primary pit connections. Because apical growth is the norm in red algae, most cells have two primary pit connections, one to each adjacent cell.

Connections that exist between cells not sharing a common parent cells are labeled secondary pit connections. These connections are formed when an unequal cell division produced a nucleated daughter cell that then fuses to an adjacent cell. Patterns of secondary pit connections can be seen in the order Ceramiales.

Pit plugs

After a pit connection is formed, tubular membranes appear. A granular protein, called the plug core, then forms around the membranes. The tubular membranes eventually disappear. While some orders of red algae simply have a plug core, others have an associated membrane at each side of the protein mass, called cap membranes. The pit plug continues to exist between the cells until one of the cells dies. When this happens, the living cell produce a layer of wall material that seals off the plug.

Function

It is thought that the pit connections function as structural reinforcement, and as an avenue for cell to cell communication and/or symplastic transport in red algae.[citation needed] While the presence of the cap membrane could inhibit this transport between cells, it has been hypothesized that the tubular plug cores serve as a means of transport.

Consumption

Several species are used as food. Dulse (Palmaria palmata)[7] and Porphyra are the best known in the British Isles. [8]

See also

  • Brown algae
  • Green algae
  • Red tide (red tides are caused by algae from the phylum Dinoflagellata, and not red algae [Rhodophyta])
  • Françoise Ardré (namesake of the red alga known as Pterosiphonia ardreana)

References

  1. ^ D. Thomas (2002). Seaweeds. Life Series. Natural History Museum, London. ISBN 0-565-09175-1. 
  2. ^ a b c W. J. Woelkerling (1990). "An introduction", in K. M. Cole & R. G. Sheath: Biology of the Red Algae. Cambridge University Press, Cambridge, 1–6. ISBN 0-521-34301-1. 
  3. ^ a b M. D. Guiry. Rhodophyta: red algae. Retrieved on 2007-06-28.
  4. ^ N. J. Butterfield (2000). Bangiomorpha pubescens n. gen., n. sp.: implications for the evolution of sex, multicellularity, and the Mesoproterozoic/Neoproterozoic radiation of eukaryotes. Paleobiology 26 (3): 386–404.
  5. ^ Hwan Su Yoon, K. M. Müller, R. G. Sheath, F. D. Ott & D. Bhattacharya (2006). Defining the major lineages of red algae (Rhodophyta). Journal of Phycology 42: 482–492. doi:10.1111/j.1529-8817.2006.00210.x.
  6. ^ G. W. Saunders & M. H. Hommersand (2004). Assessing red algal supraordinal diversity and taxonomy in the context of contemporary systematic data. American Journal of Botany 91: 1494–1507.
  7. ^ Dulse: Palmaria palmata. Quality Sea Veg. Retrieved on 2007-06-28.
  8. ^ T. F. Mumford & A. Muira (1988). "Porphyra as food: cultivation and economics", in C. A. Lembi & J. Waaland: Algae and Human Affairs. Cambridge University Press, Cambridge. ISBN 0-521-32115-8. 
 
This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Red_algae". A list of authors is available in Wikipedia.
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