4.1 Taxonomy of Microorganisms in Aquatic Environments 77
survive without cellwalls but they also survive
high temperatures and low acid conditions. For
these conditions, these organisms have special
polysaccaride structures in their cell membranes, a
lipopolyssacharide.- Hyperthermophilic Archae: Well-known members of
this group are Thermococcus, Pyrococcus, and
Methanopyrus. Members of this group have optimal
temperatures of 80°C and many grow at tempera
tures higher than that of boiling water. Thus
Thermococcus and Pyrococcus (cocci with a tuft of
flagella on one side) grow at between 70°c and 106°C
with an optimum at 100°C (Pyrococcus). Proteins,
starch or maltose are oxidized as electron donors and
S^0 is the terminal acceptor and is reduced to H 2 S.
Crenarchaeota
Crenarchaeota has the distinction of including microbial
species with the highest known growth temperatures of
any organisms. As a rule, they grow best between 80°C
and 100°C and several species will not grow below
80°C. Several species also prefer to live under very
acidic conditions in dilute solutions of hot sulfuric
acid. Approximately 15 genera are known, and most of
the hyperthermophilic species have been isolated from
marine or terrestrial volcanic environments, such as
hot springs and shallow or deepsea hydrothermal
vents. Recent analyses of genetic sequences obtained
directly from environmental samples, however, indicate
the existence of low temperature Crenarchaeota, which
have not yet been cultivated. The most spectacular fea
ture of the Crenarchaeota, however, is their toleranceSolid Organic
MatterComplex
dissolved
organic matteHydrolysisDissolved Organic
MatterFermentative
bacteriaAcetogenic
bacteriaFattyacids & Acetate
alcoholsHydrogen
H 2Carbon
dioxide
(CO 2 )Methane
CH 4Methanogenic
bacteria
(acetophilic)Methanogenic
bacteria
(hydrogenophilic)Methanogenic
bacteria
(methylophilic)Methylated compoundsFig. 4.18 Substrates and bacterial groups involved in methane production (After Christen and Kjelsen 1989)