Thiothrix Caldifontis
''Thiothrix'' is a genus of filamentous sulfur-oxidizing bacteria, related to the genera ''Beggiatoa'' and ''Thioploca''. They are usually Gram-negative (but can be Gram-variable) and rod-shaped (0.7–1.5 µm in width by 1.2–2.5 µm in length). They form ensheathed multicellular filaments that are attached at the base, and form gonidia at their free end. The apical gonidia have gliding motility. Rosettes of the filaments are not always formed but are typical. Sulfur is deposited in invaginations within the cell membrane. Species * '' Thiothrix nivea'' Rabenhorst 1865) Winogradsky 1888 * '' Thiothrix fructosivorans'' Howarth et al 1999 * ''Thiothrix unzii'' Howarth et al 1999 * '' Thiothrix caldifontis'' Chernousova 2009 * ''Thiothrix lacustris'' * ''Thiothrix litoralis'' * '' Thiothrix subterranea'' * "''Candidatus'' Thiothrix anitrata" * "''Candidatus'' Thiothrix singaporensis" * "''Candidatus'' Thiothrix moscowensis" Habitat ''Thiothrix'' live primarily in flo ...
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Bacteria
Bacteria (; singular: bacterium) are ubiquitous, mostly free-living organisms often consisting of one biological cell. They constitute a large domain of prokaryotic microorganisms. Typically a few micrometres in length, bacteria were among the first life forms to appear on Earth, and are present in most of its habitats. Bacteria inhabit soil, water, acidic hot springs, radioactive waste, and the deep biosphere of Earth's crust. Bacteria are vital in many stages of the nutrient cycle by recycling nutrients such as the fixation of nitrogen from the atmosphere. The nutrient cycle includes the decomposition of dead bodies; bacteria are responsible for the putrefaction stage in this process. In the biological communities surrounding hydrothermal vents and cold seeps, extremophile bacteria provide the nutrients needed to sustain life by converting dissolved compounds, such as hydrogen sulphide and methane, to energy. Bacteria also live in symbiotic and parasitic relationsh ...
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Thiothrix Caldifontis
''Thiothrix'' is a genus of filamentous sulfur-oxidizing bacteria, related to the genera ''Beggiatoa'' and ''Thioploca''. They are usually Gram-negative (but can be Gram-variable) and rod-shaped (0.7–1.5 µm in width by 1.2–2.5 µm in length). They form ensheathed multicellular filaments that are attached at the base, and form gonidia at their free end. The apical gonidia have gliding motility. Rosettes of the filaments are not always formed but are typical. Sulfur is deposited in invaginations within the cell membrane. Species * '' Thiothrix nivea'' Rabenhorst 1865) Winogradsky 1888 * '' Thiothrix fructosivorans'' Howarth et al 1999 * ''Thiothrix unzii'' Howarth et al 1999 * '' Thiothrix caldifontis'' Chernousova 2009 * ''Thiothrix lacustris'' * ''Thiothrix litoralis'' * '' Thiothrix subterranea'' * "''Candidatus'' Thiothrix anitrata" * "''Candidatus'' Thiothrix singaporensis" * "''Candidatus'' Thiothrix moscowensis" Habitat ''Thiothrix'' live primarily in flo ...
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Mixotroph
A mixotroph is an organism that can use a mix of different sources of energy and carbon, instead of having a single trophic mode on the continuum from complete autotrophy at one end to heterotrophy at the other. It is estimated that mixotrophs comprise more than half of all microscopic plankton. There are two types of eukaryotic mixotrophs: those with their own chloroplasts, and those with endosymbionts—and those that acquire them through kleptoplasty or by enslaving the entire phototrophic cell. Possible combinations are photo- and chemotrophy, litho- and organotrophy (osmotrophy, phagotrophy and myzocytosis), auto- and heterotrophy or other combinations of these. Mixotrophs can be either eukaryotic or prokaryotic. They can take advantage of different environmental conditions. If a trophic mode is obligate, then it is always necessary for sustaining growth and maintenance; if facultative, it can be used as a supplemental source. Some organisms have incomplete Calvin cycles, s ...
