Biomedical Engineering Reference
In-Depth Information
2
Microbes and Metabolism
So fundamental are the concepts of cell growth and metabolic capability to the
whole of environmental biotechnology and especially to remediation, that this
chapter is dedicated to their exploration. Metabolic pathways (Michal, 1992) are
interlinked to produce what can develop into an extraordinarily complicated net-
work, involving several levels of control. However, they are fundamentally about
the interaction of natural cycles and represent the biological element of the natu-
ral geo-biological cycles. These impinge on all aspects of the environment, both
living and non-living. Using the carbon cycle as an example, carbon dioxide in
the atmosphere is returned by dissolution in rainwater, and also by the process of
photosynthesis to produce sugars, which are eventually metabolised to liberate the
carbon once more. In addition to constant recycling through metabolic pathways,
carbon is also sequestered in living and non-living components such as in trees
in the relatively short term, and deep ocean systems or ancient deposits, such as
carbonaceous rocks, in the long term. Cycles which involve similar principles of
incorporation into biological molecules and subsequent re-release into the envi-
ronment operate for nitrogen, phosphorus and sulphur. All of these overlap in
some way, to produce the metabolic pathways responsible for the synthesis and
degradation of bio-molecules. Superimposed, is an energy cycle, ultimately driven
by the sun, and involving constant consumption and release of metabolic energy.
To appreciate the biochemical basis and underlying genetics of environmental
biotechnology, at least an elementary grasp of molecular biology is required. For
the benefit of readers unfamiliar with these disciplines, background information
is incorporated in appropriate figures.
The Immobilisation, Degradation or Monitoring of Pollutants
from a Biological Origin
Removal of a material from an environment takes one of two routes: it is either
degraded or immobilised by a process which renders it biologically unavailable
for degradation and so is effectively removed.
Immobilisation can be achieved by chemicals excreted by an organism or by
chemicals in the neighbouring environment which trap or chelate a molecule thus
making it insoluble. Since virtually all biological processes require the substrate
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