Rhodomonas is a genus of cryptomonads.[1][2] It is characterized by its red colour, the square-shaped plates of its inner periplast, its short furrow ending in a gullet, and a distinctly shaped chloroplast closely associated with its nucleomorph.[3] Historically, Rhodomonas was characterized by its red chloroplast alone,[4] but this no longer occurs as its taxonomy has become increasingly based on molecular and cellular data.[5][6] Currently, there is some debate about the taxonomic validity of Rhodomonas as a genus and further research is needed to verify its taxonomic status.[4][7] Rhodomonas is typically found in marine environments, although freshwater reports exist.[4] It is commonly used as a live feed for various aquaculture species.[8]
Rhodomonas | |
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Rhodomonas salina | |
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Genus: | Rhodomonas Karsten 1898
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Type species | |
Rhodomonas baltica Karsten 1898
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History
editDiscovery
editRhodomonas was first described by G. Karsten in 1898 as a “strange, swimming organism”.[4][9] The first indication of Rhodomonas’ existence was Karsten's observation of its proliferation in a sample containing diatoms, seashells, stones, and the brown algae Sphacelaria.[4] Subsequently, Karsten established Rhodomonas baltica as the type species of the genus Rhodomonas. Karsten observed that Rhodomonas contained a red chloroplast, two posteriorly-oriented flagella originating from an anterior gullet, and a large nucleus in the middle of the cell.[4] At the time of discovery, red flagellates were previously unknown and colour was used as the identifying feature of Rhodomonas.[5] After discovery, there were multiple additions to the genus, including those by Lemmermann, Lohmann, Kylin, and Carter.[4] Zimmermann later identified Karsten's “nucleus” as the cell's pyrenoid, based on its characteristic position within the cytoplasm.[4][5]
Taxonomic status
editPresently, there is criticism against retention of Rhodomonas as a genus. Given that current taxonomy for cryptomonads is based on cellular structures and Karsten did not describe those structures in the original study, some argue that it is impossible to verify if an organism matches Karsten's original sample at an ultrastructural level.[3][7][10] Consequently, this raises doubt as to whether an organism that is placed in Rhodomonas truly belongs in that genus. With this perspective, there is support to transfer members of Rhodomonas to the synonymous genus Pyrenomonas.[6][10] A countering argument is that Rhodomonas has historical priority as it was established before Pyrenomonas, and should continue to be used when referring to this genus.[4][5] Currently, there is no definite resolution to this debate, and Rhodomonas and Pyrenomonas are used as synonyms.[4][7] This is demonstrated in recent molecular phylogenies of cryptomonads, where it is established that Rhodomonas and Pyrenomonas are synonymous.[11][12]
Notably, in recent phylogenies based on molecular data, the genera Rhodomonas, Rhinomonas, and Storeatula are all grouped together based on shared similarity of the examined genetic sequences.[11][12][13][14] Given how closely related these genera are, there is some uncertainty as to how distinct the genus Rhodomonas is from Rhinomonas and Storeatula.[12][15] Dimorphism has been reported in cryptomonads and is hypothesized to apply to many genera, such that some currently existing genera may actually be different morphs of one group. Applying this to the context of Rhodomonas, the genus Storeatula has been suggested to be a possible alternating morphotype for Rhinomonas and Rhodomonas due to mixing of the three groups in molecular phylogenies.[16] Further investigation is needed to better support these findings.
