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Cyclotella

Cyclotella is a genus of diatoms often found in oligotrophic environments, both marine and fresh water.It is in the family Stephanodiscaceae and the order Thalassiosirales. The genus was first discovered in the mid 1800s and since then has become an umbrella genus for nearly 100 different species, the most well-studied and the best known being C. meneghiniana. Despite being among the most dominant genera in low-productivity environments, it is relatively understudied (13). Cyclotella’s habitat has traditionally been described as low-productivity mesotrophic or oligotrophic freshwater environments, but,with C. meneghiniana appearing in warm, nutrient-rich environments as well as low-productivity environments, it has become unclear whether there is an archetypal aquatic setting for this genus.

The name Cyclotella is derived from the greek term kyklos , meaning “circle.” While “circle” can be used to describe many diatoms, Cyclotella sp . are all circular and have a girdle band arrangement that makes the structure of the organism resemble a wheel (3).

The genus Cyclotella was described in 1838 by Louis Alphonse de Brébisson, a French botanist and photographer (5). Brébisson shares the credit of discovering the genus with Friedrich Traugott Kützing, a German pharmacist, botanist, and phycologist. This is in spite of the fact that neither one of these scientists ever worked together or even came in contact with one another. Kützing was a pioneer in microbial science, demonstrating the difference between diatoms and desmids in a German research paper in 1833. In 1849, Kützing published a comprehensive work describing 6000 different algae species, including the most known species of Cyclotella today- C. meneghiniana (9). As Brébisson describes in the 1838 publication Flore de Normandie , Cyclotella “has a more or less elongated ovoid shape, it is swollen from both sides, and when its center is diaphanous, it resembles two tubular frustules united by their vertices ( translated from French ).” Many databases, texts, and members of the scientific community refer to the entire genus of Cyclotella as Cyclotella (Kützing) Brébisson (9). This full genus title indicates that Kützing initially discovered species of a genera and put them into another genus, which was then altered by Brébisson who took some of those same species and placed them within the Cyclotella genus. Upon distinguishing Cyclotella from other diatom species, over the next 180 years there have been nearly 100 different species of the genus described and taxonomically accepted.

Species of Cyclotella are most often found in oligotrophic environments. They are most often found in freshwater environments, but can also be found in brackish and marine habitats as well. Many of the freshwater species have been found throughout the United States in stagnant waters (7). Species that are most commonly found in marine environments are C. caspia, C. litoralis, C. meneghiniana, C. striata, and C. stylorwn . In a study performed in1974, it was determined that the optimal osmolar concentration for growth in C. meneghiniana, likely the best studied species of Cyclotella , in a medium of 0.5 Osm/L (14). For references, the osmolarity of seawater is on average, 1 Osm/L (3). Marine diatoms and algae in general tend to flourish in higher osmolar concentrations due to the increased presence of carbon dioxide and nutrients to be utilized as sustenance, but the low-solute environment Schobert found to be most optimal for the growth of C. meneghiana is consistent with most Cyclotella being found in low-productivity mesotrophic to oligotrophic environments. Species of cyclotella have been found in harsh aquatic environments such as coldwater regions in northern regions of the world (7). Another study by Van de Vijver and Dessein found a new species of Cyclotella, C. deceusteriana, in the sub-antarctic region (19). One of the only ecological characteristics of Cyclotella that is consistent among most of its species is the fact that they are found in stagnant or near-stagnant waters and are immobile.Beyond that, there is a lot of variation. Many of the Cyclotella species that have been studied have been shown to be found in aquatic environments that are either slightly or highly alkaline. C. distinguenda is known to prefer alkaline waters, and C. gamma has been found in lakes that have a pH range of 7.2 to 7.8. Nutrient concentration in the habitats of Cyclotella sp. varies. C.sensu lato has been described as a dominant member of both mesotrophic and oligotrophic environments (13), as many are, but both C. atomus and C. meneghiniana are found to prefer nutrient-rich environments. Temperature ranges vary between species as well; It was mentioned earlier that C. deceusteriana was discovered in sub-antarctic regions, and C. gamma and C.quillensis have been found in the Northern United States and Saskatechwan, respectively. C. atomus , on the other hand, has been found in warmer lake sediments in California. Colonization patterns of Cyclotella sp. are relatively uniform, in the sense that most of them are solitary organisms. C. meneghiniana, however, has been described to occasionally live in colonies (11). Of course, the preference of nutrient rich environments of C. meneghiniana conflicts the findings mentioned earlier.

