Species
Rhodophyta
IUCN
NCBI
EOL Text
= Red algae Circumscription: The red algae, unicellular to multicellular (up to 1 m) mostly free-living but some parasitic or symbiotic, with chloroplasts containing phycobilins. Cell walls made of cellulose with mucopolysaccharides penetrated in many red algae by pores partially blocked by proteins (complex referred to as pit connections). Usually with separated phases of vegetative growth and sexual reproduction. Common and widespread, ecologically important, economically important (source of agar). No flagella. Ultrastructural identity: Mitochondria with flat cristae, sometimes associated with forming faces of dictyosomes. Thylakoids single, with phycobilisomes, plastids with peripheral thylakoid. During mitosis, nuclear envelope mostly remains intact but some microtubules of spindle extend from noncentriolar polar bodies through polar gaps in the nuclear envelope. Synapomorphy: No clear-cut feature available; possibly pit connections Composition: About 4,000 species.
Colloquial term used for all photosynthetic organisms that are not part of the multicellular green plants. Includes prokaryotes such as the cyanobacteria as well as eukaryotes. The eukaryotes may be unicellular (euglenids, dinoflagellates, cryptophytes, chrysophytes, etc.) or multicellular (red algae, brown algae and green algae).
Rhodophyta (Unknown red algae species) is prey of:
Pirara
Tanytarsini
Baraeoptera roria
Oligochaeta II
Hydora nitida
Olinga feredayi
Pycnocentria
Scirtidae
Orthoclad Blue Black
Orchymontia
Based on studies in:
New Zealand: Otago, Broad, Lee catchment (River)
New Zealand: Otago, Stony, Sutton catchment (River)
New Zealand: Otago, Dempster's Stream, Taieri River, 3 O'Clock catchment (River)
New Zealand: Otago, Sutton Stream, Taieri River, Sutton catchment (River)
This list may not be complete but is based on published studies.
- Townsend, CR, Thompson, RM, McIntosh, AR, Kilroy, C, Edwards, ED, Scarsbrook, MR. 1998. Disturbance, resource supply and food-web architecture in streams. Ecology Letters 1:200-209.
- Thompson, RM and Townsend, CR. 1999. The effect of seasonal variation on the community structure and food-web attributes of two streams: implications for food-web science. Oikos 87: 75-88.
License | http://creativecommons.org/licenses/by/3.0/ |
Rights holder/Author | Cynthia Sims Parr, Joel Sachs, SPIRE |
Source | http://spire.umbc.edu/fwc/ |
- Rhodophyta
- Cyanidium
- Porphyridiales
- Compsopogonales
- Bangiales
- Florideophyceae
Taxa indicated by '*' are members of the traditional Bangiophyceae/Bangiophycidae that is now considered to be paraphyletic.
Traditionally the red algae were divided into two Classes the Bangiophyceae and Florideophyceae. Alternatively a single Class, the Rhodophyceae and two Subclasses, Bangiophycidae and Florideophycidae are used. Based on ultrastructure and molecular evidence the Bangiophyceae is now accepted as a paraphyletic group, while the Florideophyceae is considered to be monophyletic based on two synapomorphic characters - presence of a filamentous gonimoblast and tetrasporangia (Garbary & Gabrielson 1990 [and references within], Ragan et al. 1994).
License | http://creativecommons.org/licenses/by/3.0/ |
Rights holder/Author | D. Wilson Freshwater, Tree of Life web project |
Source | http://tolweb.org/Rhodophyta/2381 |
Barcode of Life Data Systems (BOLD) Stats
Specimen Records:41790
Specimens with Sequences:33395
Specimens with Barcodes:22199
Species:4761
Species With Barcodes:4199
Public Records:22261
Public Species:2225
Public BINs:2679
Genomic DNA is available from 1 specimen with morphological vouchers housed at National Institute of Water and Atmospheric Research, Auckland
License | http://creativecommons.org/licenses/by-nc/3.0/ |
Rights holder/Author | Text can be freely copied and altered, as long as original author and source are properly acknowledged. |
Source | http://www.oglf.org/catalog/details.php?id=T01257 |
This is an excellent paper that covers the following topics:
1. What is an alga?
2. What is a species?
3. How Many Species of Organisms are There?
4. How Many Described Species of Algae are There?
5. Challenges in Counting Species.
From the abstract:
Algae have been estimated to include anything from 30,000 to more than 1 million species. An attempt is made here to arrive at a more accurate estimate using species numbers in phyla and classes included in the on-line taxonomic database AlgaeBase (http://www.algaebase.org). Despite uncertainties regarding what organisms should be included as algae and what a species is in the context of the various algal phyla and classes, a conservative approach results in an estimate of 72,500 algal species, names for 44,000 of which have probably been published, and 33,248 names have been processed by AlgaeBase to date (June 2012).
License | http://creativecommons.org/publicdomain/mark/1.0/ |
Rights holder/Author | Jeff Holmes, Jeff Holmes |
Source | http://onlinelibrary.wiley.com/doi/10.1111/j.1529-8817.2012.01222.x/full |
The Rhodophyta (red algae) are a distinct eukaryotic lineage characterized by the accessory photosynthetic pigments phycoerythrin, phycocyanin and allophycocyanins arranged in phycobilisomes, and the absence of flagella and centrioles (Woelkerling 1990). This is a large assemblage of between 2500 and 6000 species in about 670 largely marine genera (Woelkerling 1990) that predominate along the coastal and continental shelf areas of tropical, temperate and cold-water regions (Lüning 1990). Red algae are ecologically significant as primary producers, providers of structural habitat for other marine organisms, and their important role in the primary establishment and maintenance of coral reefs. Some red algae are economically important as providers of food and gels. For this reason, extensive farming and natural harvest of red algae occurs in numerous areas of the world.
Figure 1. Seaweed farmers tending a Kappaphycus line culture in the Philippines.
Kappaphycus and other Gigartinales species are grown commercially for the extraction of carrageenan, a gel used in many food products.
Image copyright © 2000, D. F. Kapraun.
License | http://creativecommons.org/licenses/by/3.0/ |
Rights holder/Author | D. Wilson Freshwater, Tree of Life web project |
Source | http://tolweb.org/Rhodophyta/2381 |
Red algae have a number of general characteristics that in combination distinguish them from other eukaryotic groups:
- absence of flagella and centrioles
- floridean starch as a storage product and the storage of starch in the cytoplasm (Figure 2)
- phycoerythrin, phycocyanin, and allophycocyanin as accessory pigments
- unstacked thylakoids in plastids (Figure 3)
- no chloroplast endoplasmic reticulum
Figure 2. Griffithsia pacifica (Florideophyceae). Electron micrograph showing cytoplasm with numerous chloroplasts (C) and starch (S). Starch is the photosynthetic reserve and is deposited free in the cytoplasm.
Image copyright © 2000, C. M. Pueschel.
Figure 3. Griffithsia pacifica (Florideophyceae). Close-up of figure 2 electron micrograph showing a chloroplast with unstacked photosynthetic lamellae (arrows) bearing granules, called phycobilosomes (arrowheads), composed of water-soluble phycobiliprotein accessory pigments.
Image copyright © 2000, C. M. Pueschel.
License | http://creativecommons.org/licenses/by/3.0/ |
Rights holder/Author | D. Wilson Freshwater, Tree of Life web project |
Source | http://tolweb.org/Rhodophyta/2381 |