|
Pond Filtration
Ponds Introduction
Pond Design
New Pond Setup
Filtration
Algae Control
Lighting Your Pond
Water Plants
Pond Fish
Return to Landscape 101
Clean, well oxygenated quality water is the key to a
successful Koi or goldfish pond. A good filtration system
is an integral part of any pond, but is sometimes overlooked
by the inexperienced homeowner or landscaper. You want
something that is pretty to look at and enjoy. Koi
ponds are closed recirculating water systems. Fish
waste and other debris can build up and turn the water toxic
unless your water is properly filtered, oxygenated
(waterfalls are great for this), and flowing (stagnant water
results in carbon dioxide build up). Plants are a great
natural filtration system and algae inhibitor. Netting
placed over the pond in the fall keeps the leaves out.
Experience has taught us the following elements keep a pond
clean:
A pond skimmer is a box with an opening at the pond’s
surface. The box houses the pumps which feed the
waterfall. Water is pumped out of the skimmer box to
the biofalls filter. The skimmer continuously removes
and collects debris such as leaves floating on the pond’s
surface. A net or basket in the skimmer box collects the
debris before the debris can clog your pump. A foam
pad may be placed in the skimmer to collect finer particles.
The pad and basket need to be periodically cleaned to
prevent solid matter buildup which will block the water flow
to the pump. A pump inside the pond is unsightly and
will become clogged with debris, reducing water flow and
eventually causing the pump to fail prematurely. The
skimmer collects water at the surface only. If a leak
occurs in your pond, the pump cannot pump your pond dry,
leaving your fish without water. The skimmer uses the
highest oxygen surface pond water, which is essential for
maximum productivity of your bio-filter. In winter,
the skimmer only recirculates the top water, reducing heat
loss. A good skimmer for ponds with
pumps under 7500 gph is manufactured by Savio
http://www.savio.cc/pond-products/C10/
The biofalls filter uses foam pads for mechanical filtration
and a less dense medium for bacteria colonization or bio
filtration. The foam pads screen debris particles in
the water. Varying mesh sizes may be used. Foam
pads need to be cleaned periodically by removing them and
hosing them down. Bouncing the pads against a fence or
wall will remove much of the debris. A pressure washer
simplifies this process. If the water used to clean the pads
contains chlorine you may want to soak the pads in pond
water before reinserting the pads into the filter. The
chlorine may kill the bacteria in your Biofilter.
The Biofilter medium (plastic mats, leather strips in a
netted bag, or other products available at your local pond
store) is used to support large colonies of bacteria and
enzymes to filter the water of fish waste and organic
debris. The biofalls also aerates the water.
Oxygenated water supports more fish and plants, helping to
create a balanced ecosystem. The more fish you wish to
have, the larger the bio-filtration area needs to be to
eliminate ammonia build-up. Plants can be added to the
top of the biofalls to increase its filtration capabilities.
Biofalls plants include Water Hyacinth and Water Lettuce.
Anacharis, an underwater plant, is a great oxygenator.
Aquascape is a maker of the
Biofalls filter.
A bog pond separate from the main pond, often contained in
the waterfalls flow area, and also called a veggie filter,
can help purify the water. Gravel in the bog pond
gives the plants a place to root and bacteria a place to
colonize. Water must constantly flow through the bog
pond. Some bog ponds place the water flow in a
perforated pipe beneath the gravel. The filtered water
from the biofalls will be rich in nitrates. A bed of
greedy aquatic plants will consume a great deal of these
nitrates before the water flows back into the pond.
This Veggie Filter is
an intermediate pond located between the biofalls filter
above and a well stocked Koi pond below the waterfalls.
Anachraris and water lillies are used as the main filtering
plants.
The anachrais in the
above veggie filter is shown here with colonized bacteria.
The anachraris helps consume the nitrates from the above
biofalls filter.
A bottom drain may be placed at the bottom of the pond with
the plumbing running underneath the pond to an external
pump. You may consider setting the bottom drain in a
concrete base with the bottom drain encased in it. Any
mistake in installing the bottom drain will be very
hazardous and possibly uncorrectable. You may have to
totally disassemble the pond to fix the problem.
The amount of oxygen dissolving in water is temperature
dependent. Warmer water contains less oxygen than
colder water. Constant water flow is imperative in a
Koi pond. The more fish a pond has, the more important
this is.
Since warm water can hold less oxygen than cold water, the
summer months are the most vulnerable period for low oxygen
levels, and the level at night is the most critical of all.
During the day, water plants and algae release oxygen into
the water during the process of photosynthesis. At
night, this cycle is reversed, with plant and animal
respiration using up oxygen and producing carbon dioxide.
It is not surprising, therefore, that warm summer nights can
result in dangerously levels of low oxygen. Warm
summer nights and low atmospheric pressure on stormy nights
can result in dangerously low levels of dissolved oxygen.