The size of Cyclotella varies by species. C. atomus has a diameter of 5-7 um, whereas C. quillensis can have a diameter up to 24-54 um (1). The most studied species of the genus, C. meneghiniana, has a diameter of 6-18 um. Like all other diatoms, Cyclotella spp. have transparent cell walls. They form biosilica shells using dissolved silicon and carbon acquired from various carbon partitioning pathways. Other materials Cyclotella uses for cell wall biosynthesis are semiconductor metal oxides and extracellular fibers made of chitin. The primary allomorph of chitin that is found most often in diatoms is α-chitin, but Cyclotella and Thalassiosira contain the β-chitin allomorph. Poly N-acetyl glucosamine chains are oriented in a parallel manner and contain intermolecular hydrogen bonds. The bound chains and hydrogen bonds between molecules form a paracrystalline matrix of β-chitin. This matrix contains pores large enough for whatever solvent is available in the aquatic ecosystem in which Cyclotella sp. reside in to enter the matrix and swell the structure (10). Diatoms are unique in the sense that they have valves, created by the two halves of a diatom’s test. Cyclotella sp. are no exception, as they form the upper and lower portions of the wall. The girdle bands that support the valves are thin strips of silica and ultimately circumscribe the cell. Each valve has two central tubes traversing its surface, meeting in the middle at the central nodule. The morphology of the Cyclotella cell wall and its valves are important traits that distinguish species from each other. Each species has tangentially undulated valves all throughout their cell wall, regardless of their length, width, and concentration (17). Frustules contain areolas, that is orifices that mediate the passage of nutrients and exudates across the cell wall for sustenance. The characteristics of these areolas are thought to cause differences in mechanical strength and metabolism among different cells (15). Like other monoraphid diatoms, Cyclotella frustules can be characterized as heterovalvar. The cell wall and cell membrane are what are known to this point as what distinguishes Cyclotella from other diatom genera. The cytoplasmic components are assumed to be similar to what other diatoms have. In C. meneghiniana, there are granules scattered and attached at the chromatophore all throughout the cytoplasm. The genus is photosynthetic like all other diatoms, so all species contain one or many pyrenoids traversed by a thylakoid membrane and a chloroplast within the endoplasmic reticulum. Dictyosomes are also present in the cytoplasm, being in close proximity to the nucleus and making up the golgi complex. The nucleus has been found to change locations in C. meneghiniana throughout generations as a result of the cell diameter gradually decreasing (8).

C. meneghiniana splits in half during asexual reproduction. The halves are separated by the distinction between the two valves for each cell. Each of the two offspring that arise as a result of cell division have one of the two valves from the parent cell. During the separation of the parent cell, the cytoplasm forms the two offspring valves that will end up complementing the inherited parent valves in the offspring once reproduction is complete.The offspring valves are formed within a silica deposition vesicle that gradually grows larger and separates into two different offspring valves. The parent valves become a template for the offspring valves being formed, with patterns of striae and the central cell area also being inherited. However, perfect complementation does not occur every generation, which can lead to consecutive generations inheriting a deformed parental valve that was initially a deformed offspring valve in a previous generation. The likeness of the offspring valves to the parental valves is determined by the flexibility of the girdle bands; the other factors are unknown (15). Vegetative cell division occurs over hundreds of generations for C. meneghiniana , with the cell diameters of the offspring organisms becoming gradually smaller. Regardless of the flexibility of the girdle bands and functionality of vegetative cell division, there is a point where the diameter of C. meneghiniana offspring dips below a certain threshold diameter. It has been observed that at this point, species-specific environmental stimuli induces the change from asexual reproduction to sexual reproduction.

