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References [ 10 ]
Hoef-Emden K (2005) Multiple independent losses of photosynthesis and differing evolutionary rates in the genus Cryptomonas (Cryptophyceae): Combined phylogenetic analyses of DNA sequences of the nuclear and the nucleomorph ribosomal operons. Journal of Molecular Evolution 60: 183-195.
Hoef-Emden K (2007) Revision of the genus Cryptomonas (Cryptophyceae) II: incongruencies between the classical morphospecies concept and molecular phylogeny in smaller pyrenoid-less cells. Phycologia 46: 402-428.
Hoef-Emden K & Melkonian M (2003) Revision of the genus Cryptomonas (Cryptophyceae): A combination of molecular phylogeny and morphology provides insights into a long-hidden dimorphism. Protist 154: 371-409.
Fenchel T, Esteban GF & Finlay BJ (1997) Local versus global diversity of microorganisms: Cryptic diversity of ciliated protozoa. Oikos 80: 220-225.
DOI: none
Hilton J, Rigg E & Jaworski G (1989) In vivo algal fluorescence, spectral change due to light intensity changes and the automatic characterization of algae. Freshwater Biology 21: 375-382.
Ojala A (1993) The influence of light quality on growth and phycobiliprotein/chlorophyll a fluorescence quotients of some species of freshwater algae in culture Phycologia 32: 22-28.
Choi B, Son M, Kim JI & Shin W (2013) Taxonomy and phylogeny of the genus Cryptomonas (Cryptophyceae, Cryptophyta) from Korea. Algae 28: 307-330.
Wirth C, Limberger R & Weisse T (2018) Temperature × light interaction and tolerance of high water temperature in the planktonic freshwater flagellates Cryptomonas (Cryptophyceae) and Dinobryon (Chrysophyceae) Journal of Phycology -: -.
Ojala A (1993) Effects of light and temperature on the cell size and some biochemical components in two freshwater cryptophytes. Nordic Journal of Botany 13(6): 697-705.
DOI: none
Ojala A (1993) Effects of temperature and irradiance on the growth of two freshwater photosynthetic cryptophytes. Journal of Phycology 29: 278-284.
DOI: none
Sequences [ 2 ]
EMBL/Genbank Links
(Bold text = submission by CCAP staff or collaborators)
Division/Phylum: Cryptophyta Class: Cryptophyceae Order: Cryptomonadales

Note: for strains where we have DNA barcodes we can be reasonably confident of identity, however for those not yet sequenced we rely on morphology and the original identification, usually made by the depositor. Although CCAP makes every effort to ensure the correct taxonomic identity of strains, we cannot guarantee that a strain is correctly identified at the species, genus or class levels. On this basis users are responsible for confirming the identity of the strain(s) they receive from us on arrival before starting experiments.
For strain taxonomy we generally use AlgaeBase for algae and Adl et al. (2019) for protists.

Culture media, purity and growth conditions:
Medium: MWC; Bacteria and other organisms present; maintained by serial subculture; or BG11, JM, contains low numbers of nanoflagellates
Attributes
AuthorityEhrenberg 1831
IsolatorJaworski (1979)
Collection Site Priest Pot, Cumbria, England, UK
Climatic Zone Temperate
Notes isolated by micropipetting and dilution; clonal
Axenicity Status Bacteria and other organisms present
Area Europe
Country UK
Environment Freshwater
GMO No
In Scope of Nagoya Protocol No
ABS Note Collected pre Nagoya Protocol. No known Nagoya Protocol restrictions for this strain.
Collection Date c 1979
Original Designation FBA L315
Pathogen Not pathogenic: Hazard Class 1
Strain Maintenance Sheet
Toxin Producer Not Toxic / No Data
Type Culture No
Taxonomy WoRMS ID 238840
Formerly Listed in CCAP asCryptomonas sp.

CCAP 979/62

Cryptomonas curvata


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