Habitat and ecology
editRhodomonas resides in marine environments across the globe, with some reports of freshwater species.[4] The first recorded sample of Rhodomonas was taken by G. Karsten from the Kieler Fjord of the Baltic Sea.[4] The ideal temperature range of Rhodomonas in a natural environment is reported to be 9-10°C.[17] Like many other cryptomonads, Rhodomonas species are photosynthetic. It is currently unknown if they are capable of heterotrophy.[18]
Morphology
editThe size of Rhodomonas species has been reported as ranging from 9-40 𝜇m, with variability between researcher reports.[4] Rhodomonas are motile cells, attributed to the presence of two flagella extending at the anterior end of the cell that allow them to swim. They are oval-shaped, with a shortened anterior end and rounded posterior end.[5]
The periplast, or cell covering, of Rhodomonas is made up of internal and external components. The external component of the periplast is made up of a coarse, intertwining fibril network that is characteristic of Rhodomonas.[4] The internal periplast component consists of small square-shaped plates arranged in longitudinal rows. To accommodate the ejectisomes of the gullet in Rhodomonas, the anterior edges of the internal periplast plates are slightly raised.[4] The posterior edges of the internal periplast plates taper towards the posterior end of the cell and attach to the cell membrane.[4][18] The corners of the internal periplast plates are beveled.[18]
Rhodomonas cells can appear red, brown, or golden-brown in colour due to the concentration of the red pigment phycoerythrin 545 in their chloroplasts.[4] The pigment is located in the lumen surface of the thylakoid membrane within the chloroplast.[19] Within the cell, the chloroplast is found within the plastidial compartment and has close structural association with the pyrenoid. The chloroplast has two lobes and is shaped like the letter H.[3] The pyrenoid sits between the two lobes of the chloroplast, surrounded by starch.[4] The thylakoids of the chloroplast are unable to penetrate through the pyrenoidal matrix, and consequently do not cross through the pyrenoid.[18] Rhodomonas usually contains one chloroplast, although rare reports with the observation of two chloroplasts exist.[4]
The vestibulum-furrow-gullet system is a defining characteristic of Rhodomonas.[4] The vestibulum is located below the anterior apex of the cell, from which two flagella extend as is characteristic of cryptomonads.[18] The vestibulum transforms posteriorly into a furrow that closes into a gullet. The gullet is short and tubular, while the furrow can vary in length depending on the species.[4] The gullet is lined with ejectisomes that eject substances outside of the cell.[5]
The nucleomorph of Rhodomonas sits in an indentation of the periplastidial cytoplasm into the pyrenoid.[4][18] This has also been termed as the pyrenoidal bridge.[18] This trait is shared with Rhinomonas and Storeatula, other genera that are often grouped with Rhodomonas .[11]
Rhodomonas also contains a single nucleus, located posteriorly within the cell. In the opposite direction, a contractile vacuole is located near the anterior apex of the cell.[5]
Like many other cryptomonads, Rhodomonas reproduces through asexual division.[18] It is not currently known if they are capable of sexual reproduction.[18]
Aquaculture
editRhodomonas species have been identified as a beneficial feed in aquaculture. Among other organisms, they are ideal for feeding copepods, brine shrimps, and scallop larvae.[8][20] Their benefits as live feed for aquaculture can be attributed to their high fatty acid and protein content, which increases their nutritional content.[8][20] It has been observed that under nitrogen starvation conditions, their nutritional content can increase.[8]
Species
editThe genus Rhodomonas includes the following species:
- Rhodomonas abbreviata Butcher 1967 ex Hill & Wetherbee 1989[21]
- Rhodomonas atrorosea Butcher ex Hill & Wetherbee 1989[21]
- Rhodomonas baltica Karsten 1898[9]
- Rhodomonas chrysoidea Butcher 1967 ex Hill & Wetherbee 1989[21]
- Rhodomonas duplex Hill & Wetherbee 1989[21]
- Rhodomonas falcata (Butcher 1967) Hill & Wetherbee 1989[21]
- ?Rhodomonas gracilis Schiller 1925
- ?Rhodomonas helgolandii (Santore)
- Rhodomonas heteromorpha Butcher 1967 ex Hill & Wetherbee 1989[21]
- ?Rhodomonas irregularis Butcher 1967 ex Chihara 1989
- Rhodomonas lens Pascher & Ruttner 1913[21]
- Rhodomonas maculata Butcher 1967 ex Hill & Wetherbee 1989[21]
- Rhodomonas marina (Dangeard 1892) Lemmermann 1899[21]
- Rhodomonas ovalis Nygaard 1950
- Rhodomonas pusilla (Bachman 1923) Javornicky 1967[22]
- Rhodomonas radix Javornický 2001[22]
- Rhodomonas rubra Geitler 1921[22]
- ?Rhodomonas ruttneri Schiller 1925
- Rhodomonas salina (Wislouch 1924) Hill & Wetherbee 1989[23]
- Rhodomonas stigmatica (Wislouch 1924) Hill 1991[22]
- Rhodomonas tenuis Skuja 1948[22]
References
edit- ^ Khan H, Parks N, Kozera C, et al. (August 2007). "Plastid genome sequence of the cryptophyte alga Rhodomonas salina CCMP1319: lateral transfer of putative DNA replication machinery and a test of chromist plastid phylogeny". Mol. Biol. Evol. 24 (8): 1832–42. doi:10.1093/molbev/msm101. PMID 17522086.