Sexual reproduction occurs with gametes being formed upon reaching the threshold. During the process of meiosis, male Cyclotella cells release sperm and the female Cyclotella cells develop and egg from within the two valves. Following fertilization of the egg, a zygote is formed from the union of the two gametes. The zygote then develops into an auxophore (2n). Once sexual reproduction is complete, the diameter of the offspring is larger and beyond the threshold once again, allowing for the production of another few hundred generations through the asexual division of auxophores.

Despite there being very little known about the internal morphology of Cyclotella , there there have been a sizable number of studies done on the genus’ molecular biology and genome. C. cryptica has been identified to be an oleaginous diatom, with a great deal of triacylglycerol. Its genome has been identified to contain many methylated repetitive sequences, which are supposed to function as a way of limiting the occurrences of DNA transposition. C. cryptica was discovered to have a very efficient lipid metabolism, which is needed for its high triacylglycerol production (18). Another study conducted in 1992 indicates that C. meninghiana has the largest genome and abundance of sequence repeats of any diatom species up to this specific study (2). The C. meninghiana chloroplast genome alone has a vast amount of equimolar inversion isomers. Many of these isomers differ in their orientation to their single copy sequence counterparts. The species, according to the findings, still has some prokaryotic and land plant gene clusters as well as operons. In comparison to many other diatoms and plant chloroplast studies, C. meninghiana has a diversely rearranged gene order for single copy regions in its genome.

Fossils of Cyclotella are not too commonly found, however there have been a few species found fossilized in freshwater ecosystems. Fossil assemblages have been found in glacial and interglacial segments. Regarding trophic levels, they have been found in oligotrophic and mesotrophic rivers in Europe and Mediterranean regions. The frequent discovery of C. distinguenda fossils led to a consensus that they generally have an undulated central area. A sample of C. distinguenda was found at the Agios Floros fen, Southwest Peloponnese, Greece. The fossilized sample was dated to 5700 to 5300 years ago. Support for the recognition of a new diatom species, C. paradistinguenda, was proposed after looking through the sample of C. distinguenda (20). C. paradistinguenda was dated back to 4600 years ago. Distinctions between the two species can also be described in the differences in stratigraphic distributions between the two, as C. paradistinguenda was found in an upper organic sequence of the sample compared to C. distinguenda (20). Another sample of Cyclotella was found at Lake Petén-Itzá, lowland Guatemala. The newfound diatom species were found fossilized morphologically distinct from other Cyclotella species (21). One of the species was named C. petenensis. The other species was named C. cassandrae , characterized by its elliptically shaped valve paired with its coarse striae. Most notably it has a scattered ring of central fultoportulae (21). Discovering fossils is not often a credible enough way to determine a new species within the phylum of diatoms, given that determining underlying mechanisms based on morphological variability is unreliable. It’s best to use both morphological and paleoecological data obtained from samples- the two are often difficult to obtain just from fossils (20).

