| Cyanidiophyceae | |
|---|---|
| |
| Cyanidium sp. | |
Scientific classification 
| |
| (unranked): | Archaeplastida |
| Division: | Rhodophyta |
| Subdivision: | Cyanidiophytina |
| Class: | Cyanidiophyceae T.Christensen |
| Families | |
Cyanidiophyceae is a class of unicellular red algae within subdivision Cyanidiophytina, and contain a single plastid, one to three mitochondria, a nucleus, a vacuole, and floridean starch.[1] Pyrenoids are absent.[2] Most are extremophiles inhabiting acid hot springs. They originated in extreme environments with high themperatures and low pH, which allowed them to occupy ecological niches without any competition.[3] While still found in extreme environmnets, they have also adapted to live along streams, in fissures in rock walls and in soil, but usually prefer relatively high temperatures. They have never been found in basic freshwater or seawater habitats.[4] The main photosynthetic pigment is C-phycocyanin. Reproduction is asexual by binary fission or formation of endospores.[5] The group, consisting of a single order (Cyanidiales), split off from the other red algae more than a billion years ago. Three families, four genera, and nine species are known, but the total number of species is probably higher. They are primarily photoautotrophic, but heterotrophic and mixotrophic growth also occurs. After the first massive gene loss in the common ancestor of all red algae, where ca. 25% of the genes were lost, a second gene loss occurred in the ancestor of Cyanidiophyceae, where additional 18% of the genes were lost.[6] Since then, some gene gains and minor gene losses have taken place independently in the Cyanidiaceae and Galdieriaceae, leading to genetic diversification between the two groups, with Galdieriaceae occupying more diverse and varied niches in extreme environments than Cyanidiaceae.[7]
References
[edit]- ^ Seckbach, Joseph; Chapman, David J. (30 August 2010). Red Algae in the Genomic Age. Springer. p. 250. ISBN 978-90-481-3794-7. Retrieved 31 January 2011.
- ^ Pyrenoids: CO2-fixing phase separated liquid organelles
- ^ Phycology
- ^ Microalgae in Health and Disease Prevention
- ^ Yoon, Hwan Su; Muller, Kirsten M.; Sheath, Robert G.; Ott, Franklyn D.; Bhattacharya, Debashish (April 2006). "Defining the Major Lineages of Red Algae (Rhodophyta)1". Journal of Phycology. 42 (2): 482–492. doi:10.1111/j.1529-8817.2006.00210.x. S2CID 27377549.
- ^ Extremophilic red algae as models for understanding adaptation to hostile environments and the evolution of eukaryotic life on the early earth
- ^ Cho, Chung Hyun; Park, Seung In; Huang, Tzu-Yen; Lee, Yongsung; Ciniglia, Claudia; Yadavalli, Hari Chandana; Yang, Seong Wook; Bhattacharya, Debashish; Yoon, Hwan Su (2023). "Genome-wide signatures of adaptation to extreme environments in red algae". Nature Communications. 14 (1): 10. Bibcode:2023NatCo..14...10C. doi:10.1038/s41467-022-35566-x. PMC 9812998. PMID 36599855.
External links
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Well, that’s interesting to know that Psilotum nudum are known as whisk ferns. Psilotum nudum is the commoner species of the two. While the P. flaccidum is a rare species and is found in the tropical islands. Both the species are usually epiphytic in habit and grow upon tree ferns. These species may also be terrestrial and grow in humus or in the crevices of the rocks.
View the detailed Guide of Psilotum nudum: Detailed Study Of Psilotum Nudum (Whisk Fern), Classification, Anatomy, Reproduction