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Ponds are living entities,
which evolve and age. If left alone lakes gradually fill in and become swamps
and then meadows. This is natural. This process can take thousands of years or
just a few depending largely on the geomorphology of the lake and activities around
the lake. People may think that they want a "natural" pond, but what they really
want is to maintain the pond in a relatively young condition rather than letting
it age and transform into a swamp. This is not different than what people try
to achieve around their homes. Considerable time and money are spent maintaining
gardens in a particular age or state rather than letting them evolve naturally
to weeds and shrubs. Lakes also require knowledge and maintenance to assure their
health and continued beauty. Healthy
ponds contain balanced communities of microorganisms, invertebrates, fishes
and plants. If the populations of the communities become unbalanced the health
and longevity of the lake can be detrimentally affected. For instance, algae and
other aquatic plants produce cell mass from carbon dioxide by the process of photosynthesis.
The death of these plants results in increasing deposits of carbon or sludge within
the lake. Excessive plant growth usually results in rapid accumulation of sludge,
filling in and aging of the lake and even in production of noxious odours and
bad flavour in the fishes. The
well being of the biological communities are directly affected by the physico-chemical
conditions within the lake. The oxygen and phosphorous levels, the depth and shape
of the lake and the bottom substrate among other factors, which interact with
the biological communities to influence overall lake health. This is what aquatic
ecology is all about. There
are no miracle solutions, but there are many tools, which can be used by ecological
engineers to restore and maintain lakes. Among these are aeration*,
bioaugmentation (the seeding of water purifying organisms
from bacteria to fishes, and invertebrates to plants), biofilters, chemicals which
bind phosphorous or reduce algae or oxidize sludge or colour water, plant harvesting
and dredging etc. Pond management requires monitoring of the physico-chemical
and biological processes to decide which tools are appropriate and when they should
be used.
*Aeration
Pond aeration is the best method to control
water quality and algae. It is very important not to overlook aeration in small
basins and in ponds which have a large organic load and that are typically mucky
at the bottom. We strongly promote air diffusion at the bottom of the pond as
the best form of aeration. Fountains and cascades are aesthetically pleasing and
offer some surface aeration but we recommend bottom air diffusion as the most
efficient way to improve and maintain good water quality. We suggest you fill
in our on-line consultation
form to get a proposal.
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There are five principal steps to a successful pond health care maintenance or
restoration program:
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Definition of the treatment goals, what exactly is desired and what is possible
— e.g., clearer water, control of algae and/or rooted aquatic plants, a sport
fishery, odour control, a refuge for water fowl, boating, water skiing, swimming,
supply of irrigation water. Some of these goals may conflict with others. It is
important for users of the pond to understand clearly what is possible and realistic
and what is not. 2.
Definition of physico-chemical and biological realities — Parameters such
as shape and depth of the pond, water and chemical inputs and losses, physico-chemical
composition of the water and biological populations, within the pond , are critical
factors to be integrated in a management plan. The health of the pond cannot be
assured without considering the surrounding drainage basin with respect to run
off, choice of fertilizers and fertilizing practices etc. Considerable data may
already exist. If not, this data will have to be collected so that an intelligent
management program can be planned to achieve the targeted goals. 3.
Development of the management program for the lake — This is based upon integration
of the treatment goals (Step 1), knowledge of the lake (Step 2) and legal realities.
4. Implementation
of the management program — This includes a treatment plan as well as regular
health monitoring. It is not possible to prescribe a single treatment protocol
for all eventualities for a living community for all time. A sound pond health
care maintenance program must be able to be adjusted with seasons, age or accidents.
This approach is no different than what we do when we go to a doctor or a dentist.
Examinations are obviously required to optimize treatments. 5.
Feedback and interaction between the lake health care team and users association
— In the case of management of lakes it is essential to maintain regular communication
with the users associations for feed back on the program as well as possible changes
in the treatment goals (Step 1). ©1999
Karl F. Ehrlich, Ph.D & Marie-Claude Cantin Ph.D
Bacteria
and Pond Health
Sludge Reduction in Trout Pond
Reduction
of Airborne Ammonia in Chicken Barn
Reductions of Solids in Cow
Manure
Reduction of BOD and Ammonia in Pig Manure
Read
about Bacta-Pur Products Quality Control / Quality Assurance
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