Domain: Eukayota

Superphylum: Heterokonta

Phylum: Bacillariophyta

Class: Coscinodiscophyceae

Order: Thalassiosirales

Family: Stephanodiscaceae

Cyclotella abnormis Cleve-Euler

Cyclotella actinocyclus (Ehrenberg) Kützing

Cyclotella actinopleurata Clerici

Cyclotella aegaea A.Economou-Amilli

Cyclotella affinis (Grunow) Houk, R.Klee & H.Tanaka

Cyclotella affinis Makarova & Genkal

Cyclotella africana Rabenhorst

Cyclotella agassizensis Halkansson & Kling

Cyclotella alchichicana Oliva, Lugo, Alcocer & Cantoral

Cyclotella aliquantula Hohn & Hellermann

Cyclotella alvarniensis (Wuthrich) Straub & Aboal

Cyclotella ambigua Grunow

Cyclotella americana Kützing

Cyclotella americana Fricke

Cyclotella andancensis A.Ehrlich

Cyclotella andina E.Theriot, H.J.Carney & P.J.Richerson

Cyclotella antiqua W.Smith

Cyclotella arctica Genkal & Kharitonov

Cyclotella arentii Kolbe

Cyclotella areolata Hustedt

Cyclotella armenica Loginova & Pirumova

Cyclotella asiatica Brun

Cyclotella asterocostata B.Q.Lin, S.Q.Xie & S.X.Cai

Cyclotella astraea Kützing

Cyclotella atlantica (Ehrenberg) Ralfs

Cyclotella atmosphaerica Ralfs

Cyclotella atomus Hustedt

Cyclotella austriaca (M.Peragallo) Hustedt

Cyclotella azigzensis R.J.Flower, F.Gasse & H.Håkansson

Cyclotella bachmannii Meister

Cyclotella baicalensis Skvortzov & Meyer

Cyclotella balatonis Pantocsek

Cyclotella baltica (Grunow) H.Håkansson

Cyclotella bastowii J.R.Carter

Cyclotella bavarica R.Klee, R.Schmidt & J.Müller

Cyclotella bella A.W.F.Schmidt

Cyclotella berguisensis Ehrlich

Cyclotella berolinensis Ehrenberg

Cyclotella bifacialis Jurilj

Cyclotella bituminosa Hustedt

Cyclotella bodanica Eulenstein ex Grunow

Cyclotella bodanica-comta (Ehrenberg) Kützing

Cyclotella bomba Serieyssol

Cyclotella bradburyi Khursevich & Fedenya

Cyclotella calae Azpeitia Moros

Cyclotella caspia Grunow

Cyclotella cassandrae Paillès & Sylvestre

Cyclotella castracanei Brun

Cyclotella castracanei Eulenstein ex Fricke

Cyclotella catenata (J.Brun) Bachmann

Cyclotella cavita Stoermer & Kreis

Cyclotella cavitata Tofilovska, S., Cvetkoska, A., Jovanovska, E., Ognjanova-Rumenova, N. & Z.Levkov

Cyclotella centripetalis Aleshinskaya & Pirumova

Cyclotella cesatii Castracane

Cyclotella ceylonica Holsinger

Cyclotella chaetoceras Lemmermann

Cyclotella changhai J.-X.Xu & J.P.Kociolek

Cyclotella chantaica Kuzmina & S.I.Genkal

Cyclotella charetonii Héribaud

Cyclotella choctawhatcheeana Prasad

Cyclotella cleve-euleriana Palik

Cyclotella cocconeiformis (Grunow) Amossé

Cyclotella comata (Her.) Kützing

Cyclotella comensis Grunow

Cyclotella compta Kützing

Cyclotella comta Kützing

Cyclotella comtaeformica Khursevich

Cyclotella concentrica Meneghini

Cyclotella convexa (Ehrenberg) Kutzing

Cyclotella cornuta Kutzing

Cyclotella corona V.V.Mukhina

Cyclotella coscinodiscus Kützing

Cyclotella costei Druart & Straub

Cyclotella crassa Tynni

Cyclotella cretica J.John & Economou-Amilli

Cyclotella crucigera Pantocsek

Cyclotella cryptica Reimann, J.C.Lewin & Guillard

Cyclotella cubiculata E.A.Sar, I.Sunesen & A.S.Lavigne

Cyclotella curvistriata J.Y.Chen & H.Z.Zhu

Cyclotella cyclopuncta Håkansson & J.R.Carter

Cyclotella dahurica M. Kachaeva

Cyclotella dallasiana W.Smith

Cyclotella deceusteriana Van de Vijver & Dessein

Cyclotella delicatissima J.R.Carter

Cyclotella delicatula Hustedt

Cyclotella dendrochaera Ralfs

Cyclotella denticulata Kützing

Cyclotella desikacharyi A.K.S.K.Prasad

Cyclotella discostelliformica Kociolek & Khursevich

Cyclotella distincta Khursevich

Cyclotella distinguenda Hustedt

Cyclotella dives (Ehrenberg) Kützing

Cyclotella dubia Hilse

Cyclotella dubia Fricke

Cyclotella elentarii Alfinito & Tagliaventi

Cyclotella elgeri Hustedt

Cyclotella elymaea Economou-Amilli

Cyclotella eriensis V.Houk, R.Klee & H.Tanaka

Cyclotella estonica Laugaste & Genkal

Cyclotella exigua H.Håkansson

Cyclotella facetia Hohn & Hellerm.

