Vitamin Levels in Breeder Diets
Diets for adult breeder hens probably contain the highest level of supplemental vitamins of any feed manufactured at a commercial feed mill. These vitamins are required for the normal function of most physiological processes in the body, and for the breeder hen we have the added need for adequate carry-over into the eggs. Unfortunately a deficiency of any one vitamin can cause a dramatic decline in egg production and hatchability, and yet the levels recommended by Hubbard and other breeders are often questioned as being too high, and therefore too costly. We usually meet the breeders' requirements for vitamins by adding all as synthetic sources. The regular feed ingredients, such as corn, soybean meal and meat meal, all contain "natural" sources of vitamins and in some situations could theoretically contain enough to meet the breeders' needs.
However the concentration of vitamins contained in corn will, for example, be affected by seed variety, growing conditions, harvesting conditions and storage conditions. Likewise the vitamins in meat meal will vary greatly depending upon the animal components used and the time and temperature of cooking and drying during processing. Obviously these ingredients come with no guarantees of vitamin levels, and bioavailable concentrations are expected to vary 200-300%. In addition to this inherent variability is the effect that factors, such as natural plant toxins and mycotoxins, can have on vitamin availability. For example, recent research data showed that the effects of a certain mycotoxin could be largely overcome by adding more thiamine, a B-vitamin, to the diet.
On this basis it is perhaps not too surprising that we do not rely on regular feed ingredients to supply vitamins, and consequently our vitamin premix is designed to supply all necessary vitamins for the bird. However this still does not answer the question of "why such high levels of vitamins in breeder feeds." The starting point used in developing vitamin requirements, is the NRC values which are updated each 6-8 years. These NRC values are absolute requirement values for individual vitamins, and most often reflect the level of vitamin needed to prevent deficiency symptoms.
In feeding breeders we want not only to prevent signs of vitamin deficiency, but also to ensure good egg production, hatchability and early chick vitality. This superior performance will only be achieved by feeding much higher levels of vitamins as part of a balanced nutritional program.
Another reason for higher vitamin fortifications relative to NRC (1994) is the loss in potency of vitamins that occur between feed manufacture and consumption by the bird. Different vitamins are susceptible to various stresses to varying degrees, but as a generalization it can be stated that the major causes of loss of vitamin potency are storage time, storage temperature, and storage humidity of the premix before mixing, and of the feed after mixing. Another major loss of vitamins occurs if they are premixed with minerals and stored for any length of time prior to incorportion in feed. Also conditions within the premix and feed can cause loss of potency. For example, some vitamins are acidic whereas others break-down under acidic conditions. Finally to really cause problems to vitamin stability, we sometimes pellet feed, and here the temperature and humidity can cause vitamin breakdown.
The manufactures of vitamins are able to tell us factors which affect potency of their vitamins, and so with this knowledge, coupled with anticipated field conditions, we can project necessary safety factors to ensure optimum breeder performance.
The next question is how much does it cost to add these higher levels of vitamins, and are they worth it? BASF, a major producer of pure vitamins, recently conducted a survey of breeder operations in the USA and, as anticipated, found a range of vitamin levels being used. This industry data covered 62 broiler companies and represents about 90% of the industry. Table 1 shows the highest and lowest vitamin levels being used, and these are compared to NRC (1994). There is about a 100% difference between the top 25% and bottom 25% of reported levels for vitamin fortification. Table 1 also shows the cost of obtaining these individual vitamin levels, and the total cost per tonne of mixed feed.
Table 1. Breeder vitamin levels and costs
* = BASF Technical Bulletin #KC9305
Obviously the bottom line is how well do breeders perform based on high vs low-industry values. We do not have this data, but we can see that the higher vitamin levels cost us about 10¢ more per breeder, which in most markets is equivalent to 0.5 chicks per breeder. Considering that a number of the low-industry vitamin levels (Table 2) are even less than NRC (1994) we can be sure that this will affect performance, and from our experience, this will be much more than 0.5 chicks per breeder. Marginal vitamin levels can easily result in loss of 2-5 chicks per breeder, which is 4-10x the cost of the extra vitamins in the feed.
