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Koi Pond Stocking Densities

In our wonderful hobby – koi keeping – we all tend to fall into a deadly trap, the trap of over stocking our ponds. Koi keepers often keep every koi they buy for as long as possible. Often the quality deteriorates but we still keep them and they keep on growing.

One of the fundamental principles of good koi keeping is good water quality. Look after the water and the water will look after your koi. As we add koi so the pond environment deteriorates as koi are continually feeding and growing. This in turn means that the oxygen is continually extracted from the water and toxic ammonia is added. Consequently the number of koi that can be safely kept in a koi pond (given volume of water) is limited.

It is very important to keep this in mind - each koi needs a minimum amount of water to live a healthy life and grow to its full potential.

Water has a limited koi carrying capacity. The oxygen that is dissolved into pond water being one of the main considerations for life is limited. Further as koi excrete toxic ammonia directly into the water there are limits as to the amount of ammonia koi can tolerate in a given volume of water – even with filtration.

Then from an aesthetic point of view it is far better to have fewer high quality koi than many poor quality koi. Try it one day – if you are over stocked remove the poor quality koi or the koi which are the poorest quality in your pond and then have a good look at your collection again. Suddenly the better quality koi will look better!

Lets us look in detail as to why are stocking densities are so important in koi keeping?

Quick Info

·         Stocking densities have a direct influence on the overall health of your Koi and the quality of the pond environment.

·         Heavily stocked ponds have a higher chance of disease out breaks.

·         Heavily stocked ponds are stressful to Koi.

·         The higher the stocking densities the faster you have to remove the impurities and the faster the clean water should be returned to the pond.

·         As Koi grow they take up much more space, consume much more oxygen and add much more ammonia into the system.


Facts You Must Know

Every time a Koi doubles in length it has about 8 times more body mass. Than when the fish was half the size

This has severe implications on your pond and filter system.

8 times the body mass = 8 times more oxygen consumed + 8 times more ammonia added to the pond.

Higher stocking densities run a greater risk of the collection suffocating in the event of the pump being of for some time.

                                                     Stocking densities kohaku                            Stocking densities kohaku

Every time a koi Doubles in length

                                                    Stocking densities Graph Ammonia

The graph of the estimated mass of koi as they grow illustrates the influence grow and stocking densities have on a koi pond. We have the same pump and the same filtration system but the koi are increasing in numbers as we add more koi AND they are influencing the pond water quality because of their increasing size.

 
                                                        Estimated mass in Grams
                                                   Stocking densities length mass ratio

                                                        Length of koi in cm

 
                               ·         the larger the mass of a Koi the greater the oxygen consumption, the greater the amount of ammonia
                                          excreted into the water.
·         weight increases disproportionably with body length.
·         a doubling in body length does not produce a doubling in mass -
·         note the 7 - 8 fold mass increase as the length doubles from 20cm to 40cm
·         each Koi can double in length in about two years, this would mean a 7 - 8 fold increase in the load on the biofilter and the oxygen demand - plan ahead

Decision Time

After a year or two, if your Koi have doubled, in length it may be decision time –


                                                                                                            

                                                                                      Fewer Koi                                                More filtration, faster turnover rate
                                                                                                              Stocking densities decision time

    The effects of growth and body mass are illustrated below.



                                                                                              The Effects of Koi Growth on the Pond System.

                                                                 Stocking densities graph

 

 

Would you have originally stocked your pond with 640 x 10 cm Koi?

So the pond has suddenly become over stocked when the koi have grown and this is without any new additions.

There are other implications with stocking densities. Have you ever wondered why growing on dams and some ponds get very good growth? It’s to do with low stocking densities and water quality.

A study by Perlmutter, Alfred, Daniel Sarot, Man-Lin Yu, Rocco Filazzoia and Seely on the Effects of Crowding on the Immune Response of Fish indicates that there are "other" hidden factors at work than first meet the eye.

These are not readily visible or apparent to most koi keepers. Sometimes we simply notice that our koi die without explanation. Perhaps the study by Perlmutter et al can throw some light on this phenomena.

Their study may indicate that fish kept in overcrowded conditions suffer impaired immune systems as a result of biochemical agents released into the water by the other fish living in the pond.

This may be nature’s way of reducing a large population to more acceptable levels. The studies suggest that fish can release immune suppressing pheromones (hormones) in overcrowded conditions. This makes the other fish in the system less able to fight disease.