Cyclotella ferrazae Cholnoky

Cyclotella fimbriata Castracane

Cyclotella flammea Pantocsek

Cyclotella florida Voight

Cyclotella fottii Hustedt

Cyclotella fourtanierae Kociolek

Cyclotella foveolata Khursevich & Fedenya

Cyclotella frigida Cleve Euler

Cyclotella furcigera Nygaard

Cyclotella gamma Sovereign

Cyclotella gigantea Edwards

Cyclotella glabriuscula (Grunow) Håkansson

Cyclotella glomerata H.Bachmann

Cyclotella gordonensis H.J.Kling & Håkansson

Cyclotella gothica Cleve- Euler

Cyclotella gracilis T.A.Nikiteeva & Y.V.Likhoshway

Cyclotella graeca (Kützing) Ralfs

Cyclotella granulata Kulumbaeva & Genkal

Cyclotella guignardi Héribaud

Cyclotella hakanssoniae Wendker

Cyclotella hannaites VanLandingham

Cyclotella hellae T.-P.Chang & C.Steinberg

Cyclotella hilseana Rabenhorst

Cyclotella hinganica Skvortzov

Cyclotella hinziae V.Houk, C.König & R.Klee

Cyclotella hispanica K.T.Kiss, E.Hegewald, & Ács

Cyclotella hongkongensis Skvortzov

Cyclotella horstii S.Genkal & M.Kulikovskiy

Cyclotella hubeiana J.Y.Chen & H.Z.Zhu

Cyclotella hustedtii Jurilj

Cyclotella hyalina Colditz

Cyclotella idahica Khursevich & Kociolek

Cyclotella indistincta Kociolek

Cyclotella insolita Hagelstein

Cyclotella intermedia V.Houk, Klee & H.Tanaka

Cyclotella iranica T.Nejadsattari, S.Kheiri, S.Spaulding & M.Edlund

Cyclotella iridioides Manguin ex Kociolek & Reviers

Cyclotella iris Brun & Héribaud-Joseph

Cyclotella irregularis Grunow

Cyclotella iwatensis H.Tanaka

Cyclotella iyengaria Rao & Awasthi

Cyclotella jonesii R.B.McLaughlin

Cyclotella juriljii Rački

Cyclotella juriljii Skvortzov

Cyclotella kansasensis G.D.Hanna

Cyclotella kansasica Hanna

Cyclotella kathmanduensis T.Hayashi

Cyclotella katiana S.Sala & J.J.Ramírez

Cyclotella kelloggii Hanna

Cyclotella kinea A.Economou-Amilli

Cyclotella kisselevii O.Korotkevich

Cyclotella kitabayashii H.Tanaka

Cyclotella kohsakaensis H.Tanaka & H.Kobayasi

Cyclotella krammeri Håkansson

Cyclotella kuetzingiana Chauvin

Cyclotella kuetzingiana Thwaites

Cyclotella kurdica Håkansson

Cyclotella lacunarum Hustedt

Cyclotella lacus-karluki Manguin ex Kociolek & Reviers

Cyclotella ladogensis Cleve-Euler

Cyclotella laevis (Ehrenberg) Kützing

Cyclotella laevissima Van Goor

Cyclotella lemanensis (O.Müller) Lemmerman

Cyclotella ligata Manguin

Cyclotella ligustica Kützing

Cyclotella litoralis Lange & Syvertsen

Cyclotella longirimoportulata E.Morales, S.F.Rivera & Ector

Cyclotella lossevae L.P.Loginova

Cyclotella lucens (Hustedt) Simonsen

Cyclotella lucernensis Bachmann

Cyclotella lundii Devlin

Cyclotella mahoodii Kociolek & Khursevich

Cyclotella major (Kützing) Rabenhorst

Cyclotella mammilla Kützing

Cyclotella marginata Castracane

Cyclotella marina (Tanimura Nagumo & Kato) Aké-Castillo, Okolodkov & Ector

Cyclotella mascarenica Klee, Houk & Bielsa

Cyclotella mauchaiana Palik

Cyclotella mauchiana Palik

Cyclotella maxima Kützing

Cyclotella meduanae H.Germain

Cyclotella melnikiae S.I.Genkal & Bondarenko

Cyclotella melosiroides (Kirchner) Lemmermann

Cyclotella meneghiniana Kützing

Cyclotella mesoleia (Grunow) Houk, Klee & H.Tanaka

Cyclotella metochia N.Ognjanova-Rumenova

Cyclotella michiganiana Skvortzow [Skvortzov]