Our recommendation is, therefore, to feed adequate levels in the feed, because this ensures optimum delivery of vitamin to the breeder and the developing embryo. With these extra levels of vitamins in the feed, there should be no need to use supplemental vitamins in the water, except in situations of environmental or disease stress when feed intake is not optimal, or there is evidence of enteritis.
If vitamin levels are to be adjusted according to local conditions, then which ones are most likely to influence feed cost? Table 2 is a repeat of the industry high-level breeder vitamin recommendations, but in this situation they are listed according to contribution to cost of the premix. This data shows vitamin E, biotin and vitamin A to be the most expensive, and together make up over 50% of the cost of the vitamin premix. These three vitamins should, therefore, receive most attention when additions to, or deletions from premixes, are contemplated based upon knowledge of specific needs within a feeding program.
Table 2. Vitamin recommendations ranked by $ cost/tonne feed
Vitamin | $/tonne feed | % contribution |
| Vitamin E | 1.08 | 23.7 |
| Biotin | 0.77 | 16.9 |
| Vitamin A | 0.68 | 14.9 |
| Riboflavin | 0.53 | 11.5 |
| Pantothenic Acid | 0.38 | 8.3 |
| Pyridoxine | 0.31 | 6.8 |
| Niacin | 0.27 | 5.9 |
| Vitamin K3 | 0.13 | 2.9 |
| Folic Acid | 0.13 | 2.9 |
| Thiamine | 0.11 | 2.4 |
| Vitamin B12 | 0.09 | 2.0 |
| Vitamin D3 | 0.08 | 1.8 |
| Total | $4.56 | 100.0 |
Vitamins are expensive, and together the premix represents about 2-3% of the cost of breeder feed. However the effects of deficient or marginal levels in breeder feed can be far greater than the 10¢ per breeder to be potentially saved by feeding at the low vs high end of current industry standards.
this is a wonderful article about Vitamin Levels in Breeder Diets wuith special focus on the vitamin requirement of breeder. thanks you very much. however i wish to know whether these recommended vitamin inclusion level will guarantee excellent performance in nigeria which is a tropical country.
thanks
This article about Vitamin Levels in Breeder Diets is very practical and educative. It addresses the core problem of breeders management and performance expectation here in the tropics.
The various factors affecting vitamin potency are many in Africa and tropical enviroment and this article provide urgent solution to this problem.
I congratulate this author for such an interesting and educative article.
Thanks.
Dr Stephen Adejoro
Dr.Steven, Thanx for this informative and practical article about Vitamin Levels in Breeder Diets and vitamin requirements some what vary with geographical conditions.please share some information about some protocols to assay vitamins availability in a premix.
Dear Frients
This article the lot of information about the vitamin level to the poultry.
The takehome messages are lot in this article about Vitamin Levels in Breeder Diets
Regards.
Dr.D.Desinguraja
informative article about Vitamin Levels in Breeder Diets.
I would like to thank Steve Leeson for his excellent article about Vitamin Levels in Breeder Diets.
I wish to also bring across to the readers of this forum of the potential benefits of using oregano essential oil for its antioxidant properties to protect vitamins in breeder feed.
It is a well known fact that the main cause of loss of activity in vitamins comes from a process known as oxidation, due to the exposure of vitamins to oxygen. This can easily be reversed with the use of suitable antioxidants in feed.
Then there is the question of what type of antioxidants to use in feed. Antioxidants for feed can be categorised into two main groups, the synthetic antioxidants and the natural antioxidants. Synthetic chemicals such as butylated hydroxyanisole (BHA), butylated hydroxytoluene (BHT) and ethoxyquin are widely used as preservatives but have been linked to liver and kidney dysfunctions as well as allergies and immune system disorders.