This is why it is important to run your pumps 24 hours per
day, 365 days per year. The oxygen they provide to
your fish is their lifeblood. Don’t turn your pumps
off at night! The healthy bacteria in your filtration
system also require constant flow. Turn off the pumps,
and these bacteria which stabilize the water quality will
soon die, and create a very foul odor when the pumps are
turned back on.
A venturi is sometimes used to increase oxygen levels in the
water. A venturi tube allows air bubbles to be
inserted into flowing water and released in a tube near the
bottom of the pond.
UV sterilization is a proven method for controlling
waterborne algae. The wattage of the U.V. light and the flow
rate of the water through the light must be properly matched
to your pond for maximum performance. If the water
flows too fast, the ultraviolet light will not have time to
kill the algae. Using a U.V. light to kill
microorganisms and pathogens requires even slower flow
rates. Combining sterilization with adequate
mechanical filtration, and operating the two properly is
most effective in eliminating algae blooms and maintaining
clear water. This combination will not, however, control
nitrogen or carbon dioxide levels. Practical fish stocking
densities and responsible feeding, along with routine filter
and UV sterilizer maintenance play a big part in achieving a
balanced system. Partial water changes (approximately ten
percent of the pond volume weekly with non-chlorinated
water) will aid in diluting nutrients.
Artistic Landscapes recommends ultra violet lights by
www.emperoraquatics.com
Ammonia and nitrogen build-up is the biggest threat to your
fish health and water quality. Nitrogen in the system,
commonly referred to as Total Ammonia-Nitrogen (TAN), is a
by-product of protein metabolism. The gills of the fish
produce toxic ammonia as they digest food. Fish waste
products, uneaten fish food, plant fragments and dead
animals also produce ammonia when they are consumed by
bacteria. When the water in a system has a pH of about 7.0,
the system is stable and the majority of TAN is ionized and
does not adversely affect the system. But when a system has
a pH of about 9.0, up to 30 percent of TAN may not be
ionized and levels of ammonia-nitrogen can become extremely
toxic to fish. Neutralizing these harmful toxins
requires the build-up of beneficial bacteria in the pond and
most importantly your filtration system.
There are two stages in the breakdown of ammonia in a
biological filter system, each stage involving different
types of bacteria to turn the harmful ammonia into nitrites
and nitrates. In the first stage, ammonia is broken
down to nitrite by a number of different nitrifying
bacteria. A second group of nitrifying bacteria,
principally Nitrobacter, converts the nitrite to nitrate.
Both groups of these bacteria require oxygen to thrive and
purify the water. The nitrifying bacteria require an
oxygen level of at least 1mg/litre in the water continuously
flowing through the filtering medium, Sediment in the
bottom of the filter can deplete oxygen levels and encourage
the growth of anaerobic bacteria, rendering the filter
ineffective. It is important to keep sediment to a
minimum in the filter.
The biological filter chamber in the bio-falls filter
contains a filter medium with large areas for the nitrifying
bacteria to grow.
Installing a biological filter system to a pond does not
guarantee an immediate improvement to the water quality.
A new filter must develop beneficial bacteria to filter the
water. This takes time.
Ammonia and nitrite levels are likely to fluctuate in a new
filter and it may take from six months to a year before the
filter has finally matured. The concentration of
ammonia may increase dramatically, sometimes to dangerous
levels, once you introduce Koi into a new pond. We
call this the new pond syndrome.
The nitrification process develops much faster in warmer
water, much slower if at all in the winter (below 41
degrees). The nitrification process can be sped up by
adding live cultures of nitrifying bacteria such as
Microbelift. See
www.microbelift.com for more information.
Nitrifying bacteria are the foundation of biological
filtration and safely grow on all surfaces of the aquatic
environment, including substrate, plumbing and the walls of
the tank.
Carbon dioxide can also accumulate in re-circulating systems
as a by-product of fish and bacteria respiration. A
well-designed re-circulating system should maintain adequate
dissolved oxygen levels while minimizing carbon dioxide
concentrations. Carbon dioxide, harmful to fish, can
build up in the water, especially at night. "De-gassing" is
a term, most commonly used within the aquaculture industry,
to best describe stripping carbon dioxide from water.
De-gassing is a simple procedure that involves aerating
water that is low in oxygen, removing carbon dioxide, and at
the same time, increasing dissolved oxygen levels. Packed
media columns, venturi air injectors or moving-bed bio
filters can accomplish the same results. Flowing
waterfalls are the best oxygenator.
The better your filtration and water flow system, the better
the water quality will be. The fish stocking density
can increase, and providing great water quality will provide
your Koi a happy home!
Ponds Introduction
Pond Design
New Pond Setup
Filtration
Algae Control
Lighting Your Pond
Water Plants
Pond Fish
Return to Landscape 101
|