Cyclotella minima Barber & Carter

Cyclotella minuscula (Jurilj) A.Cvetkoska

Cyclotella minuta (Skvortzov) Antipova

Cyclotella minutula Kützing

Cyclotella miyiensis J.Z.Qi & J.R.Yang

Cyclotella multipunctata Serieyssol

Cyclotella naegelii Meneghini

Cyclotella nana Hustedt

Cyclotella narochanica S.I.Genkal & T.M.Mikheeva

Cyclotella neocaledonica Manguin ex Kociolek & Reviers

Cyclotella nevadica Khursevich & Kociolek

Cyclotella nimuensis Huang

Cyclotella notata E.I.Loseva

Cyclotella nuda Hajós

Cyclotella obliquata Y.Z.Qi & J.R.Yang

Cyclotella ocellata Pantocsek

Cyclotella oligactis Ralfs

Cyclotella omarensis (Kuptsova) Loseva & Makarova

Cyclotella operculata (C.Agardh) Brébisson

Cyclotella oregonica Kociolek & Khursevich

Cyclotella oregonica Ralfs

Cyclotella orientalis J.H.Lee, J.Chung & T.Gotoh

Cyclotella ornata (Skvortzov) R.J.Flower

Cyclotella ovalis Fricke

Cyclotella ozensis (H.Tanaka & T.Nagumo) H.Tanaka

Cyclotella paleo-ocellata H.Vossel & B.Van de Vijver

Cyclotella palustris S.I.Genkal & Kulikovskiy

Cyclotella pantanelliana Castracane

Cyclotella papillosa O'Meara

Cyclotella paradistinguenda Katrantsiotis & Risberg

Cyclotella paraocellata A.Cvetkoska, P.B.Hamilton, N.Ognjanova-Rumenova & Z.Levkov

Cyclotella parvula L.P.Loginova

Cyclotella patagonica (Ehrenberg) Kützing

Cyclotella paucipunctata Grunow

Cyclotella pelagica Grunow

Cyclotella perforata Héribaud-Joseph

Cyclotella pertenuis Bailey

Cyclotella peruana Kützing

Cyclotella petenensis Sylvestre, Paillès & J.Escobar

Cyclotella physoplea Kützing

Cyclotella picta Kützing

Cyclotella pingualuitii Black & Edlund

Cyclotella planctonica Brunnthaler

Cyclotella pliostelligera Tanaka & Nagumo

Cyclotella plitvicensis Hustedt

Cyclotella polymorpha B.Meyer & Håkansson

Cyclotella praekinea A.Economou-Amilli

Cyclotella praekuetzingiana V.V.Mukhina

Cyclotella praeminuta Khursevich

Cyclotella praetermissa J.W.G.Lund

Cyclotella pratii Toman

Cyclotella pravissima Giffen

Cyclotella prespanensis A.Cvetkoska, P.B.Hamilton, N.Ognjanova-Rumenova & Z.Levkov