- ^ Becker M, Stubbs MT, Huber R (March 1998). "Crystallization of phycoerythrin 545 of Rhodomonas lens using detergents and unusual additives". Protein Sci. 7 (3): 580–6. doi:10.1002/pro.5560070306. PMC 2143966. PMID 9541389.
- ^ a b c Kugrens, Paul; Clay, Brec L.; Lee, Robert E. (1999). "Ultrastructure and Systematics of Two New Freshwater Red Cryptomonads, Storeatula Rhinosa, Sp. Nov. And Pyrenomonas Ovalis, Sp. Nov". Journal of Phycology. 35 (5): 1079–1089. doi:10.1046/j.1529-8817.1999.3551079.x. ISSN 0022-3646. S2CID 83581600.
- ^ a b c d e f g h i j k l m n o p q r s t u v Hill, David R. A.; Wetherbee, Richard (1989). "A reappraisal of the genus Rhodomonas (Cryptophyceae)". Phycologia. 28 (2): 143–158. doi:10.2216/i0031-8884-28-2-143.1. ISSN 0031-8884.
- ^ a b c d e f g Erata, Mayumi; Chihara, Mitsuo (1989). "Re-examination ofPyrenomonas andRhodomonas (class cryptophyceae) through ultrastructural survey of red pigmented cryptomonads". The Botanical Magazine Tokyo. 102 (3): 429–443. doi:10.1007/BF02488125. ISSN 0006-808X. S2CID 42480798.
- ^ a b Santore, U. J. (1984). "Some Aspects of Txonomy in the Cryptophyceae". New Phytologist. 98 (4): 627–646. doi:10.1111/j.1469-8137.1984.tb04153.x. ISSN 0028-646X.
- ^ a b c Current advances in algal taxonomy and its applications : phylogenetic, ecological and applied perspective. Konrad Wołowski, Instytut Botaniki im. W. Szafera. Krakow: W. Szafer Institute of Botany, Polish Academy of Sciences. 2012. pp. 15–52. ISBN 978-83-62975-03-7. OCLC 799029033.
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: CS1 maint: others (link) - ^ a b c d Latsos, Christos; van Houcke, Jasper; Blommaert, Lander; Verbeeke, Gabrielle P.; Kromkamp, Jacco; Timmermans, Klaas R. (2021). "Effect of light quality and quantity on productivity and phycoerythrin concentration in the cryptophyte Rhodomonas sp". Journal of Applied Phycology. 33 (2): 729–741. doi:10.1007/s10811-020-02338-3. ISSN 0921-8971. S2CID 230795287.
- ^ a b Karsten, G. (1898). "Rhodomonas baltica, n.g. et sp". Wissenschaftliche Meeresunterschungen. Abt. Kiel. 3: 15–16.
- ^ a b Novarino, Gianfranco; Lucas, Ian A. N. (1993). "Some proposals for a new classification system of the Cryptophyceae". Botanical Journal of the Linnean Society. 111 (1): 3–21. doi:10.1111/j.1095-8339.1993.tb01886.x.
- ^ a b c Deane, James A.; Strachan, Isabelle M.; Saunders, Gary W.; Hill, David R. A.; McFadden, Geoffrey I. (2002-12-19). "CRYPTOMONAD EVOLUTION: NUCLEAR 18S rDNA PHYLOGENY VERSUS CELL MORPHOLOGY AND PIGMENTATION1". Journal of Phycology. 38 (6): 1236–1244. doi:10.1046/j.1529-8817.2002.01250.x. S2CID 51944218.