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Chemoorganotroph
Primary nutritional groups are groups of organisms, divided in relation to the nutrition mode according to the sources of energy and carbon, needed for living, growth and reproduction. The sources of energy can be light or chemical compounds; the sources of carbon can be of organic or inorganic origin. The terms ''aerobic respiration'', ''anaerobic respiration'' and ''fermentation'' (''substrate-level phosphorylation'') do not refer to primary nutritional groups, but simply reflect the different use of possible electron acceptors in particular organisms, such as O2 in aerobic respiration, or nitrate (), sulfate () or fumarate in anaerobic respiration, or various metabolic intermediates in fermentation. Primary sources of energy ''Phototrophs'' absorb light in photoreceptors and transform it into chemical energy. ''Chemotrophs'' release chemical energy. The freed energy is stored as potential energy in ATP, carbohydrates, or proteins. Eventually, the energy is used for life ...
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Autotroph
An autotroph or primary producer is an organism that produces complex organic compounds (such as carbohydrates, fats, and proteins) using carbon from simple substances such as carbon dioxide,Morris, J. et al. (2019). "Biology: How Life Works", 3rd edition, W. H. Freeman. generally using energy from light (photosynthesis) or inorganic chemical reactions (chemosynthesis). They convert an abiotic source of energy (e.g. light) into energy stored in organic compounds, which can be used by other organisms (e.g. heterotrophs). Autotrophs do not need a living source of carbon or energy and are the producers in a food chain, such as plants on land or algae in water (in contrast to heterotrophs as consumers of autotrophs or other heterotrophs). Autotrophs can reduce carbon dioxide to make organic compounds for biosynthesis and as stored chemical fuel. Most autotrophs use water as the reducing agent, but some can use other hydrogen compounds such as hydrogen sulfide. The primary produ ...
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Microaerophilic
A microaerophile is a microorganism that requires environments containing lower levels of dioxygen than that are present in the atmosphere (i.e. < 21% O₂; typically 2–10% O₂) for optimal growth. A more restrictive interpretation requires the microorganism to be obligate in this requirement. Many microaerophiles are also capnophiles, requiring an elevated concentration of

carbon dioxide

(e.g. 10% CO₂ in the case of '' Campylobacter''

species

). The original definitio ...
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Aerobic Organism
Aerobic means "requiring air," in which "air" usually means oxygen. Aerobic may also refer to * Aerobic exercise, prolonged exercise of moderate intensity * Aerobics, a form of aerobic exercise * Aerobic respiration, the aerobic process of cellular respiration * Aerobic organism Aerobic means "requiring air," in which "air" usually means oxygen. Aerobic may also refer to * Aerobic exercise, prolonged exercise of moderate intensity * Aerobics Aerobics is a form of physical exercise that combines rhythmic aerobic exe ..., a living thing with an oxygen-based metabolism See also * Anaerobic (other) {{disambiguation ...
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Activated Sludge
The activated sludge process is a type of biological wastewater treatment process for treating sewage or industrial wastewaters using aeration and a biological floc composed of bacteria and protozoa. It uses air (or oxygen) and microorganisms to biologically oxidize organic pollutants, producing a waste sludge (or floc) containing the oxidized material. The activated sludge process for removing carbonaceous pollution begins with an aeration tank where air (or oxygen) is injected into the waste water. This is followed by a settling tank to allow the biological flocs (the sludge blanket) to settle, thus separating the biological sludge from the clear treated water. Part of the waste sludge is recycled to the aeration tank and the remaining waste sludge is removed for further treatment and ultimate disposal. Plant types include package plants, oxidation ditch, deep shaft/vertical treatment, surface-aerated basins, sequencing batch reactors (SBRs). Aeration methods include diff ...
