Circuited ECOdynamic Microbiological
Environmental Systems (C E M E S)
Renewing Bioevents
Microbiological life is profuse.
Microbes provide renewing bioevents,
which recycle and nourish life forms, downstream, downwind,
below or within range of their limited motility and mobility.
CEMES
(Circuited ECOdynamic Microbial Environmental Systems)
Idealized
CEMES explore the best of these environments.
CEMES seek the idealization of habitation for microbial life
and the ideal sequencing and linking of such ideal environments.
Breakdown
It is well known that some fungi, some molds, etc., are well suited
to the breakdown of large particles of organic material.
There are aerobic and microaerophylic bacteria that will break down the fungi,
the molds or their metabolic residue, to small organic molecules.
Such as methanobacter are able to reduce these molecules to methane
and whole cell bodies which nourish plant roots, crustaceans, etc.
Anchorage and Culturing
Each microbial form benefits from anchorage, from moisture or humidity,
from flow, from certain gases.
The common use of gel nutrient medium for culturing,
combines solidous, liquidous and gaseous phases, with ideal temperatures and pH.
Any slight variations in the composition of the nutrient,
the moisture or humidity levels, the flow or circulation, the temperature,
the atmospheric composition or pressure, the pH, etc.,
can diminish or eliminate reproduction, growth or responsiveness.
New U.V. Live Microscopy
The breakthrough of high resolution optical microscopy,
using polarized ultraviolet light has made it possible
to see the eventfulness of cytoplasmic fluids
and some of the very small scale physiological correlations never before seen.
New Scale of Live Biology
Antoine Bechamp, a contemporary of Louis Pasteur,
saw what he called microzymas, with the microscopy available to him.
Wilhelm Reich was able to see what he called bions,
with the much improved microscopy of the era from the 1930’s through the 1950’s.
Enderlin, in Germany, was able to extend this scale of exploration further,
with what he called protids.
Now, Gaston Naessens has been able to offer the resolution
of ultraviolet wavelength microscopy and what he calls somatids.
CEMES extends this new scale of physiology
of microbiology and physiology of plants.
copyright 2011, 2013, ECOhealth / Eve Revere