Ethoxyquin is a chemical preservative and possible carcinogenic. It is regulated by the FDA (U.S. Food and Drug Administration) as a pesticide. While ethoxyquin cannot be used in human foods, it continues to be used in livestock feeds around the world. Ethoxyquin has been found to promote kidney carcinogenesis and significantly increase the incidence of stomach tumuors and enhanced bladder carcinogenesis, according to several studies, including a recent one by the Department of Pathology, Nagoya City University Medical School, Japan.
Due to the increased public awareness of the importance of food safety, there is increasing pressure from consumers to discontinue the use of such synthetic chemicals as feed preservatives in livestock feeds.
Therefore, the search for suitable antioxidants derived from natural sources have turned the interest of the industry towards plants and essential oils, which have been known to possess high levels of antioxidant properties for a long time now.
According to Joseph Mercola, whose findings were published in the Journal of Agricultural and Food Chemistry in November 2001, oregano was the herb with the highest antioxidant activity, with 3 to 20 times higher antioxidant activity, compared to all the other herbs studied.
On a per gram fresh weight basis, oregano ranked even higher in antioxidant activity than fruits and vegetables which are known to be high in antioxidants. In comparison to the antioxidant activities of a few fruits and vegetables, oregano had 42 times more antioxidant activity than apples, 30 times more than potatoes, 12 times more than oranges and 4 times more than blueberries.
An example of an oregano essential oil product is Orego-Stim, produced by Meriden Animal Health Limited (UK). The phenolic compounds within such a product, carvacrol and thymol, are bioflavonoids that act as powerful antioxidants. These help combat free-radical damage, while protecting cells, lipids & vitamins such as A, C and E from the process of peroxidation.
An evaluation of antioxidant activities of different substances and the margin of deterioration of oxidation by UVA – VIS radiation showed that the antioxidant activity of oregano essential oil was higher than those of coriander and rosemary at various concentrations. In fact, it was even higher than ascorbic acid (vitamin C) and d-alpha tocopherol (vitamin E).
This shows that because carvacrol and thymol are more reactive, they will sacrifice themselves in the presence of a free radical in the peroxidation process, thus protecting valuable antioxidant vitamins and increasing their bioavailability as nutrients for breeder birds dietary use.
As the author has mentioned, the two highest costing vitamins as vitamins A and E. With the use of oregano essential oils, this not only enables lower inclusion levels of these vitamins and thus lowers the cost of vitamin inclusion in breeder feed, but it also provides better breeder performance in terms of egg production, egg quality, hatchability and feed conversion efficiency. Due to its antibacterial properties, it also offers protection from intestinal disease, reduces incidences of diarrhoea and decreases mortality rates.
Very good article about Vitamin Levels in Breeder Diets. It is a practical guide for veterinarians and breeders. As quoted by others, requirement of (especially) vitamin A and C is much more in India. Particularly in south India where temperature crosses 48 degrees Celsius in summer season.
Definitely a very precise and informative article about Vitamin Levels in Breeder Diets. I wish to add requirement of various vitamins for broiler breeders is affected by many situations and are to be continuously monitored based on local conditions. For example total vitamin C required increases manifolds during extreme summer temperature of 45 degrees celsius and beyond, in North India. Same is true for many other vitamins and minerals. Apart from weather conditions there are many other factors which influence these requirements.
An enlightening article about Vitamin Levels in Breeder Diets !!
It is very useful to breeder farmers. In our region, Vitamin A is recommended @ 25000 IU/Kg by nutritionist. The dose may vary due to geographical diversity as nutrient constituents of raw may vary due to geographical location.
Thanks for an educative article.
Dear Dr./Mr. Steve Leeson,
Details are informative article about Vitamin Levels in Breeder Diets, as you have provided comparative data. Thanks.
Can I request you to provide any standard protocols for Assay of critical vitamins in a premix formulation or any comparative standards to infer an assayed data of various vitamins in premix formulation?
Dr Romila
Vetcare - India
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