- ^ a b c Marin, Birger; Klingberg, Max; Melkonian, Michael (1998). "Phylogenetic Relationships among the Cryptophyta: Analyses of Nuclear-Encoded SSU rRNA Sequences Support the Monophyly of Extant Plastid-Containing Lineages". Protist. 149 (3): 265–276. doi:10.1016/S1434-4610(98)70033-1. PMID 23194638.
- ^ Hoef-Emden, Kerstin; Marin, Birger; Melkonian, Michael (2002-08-01). "Nuclear and Nucleomorph SSU rDNA Phylogeny in the Cryptophyta and the Evolution of Cryptophyte Diversity". Journal of Molecular Evolution. 55 (2): 161–179. doi:10.1007/s00239-002-2313-5. ISSN 0022-2844. PMID 12107593. S2CID 25056699.
- ^ Cavalier-Smith, T.; Couch, J. A.; Thorsteinsen, K. E.; Gilson, P.; Deane, J. A.; Hill, D. R. A.; Mcfadden, G. I. (1996). "Cryptomonad nuclear and nucleomorph 18S rRNA phylogeny". European Journal of Phycology. 31 (4): 315–328. doi:10.1080/09670269600651541. ISSN 0967-0262.
- ^ Hoef-Emden, Kerstin; Melkonian, Michael (2003). "Revision of the Genus Cryptomonas (Cryptophyceae): a Combination of Molecular Phylogeny and Morphology Provides Insights into a Long-Hidden Dimorphism". Protist. 154 (3–4): 371–409. doi:10.1078/143446103322454130. PMID 14658496.
- ^ Majaneva, Markus; Remonen, Iina; Rintala, Janne-Markus; Belevich, Ilya; Kremp, Anke; Setälä, Outi; Jokitalo, Eija; Blomster, Jaanika (2014). "Rhinomonas nottbecki n. sp. (Cryptomonadales) and Molecular Phylogeny of the Family Pyrenomonadaceae". Journal of Eukaryotic Microbiology. 61 (5): 480–492. doi:10.1111/jeu.12128. PMID 24913840. S2CID 24145879.
- ^ Krasnova, E. D.; Pantyulin, A. N.; Matorin, D. N.; Todorenko, D. A.; Belevich, T. A.; Milyutina, I. A.; Voronov, D. A. (2014). "Cryptomonad alga Rhodomonas sp. (Cryptophyta, Pyrenomonadaceae) bloom in the redox zone of the basins separating from the White Sea". Microbiology. 83 (3): 270–277. doi:10.1134/S0026261714030102. ISSN 0026-2617. S2CID 17592032.
- ^ a b c d e f g h i Freshwater algae of North America : ecology and classification. John D. Wehr, Robert G. Sheath. Amsterdam: Academic Press. 2003. pp. 715–755. ISBN 0-12-741550-5. OCLC 51245822.
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: CS1 maint: others (link) - ^ Ludwig, M; Gibbs, S P (1989-03-01). "Localization of phycoerythrin at the lumenal surface of the thylakoid membrane in Rhodomonas lens". Journal of Cell Biology. 108 (3): 875–884. doi:10.1083/jcb.108.3.875. ISSN 0021-9525. PMC 2115399. PMID 2921285.
- ^ a b Oostlander, P.C.; van Houcke, J.; Wijffels, R.H.; Barbosa, M.J. (2020). "Optimization of Rhodomonas sp. under continuous cultivation for industrial applications in aquaculture". Algal Research. 47: 101889. doi:10.1016/j.algal.2020.101889. hdl:11250/2731572. S2CID 216351480.
- ^ a b c d e f g h i "WoRMS - World Register of Marine Species - Rhodomonas G. Karsten, 1898". www.marinespecies.org. Retrieved 2022-04-14.
- ^ a b c d e "Index Nominum Algarum: names of algae". ucjeps.berkeley.edu. Retrieved 2022-04-14.
- ^ Kim E, Lane CE, Curtis BA, Kozera C, Bowman S, Archibald JM (2008). "Complete sequence and analysis of the mitochondrial genome of Hemiselmis andersenii CCMP644 (Cryptophyceae)". BMC Genomics. 9: 215. doi:10.1186/1471-2164-9-215. PMC 2397417. PMID 18474103.