Cyclotella proshkinae A.P.Jousé & V.V.Mukhina

Cyclotella pseudocomensis W.Scheffler

Cyclotella pseudokansasica Khursevich & Kociolek

Cyclotella pseudonana T.P.Chang

Cyclotella pseudostelligera Hustedt

Cyclotella pulchella L.W.Bailey

Cyclotella pumila Grunow

Cyclotella punctata W.Smith

Cyclotella pygmaea Pantocsek

Cyclotella quadriiuncta (Schroeter) Hustedt

Cyclotella quadrijuncta (Schröter) Keissler

Cyclotella quillensis L.W.Bailey

Cyclotella radiata Brightwell

Cyclotella radiosa (Grunow) Lemmermann

Cyclotella rectangula (Kützing) Ralfs

Cyclotella reczickiae Khursevich & L.P.Loginova

Cyclotella regina Mann

Cyclotella rheinholdii Reichelt

Cyclotella rhomboideo-elliptica Skuja

Cyclotella rossii Håkansson

Cyclotella rota (Ehrenberg) Kützing

Cyclotella rotula Kützing

Cyclotella satsumaensis H.Tanaka & Houk

Cyclotella scaldensis Muylaert & Sabbe

Cyclotella schambica Aleshinskaya & Pirumova

Cyclotella schroeteri Lemmermann

Cyclotella schumannii (Grunow) H.Håkansson

Cyclotella scotica Kützing

Cyclotella scrobicula Aleshinskaya & Pirumova

Cyclotella seratula Hohn & Hellerman

Cyclotella servant-vildaryae Mukhina

Cyclotella sevillana Deby

Cyclotella sevilleana Deby

Cyclotella sexnotata Deby

Cyclotella sexpunctata Deby

Cyclotella shanxiensis S.-Q.Xie & Y.-Z.Qi

Cyclotella shengxianensis Huang in Huang & Cai Xie & Qi

Cyclotella sibirica Skabichevskij

Cyclotella sinensis (Ehrenberg) Ralfs

Cyclotella sjabatjakkensis Cleve-Euler

Cyclotella skadariensis Jerkovic

Cyclotella socialis Schütt

Cyclotella sollevata Tofilovska, S., Cvetkoska, A., Jovanovska, E., Ognjanova-Rumenova, N. & Z.Levkov

Cyclotella spinosa Schum.

Cyclotella stellaris Aleshinskaya & Pirumova

Cyclotella stelligera (Cleve & Grunow) Van Heurck

Cyclotella stelligeroides Hustedt

Cyclotella stengella Prescott

Cyclotella stipata Frenguelli

Cyclotella stoermeri Khursevich & Kociolek

Cyclotella strelnikovae S.I.Genkal & Yarushina

Cyclotella striata (Kützing) Grunow

Cyclotella strisignata Grunow

Cyclotella stylorum Brightwell

Cyclotella styriaca Hustedt

Cyclotella subsalina Grunow

Cyclotella substelligera H.P.Gandhi

Cyclotella substylorum Archibald

Cyclotella sudanensis (R.F.Bastow) G.Reid & D.M.Williams

Cyclotella superba Fricke

Cyclotella szakalensis Grunow ex Pantocsek

Cyclotella tasmanica E.Y.Haworth & P.A.Tyler

Cyclotella tataënsis Palik

Cyclotella tecta Håkansson & R.Ross

Cyclotella temperei Brun

Cyclotella tempereiformica Khursevich

Cyclotella temperiana L.P.Loginova

Cyclotella tenuistriata Hustedt

Cyclotella terryana Tempère & Peragallo

Cyclotella texta H.Håkansson & R.Ross

Cyclotella thienemanni Jurilj

Cyclotella tibetana Hustedt

Cyclotella transylvanica Pantocsek

Cyclotella trichonidea A.Economou-Amilli

Cyclotella tripartita Håkansson

Cyclotella tuantianensis Huang

Cyclotella tuberculata Makarova & Loginova

Cyclotella tubulosa Khursevich & Kociolek

Cyclotella tuncaica Nikiteeeva, Likhoshway & Pomazkina

Cyclotella umbilicata (Ehrenberg) Ralfs

Cyclotella undata Kützing

Cyclotella undulata Bodeanu

Cyclotella undulata Harting

Cyclotella utahensis C.L.Graeff, Kociolek & S.R.Rushford

Cyclotella vaetteri Cleve-Euler

Cyclotella venusta (Ehrenberg) Ralfs

Cyclotella verrucosa Jerkovic & Cado

Cyclotella virihensis Cleve-Euler

Cyclotella vorticosa A.Berg

Cyclotella widerkehrii Werner

Cyclotella woltereckii Hustedt

Cyclotella wuetrichiana Druart & Straub

Cyclotella wulfiae B.Meyer & H.Håkansson

Cyclotella xizangensis Huang

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^[17]

^[18]

^[19]