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Vital chicks from properly stored eggs

Good hatchability is usually seen as a breeder bird and management related matter. Storage of the hatching eggs is as important however. From the moment the egg is laid, the incubation process has started already.

By Robert Schulte-Drüggelte, LTZ, Cuxhaven, Germany

At the time a fertile egg is laid, there is already a small embryo floating on the yolk. The vitality of this embryo must be preserved during storage until the point in time when the incubation process starts. To achieve this, the eggs are handled carefully and temperature fluctuations avoided as much as possible under practical conditions. Beside this common practice, specific management procedures may help to minimise the loss of hatchability during extended egg storage.

Optimal egg storage

After oviposition, the development of the embryo which started in the hen's body, has to be stopped. Therefore the egg should be cooled down below 'physiological zero' (26–27°C). This process usually happens inside the nest or on the egg belt. If the ambient temperature is higher (which is not uncommon during summer months), delayed cooling may be a problem. In this case eggs should be collected more frequently to assure that the temperature of the embryo is brought down from 40°C body temperature to 26-27°C within six hours. A temperature in the 37-27°C range leads to unbalanced development and hence early embryonic mortality. Too quick cooling may also weaken the embryo. Further research is needed to determine whether this is due to retarded development or other factors. Once the cell division is stopped, the egg needs to be further cooled down. This is necessary to control the deterioration of the albumen and necrotic cell deaths. Control means that there are different optimal egg storage temperatures depending on storage length. Eggs which are set within days of lay don't need to be kept at a temperature below 20°C. In this case 21–22°C is regarded as optimal.

Vitality of the embryo

This relatively high temperature promotes the thinning of the albumen, which improves the gas exchange during early incubation. On the other hand, it is low enough to maintain the vitality of the embryo. In most layer hatcheries, it is common to store the eggs up to 10 days. For this storage length the recommended temperature is 16-18°C. Temperature ups and downs should be avoided, as they can cause early embryonic mortality. Ideally the hatching eggs experience only two temperature changes from the moment of lay until pre-warming (see Figure 1).

The humidity during storage is not as important as the temperature, as its impact on hatchability is limited. When eggs are stored only up to 10 days, 50-60% relative humidity is sufficient. Higher humidity, up to 80%, is not harmful. Above 80% relative humidity, growth and spread of bacteria and mould is likely to become a problem. Eggs scheduled for long storage benefit from higher humidity to avoid excessive moisture loss of the eggs. The target in this case is 70-80% relative humidity.

Ideas for long storage

If eggs are scheduled for a long storage period, the hatchery manager can make use of different tools to minimise the negative impact on hatchability. These tools either aim to improve the vitality of the embryo or they support the quality of the egg contents or both. The temperature during storage can be decreased down to 10-12°C. At lower temperature the water loss of the eggs is reduced and the deterioration of albumen slowed down. Table 1 shows the results of a recent trial with eggs from a grandparent flock stored 16 days at different temperatures.

However, a temperature below 15°C is not recommended for commercial practice. In many situations the extra cooling is not cost-efficient and creates other problems when it comes to setting, like egg sweating or/and a long pre-warming time. Very good hatching egg planning would be required to handle this tool successfully. Egg sweating, i.e. condensation of water on the eggshell, may happen e.g. when cold stored eggs are brought to a warm setter room. Egg sweating must be avoided by any means, because it allows micro-organisms to multiply on the wet surface, penetrate the shell and contaminate the egg. In most cases it helps to limit the temperature difference between cool and warm rooms to a maximum of 11°C.

Turning eggs

A simple approach to preserve hatchability is to turn the eggs during storage, like it is done during incubation. If there is no automatic equipment installed, turning by hand three times each day is sufficient. If the eggs are kept on cardboard trays instead of setter trays, they can be stored upside down – with the pointed end up. This keeps the yolk and the embryo in a central position and protects the latter during storage. Eggs should preferably not be transported this way, because it might cause loose air cells. Of course they should be set in the incubator with the pointed end down. Turning the eggs back up just before pre-warming/setting is early enough.

Pre-storage incubation is another procedure successfully applied in several commercial layer hatcheries. Its mode of action is based on the fact that the developmental stage of the embryo at point of lay is not optimal for long storage. In nature, it would be altered by periodical warming of the eggs during the time the hen sits on the nest to produce the next egg of the clutch. In the hatchery it is possible to achieve similar results by incubating the eggs for a short time soon after lay. This leads to a stage of development where the embryo is less susceptible to cell death during the storage period.

Maintain hatchability

Pre-storage incubation cannot improve, but it can help to maintain, hatchability. Therefore it makes sense to use this technique if eggs are scheduled for a storage period which would usually reduce hatchability significantly. This will depend on local conditions and may differ between strains, age of flock and storage conditions. Table 2 shows the results of a hatchery trial, where we compared two egg positions during storage in combination with low oxygen and pre-storage incubation against untreated controls. Eggs from a grandparent flock of commercial White Leghorns (LSL) were used and stored for 20 days before incubation. For the low oxygen treatment, the eggs were stored in a gas tight cabinet with nitrogen and 1% oxygen. Pre-storage incubation was practiced in a single stage setter on day 1 of storage and lasted six hours, including five hours with an egg temperature between 99 and 100°F. In this experiment, storing the eggs upside down improved hatch of fertile eggs by 15.3%, pre-storage incubation of eggs stored normally 11.5%, and low oxygen treatment of eggs stored upside down by 11.2%. Assuming that differences between trays can be ignored, these differences are statistically highly significant and of practical interest.

Routine praxis

On a research level many experiments have been made with altered air composition during storage to preserve egg quality. The results are often promising (including our own results in Table 2), but so far none of these techniques have become routine practice in the industry. The main reason is that the technique is complex and costly and would probably only pay back in PS hatcheries routinely storing the eggs for more than 14 days. More applicable is a low egg storage temperature, the storage of hatching eggs with the pointed end up or pre-storage incubation. If pre-storage incubation is practiced, it should be preferably done with fresh eggs up to two days after lay. In case the eggs have not been properly cooled after oviposition, the effects of pre-storage incubations may be negligible or even negative, because the embryos are already at an advanced stage of development.

Source: Lohmann Information

Photo

  • Embryonic development starts already once the egg is laid

    Embryonic development starts already once the egg is laid

Robert Schulte-Drüggelte

2 comments

  • ??? rassokie

    very nice

  • GK RATHINAM

    Of course, Hatching eggs storage conditions plays an important part in getting vital chicks. 'Physiological zero' is still a point of discussion, as different views on this. Your views and suggestions are very useful in producing quality chicks.

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