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Thiothrix Moscowensis
''Thiothrix'' is a genus of filamentous sulfur-oxidizing bacteria, related to the genera ''Beggiatoa'' and ''Thioploca''. They are usually Gram-negative (but can be Gram-variable) and rod-shaped (0.7–1.5 µm in width by 1.2–2.5 µm in length). They form ensheathed multicellular filaments that are attached at the base, and form gonidia at their free end. The apical gonidia have gliding motility. Rosettes of the filaments are not always formed but are typical. Sulfur is deposited in invaginations within the cell membrane. Species * '' Thiothrix nivea'' Rabenhorst 1865) Winogradsky 1888 * '' Thiothrix fructosivorans'' Howarth et al 1999 * ''Thiothrix unzii'' Howarth et al 1999 * '' Thiothrix caldifontis'' Chernousova 2009 * '' Thiothrix lacustris'' * '' Thiothrix litoralis'' * '' Thiothrix subterranea'' * "''Candidatus'' Thiothrix anitrata" * "''Candidatus'' Thiothrix singaporensis" * "''Candidatus'' Thiothrix moscowensis" Habitat ''Thiothrix'' live primarily in ...
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Thiothrix Singaporensis
''Thiothrix'' is a genus of filamentous sulfur-oxidizing bacteria, related to the genera ''Beggiatoa'' and ''Thioploca''. They are usually Gram-negative (but can be Gram-variable) and rod-shaped (0.7–1.5 µm in width by 1.2–2.5 µm in length). They form ensheathed multicellular filaments that are attached at the base, and form gonidia at their free end. The apical gonidia have gliding motility. Rosettes of the filaments are not always formed but are typical. Sulfur is deposited in invaginations within the cell membrane. Species * '' Thiothrix nivea'' Rabenhorst 1865) Winogradsky 1888 * '' Thiothrix fructosivorans'' Howarth et al 1999 * ''Thiothrix unzii'' Howarth et al 1999 * ''Thiothrix caldifontis'' Chernousova 2009 * ''Thiothrix lacustris'' * ''Thiothrix litoralis'' * '' Thiothrix subterranea'' * "''Candidatus'' Thiothrix anitrata" * "''Candidatus'' Thiothrix singaporensis" * "''Candidatus'' Thiothrix moscowensis" Habitat ''Thiothrix'' live primarily in flow ...
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Thiothrix Anitrata
''Thiothrix'' is a genus of filamentous sulfur-oxidizing bacteria, related to the genera ''Beggiatoa'' and ''Thioploca''. They are usually Gram-negative (but can be Gram-variable) and rod-shaped (0.7–1.5 µm in width by 1.2–2.5 µm in length). They form ensheathed multicellular filaments that are attached at the base, and form gonidia at their free end. The apical gonidia have gliding motility. Rosettes of the filaments are not always formed but are typical. Sulfur is deposited in invaginations within the cell membrane. Species * ''Thiothrix nivea'' Rabenhorst 1865) Winogradsky 1888 * ''Thiothrix fructosivorans'' Howarth et al 1999 * ''Thiothrix unzii'' Howarth et al 1999 * ''Thiothrix caldifontis'' Chernousova 2009 * ''Thiothrix lacustris'' * ''Thiothrix litoralis'' * ''Thiothrix subterranea'' * "''Candidatus'' Thiothrix anitrata" * "''Candidatus'' Thiothrix singaporensis" * "''Candidatus'' Thiothrix moscowensis" Habitat ''Thiothrix'' live primarily in flowing ...
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Thiothrix Subterranea
''Thiothrix'' is a genus of filamentous sulfur-oxidizing bacteria, related to the genera ''Beggiatoa'' and ''Thioploca''. They are usually Gram-negative (but can be Gram-variable) and rod-shaped (0.7–1.5 µm in width by 1.2–2.5 µm in length). They form ensheathed multicellular filaments that are attached at the base, and form gonidia at their free end. The apical gonidia have gliding motility. Rosettes of the filaments are not always formed but are typical. Sulfur is deposited in invaginations within the cell membrane. Species * ''Thiothrix nivea'' Rabenhorst 1865) Winogradsky 1888 * ''Thiothrix fructosivorans'' Howarth et al 1999 * ''Thiothrix unzii'' Howarth et al 1999 * ''Thiothrix caldifontis'' Chernousova 2009 * ''Thiothrix lacustris'' * ''Thiothrix litoralis'' * '' Thiothrix subterranea'' * "''Candidatus'' Thiothrix anitrata" * "''Candidatus'' Thiothrix singaporensis" * "''Candidatus'' Thiothrix moscowensis" Habitat ''Thiothrix'' live primarily in flowing ...
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