153,840 species and infraspecific names are in the database, 21,012 images, 59,576 bibliographic items, 413,468 distributional records.

Cryptomonas Ehrenberg, 1831

Classification:
Empire Eukaryota
Kingdom Chromista
Phylum Cryptophyta
Class Cryptophyceae
Order Cryptomonadales
Family Cryptomonadaceae

Lectotype species: Cryptomonas ovata Ehrenberg

Original publication:Ehrenberg, C.G. (1831). Animalia evertebrata exclusis insectis Series Prima cum tabularum decase prima. In: Symbolae physicae. (Hemprich, P.C. & Ehrenberg, C.G. Eds), pp. [1-71]. Berolini [Berlin]: ex officina academica.
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Type designated in Butcher, R.W. (1967). An introductory account of the smaller algae of British coastal waters. Part IV: Cryptophyceae. Fisheries Investigations, London, series IV 1967: [i]-vi, [1]-54, 22 pls.
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Taxonomic status: currently recognized as a distinct genus.

Gender: This genus name is currently treated as feminine.

Most recent taxonomic treatment adopted: Kugrens, P. & Clay, B.L. (2002). Cryptomonads. In: Freshwater Algae of North America. ( Eds), pp. 715-755. San Diego: Academic Press.

Taxonomic notes
Cryptomonas Ehrenberg 1831 emend. Hoef-Emden et Melkonian; type species: Cryptomonas curvata Ehrenberg 1832 emend. Hoef-Emden et Melkonian (hic designatus); synonyms: Chilomonas Ehrenberg 1831, (typus: Chilomonas paramecium Ehrenberg 1832), Pseudocryptomonas Bicudo et Tell 1988 (typus: Pseudocryptomonas americana Bicudo et Tell 1988), Campylomonas Hill 1991 (typus: Campylomonas reflexa (Skuja) Hill 1991) [Hoef-Emden & Melkonian 2003: 391]. - (8 Jul 2010) - Wendy Guiry

Description: Free swimming, generally obovoid, biflagellate monads that often form thickly mucilaginous, palmelloid colonies; a longitudinal furrow extends posteriorly from the vestibulum and transforms into a sack-like gullet lined with many rows of ejectisomes; two chloroplasts, pyrenoids and nucleomorphs, the chloroplasts contain the phycobiliprotein, Cr-phycoerythrin 566, and vary in color from olive-brown to brown and yellow in older cells; periplast with an inner layer of plates and a superficial layer of fine fibrillar material sandwiching the plasma membrane. Reproduction is by simple cell division. Cytokinesis in Cryptomonas ovata has been examined by light microscopy. Several species are capable of forming thick-walled cysts. High light intensity and nitrogen deficiency induce Cryptomonas rufescens to form cysts which give rise to two or four daughter cells on excystment. Cells may remain in palmelloid colonies for extended periods in culture. These have been examined by light and electron microscopy. Sexual reproduction is unknown. The ultrastructure has been examined in a number of reports. The inner periplast plates are roughly oval in shape and have strong attachment sites to the plasma membrane around their edges. The nucleomorph is not associated with the pyrenoid. The pyrenoidal matrix is not traversed by thylakoids. The flagellar apparatus of Cryptomonas ovata has a rhizostyle consisting of a curved band of microtubules with a laminar structure associated with the concave surface. Both flagella of Cryptomonas ovata have been shown to bear mastigonemes; two rows on the longer flagellum and a single row on the shorter one. The fine structure of the mastigonemes has also been examined. Several species of Cryptomonas have been shown to possess an imbricate layer of rosulate scales on both flagella. Flagellar transformation has been shown to occur in Cryptomonas ovata with the shorter, ventral flagellum being mature. Genus cosmopolitan in freshwater habitats, including temporary ponds, rivers and lakes. More than 100 species have been assigned to Cryptomonas; including marine and blue-green forms. Recent taxonomic revisions suggest, however, that Cryptomonas should be restricted to the ovoid, olive-green to brown species found in fresh and slightly brackish waters. Cluster analysis has been used in an attempt to distinguish the species of Cryptomonas. The majority of species have been described from European waters, but the genus is known from every continent. Physiological studies include the effects of light intensity and temperature on the growth and nutrient uptake in Cryptomonas ovata; ammonium appears to be the preferred nitrogen source for at least several Cryptomonas species. The effects of organic carbon sources and proteose peptone on growth have also been examined in Cryptomonas species.

Information contributed by: D.R.A. Hill. The most recent alteration to this page was made on 1 Jan 2018 by M.D. Guiry.

Numbers of names and species: There are 163 species names in the database at present, as well as 16 infraspecific names. Of the species names, 56 have been flagged as accepted taxonomically on the basis of the listed literature under the species name. In some instances, opinions on taxonomic validity differ from author to author and users are encouraged to form their own opinion. AlgaeBase is a work in progress and should not be regarded as a definitive source only as a guide to the literature..

Names: ('C' indicates a name that is accepted taxonomically; 'S' a homotypic or heterotypic synonym; 'U' indicates a name of uncertain taxonomic status, but which has been subjected to some verification nomenclaturally; 'P' indicates a preliminary AlgaeBase entry that has not been subjected to any kind of verification. For more information on a species click on it to activate a link to the Species database):

Click here to also show infraspecific names in the list below.

References
Throndsen, J. (1996). The planktonic marine flagellates. In: Identifying marine phytoplankton. (Tomas, C.R. Eds), pp. 591-730. San Diego: Academic Press.

Verification of data
Users are responsible for verifying the accuracy of information before use, as noted on the website Content page.

Contributors
Some of the descriptions included in AlgaeBase were originally from the unpublished Encyclopedia of Algal Genera, organised in the 1990s by Dr Bruce Parker on behalf of the Phycological Society of America (PSA) and intended to be published in CD format. These AlgaeBase descriptions are now being continually updated, and each current contributor is identified above. The PSA and AlgaeBase warmly acknowledge the generosity of all past and present contributors and particularly the work of Dr Parker.

Descriptions of chrysophyte genera were subsequently published in J. Kristiansen & H.R. Preisig (eds.). 2001. Encyclopedia of Chrysophyte Genera. Bibliotheca Phycologica 110: 1-260.

Created: 11 April 2002 by M.D. Guiry

Verified by: 01 January 2018 by M.D. Guiry

Linking to this page: http://www.algaebase.org/search/genus/detail/?genus_id=43571

Citing AlgaeBase
Please cite this record as:
M.D. Guiry in Guiry, M.D. & Guiry, G.M. 2018. AlgaeBase. World-wide electronic publication, National University of Ireland, Galway. http://www.algaebase.org; searched on 13 December 2018.

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