- light,
while chemolithoautotrophs (chemolithotrophs or chemoautotrophs)
derive their energy from
chemical reactions.
Chemolithoautotrophs are exclusively...
-
decomposition and
rhizosphere interactions. Chemoautotrophs, also
known as
chemolithoautotrophs, are
organisms capable of
creating their own energy, from the use...
- autotrophs.
These autotrophs might have been
thermophilic and
anaerobic chemolithoautotrophs that
lived at deep sea
alkaline hydrothermal vents. This view is...
- of
metabolism types. Most are
facultative or
obligate anaerobes,
chemolithoautotrophs, and heterotrophs,
though numerous exceptions exist. A
variety of...
-
Their morphologies include rods,
spirillae and
curved rods. Most are
chemolithoautotrophs with some
methylotrophs and
heterotrophs Rhodocyclales comprises...
- Sulfur-oxidizing, iron, and
anammox bacteria as well as
methanogens are
chemolithoautotrophs,
using inorganic energy, electron, and
carbon sources. Chemolithoheterotrophs...
- methanogens,
which are
mainly Euryarchaeota, and
several anaerobic chemolithoautotrophs, such as sulfate-reducing
bacteria and archaea. It is
probably performed...
-
mainly carried out by
chemolithoautotrophic microbes. Like plants,
chemolithoautotrophs fix
carbon dioxide (CO2) into new
organic carbon,
making them the...
- viennensis, Ca. N. gargensis, and Ca N. evergladensis.
Nitrososphaera are
chemolithoautotrophs and have
important biogeochemical roles as
nitrifying organisms....
-
Thiobacillus denitrificans is a Gram-negative,
obligate chemolithoautotroph. It was
originally discovered by
Martinus Beijerinck in 1904. T. denitrificans...