To investigate their suspicions three separate experiments were set up. These involved different treatment and control groups. The first two experiments had 30, 15, 5 and 5 fish respectively. Four similar control groups were set up. Fish were assigned randomly among the groups. All ponds were the same size.

The water in the treatment groups had methylchloroform added to remove organic substances. The control groups were not treated but simply monitored. Ammonia, nitrate, dissolved oxygen, carbon dioxide and pH were monitored regularly.

The immune systems were challenged with infectious Pancreatic necrosis virus. All fish in the treatment and control groups were injected with the virus two weeks after the experiment began. Two week later they were injected again.

The researchers made antibody tests. These antibody measurements showed that maximum antibody reaction occurred three weeks after the second injection of the virus.

Looking through the results shows that the fish from the experimental groups had two to four times the antibody levels than the fish from the control groups.

As the level of crowding increased so the difference between the groups increased. The implication was that the methylchloroform was removing something from the water that affected the fish immune response.

This unknown factor was directly proportional to the crowding level.

The greater the crowding level the greater the immune suppressing effect. The evidence suggested an immune suppressing pheromone was present.

To check their findings the authors then decided to refine a third experiment. This third experiment was run twice with each of the four treatment and control groups. These being 30, 15, 5 and 5 fish again.

The results were as follows.

1. The groups of fish at low stocking densities had twice the antibody level of the control groups.

2. The groups with slightly higher stocking densities had four times the antibodies present.

3. However, as the stocking densities increased the effect of the immune suppressing agent became more pronounced. There were less and less antibodies recorded in the test groups.

4. It is worth noting that even at low stocking densities there was a lower antibody count. This indicates that even at low stocking densities there is immune response suppression.


Conclusions: Low stocking densities can help minimise bacterial and viral disease problems. It is presumed that the fewer the fish in the water the less the concentration of pheromone present that suppress the immune system.

The lower the stocking density the lower the bacterial load on the pond.

The offending pheromone can be removed with proper chemical and physical techniques.

The importance of water changes should never be under estimated. Regular water changes will dilute the biological 'soup' the fish swim in. To save water utilise the pond water for watering the garden and supply the fish and pond with fresh water. Both will benefit, as will your pocket. The question arises as to how much water should be changed regularly. A minimum of 10% per week is advocated. However, there is strong evidence that larger water changes are extremely beneficial.

The use of activated carbon has been shown to remove organic agents such as pheromones.

Skimming the frothy bubbles or scum that forms on the surface of the pond (Dissolved Organic Compounds or DOC) from time to time will also lower the level of pheromones. The DOC should be removed from the system and not simply skimmed back into the filter.

A last consideration. Perhaps we should select and remove koi from our collections regularly. As they grow and as we add new ones to the system voluntary removing the old ones which are not of good quality will have positive results.

1. The collection will be continually up-graded and improved. 2. The collection will be selectively 'culled' by the owner and not by mother nature taking things into her own hands when disease breaks out in overcrowded pond.

An experiment by Andy Moo

A number of years ago Andy Moo wrote in Koi USA that he achieved 23cm of growth in his koi in 6 months. What was fascinating in his article is that he stumbled upon the growth by accident. Initially, Andy kept seventeen 10 - 13cm koi in a 1500 litre show tank. He noticed that the fish always appeared hungry so he gave them a light feed every time he walked past. Much to his surprise these fish grew from their original size to 25 - 33cm in less than five months.

Excited about his "discovery" he followed the initial results with several other tests. He chose 45 x 10 - 13cm "leftover" koi from his opening sale. These koi were placed in to his lily pond that is only 30cm - 60cm deep and has 5000 litres of water. Central to his experiments was the fact that he fed a good quality food and at estimated 2% body weight per day. This was increased up to 4% body weight per day as the temperature increased in summer. He increased the frequency of the feedings from four times a day up to twelve feeds per day.

Also central to the experiment was a high water turnover rate plus a large and efficient filter. At the end of just 166 days the average length of the 45 koi was 36cm. These tests were done in what we would consider a limited pond size and shallow depth. Andy observed that overall body conformation was excellent with none having potbellies, and with a few exceptions their colours did not fade but had actually improved.

If Andy can achieve growth like this in a relatively small pond, so can the rest of us.

Chris Neaves

Last Updated on Tuesday, 24 November 2015 13:12