As informações abaixo são de eggfarmers.org.nz Este link é um arquivo PDF. (nz significa Nova Zelândia, mas há algumas boas informações disponíveis sobre este .pdf).
Yolk quality:
Yolk quality is determined by the colour, texture, firmness and smell of the yolk (Jacob et al.,
2000).
Yolk colour:
Although yolk colour is a key factor in any consumer survey relating to egg
quality (Jacob et al., 2000), consumer preferences for yolk colour are highly subjective and vary
widely from country to country. In general, New Zealand consumers prefer a yolk colour
between 11 and 13 on the Roche (now DSM) Yolk Colour Fan (Sutherland, personal
communication).
The primary determinant of yolk colour is the xanthophyll (plant pigment) content of the diet
consumed. It is possible to manipulate the yolk colour of eggs by the addition of natural or
synthetic xanthophylls to layer hen feeds. This ability to readily manipulate egg yolk colour can
be an advantage in meeting market demands.
However, the ease with which yolk colour can be manipulated can lead to unwanted colour changes. For example, the inclusion of higher than recommended levels or incorrect ratios of pigments can lead to orange-red yolks (Coutts and Wilson, 1990). Similarly, diphenyl-para-phenylenediamine (DPPD), an antioxidant, has been reported to cause excessive deposition of pigments in the egg yolk (Coutts and Wilson, 1990).
The inclusion of more than 5 % cottonseed meal in a layer diet will result in olive or salmon coloured yolks (Beyer, 2005), while the inclusion of certain weeds or weed seeds may results in green yolks (Beyer, 2005; Coutts and Wilson, 1990). Similarly, inadvertent omission of xanthophylls from the diet will lead to pale yolks. Both inadequate mixing of the diet as as well as excessive mixing of the diet will also result in a heterogeneous feed, and subsequent variation in the amount of xanthophylls consumed by each hen in the flock, This will result in egg yolk colour not being uniform throughout the flock.
Pale yolks can result from any factor which alters or prevents the absorption of pigments from the diet or the deposition of these pigments in the yolk. These factors could include;
- worms (Coutts and Wilson, 1990)
- any factor which inhibits liver function, subsequent lipids metabolism and deposition
of pigment in the yolk. For example, mycotoxicosis caused by aflatoxin B1 (Zaghini
et al., 2005).
- coccidiosis, although this is rare in adult hens.
Mottled yolks: (with many pale spots and blotches which vary in colour size and shape), occur when the contents of the albumen and yolk mix as a result of degeneration and increase
permeability of the vitelline membrane (Jacob et al., 2000). Factors affecting mottling were
reviewed in detail by Cunningham and Sanford (1974).Dietary factors which may cause mottled
yolks include;
- The presence of nicarbazin (an anticoccidal agent) in the feed has shown by
numerous authors to cause mottling (Jones et al., 1990; Cunningham and Sanford,
1974)
- Worming drugs such as phenothiazine (Coutts and Wilson, 1990), dibutyltin
dialaurate (Jacob et al., 2000; Coutts and Wilson, 1990; Berry et al., 1968, cited
by Cunningham and Sanford, 1974) and Piperazine (Jacob et al., 2000; Coutts and
Wilson, 1990). However, Berry et al. (1968, cited by Cunningham and Sanford,
1974) did not observe yolk defects when Piperazine was fed at the manufacturer’s
recommendations. Similarly, they only observed defects when dibutyltin
dialaurate was fed at the recommended level but over a much longer period.
- Gossypol from cotton seed meal (Jacob et al., 2000; Berry et al., 1968, cited by
Cunningham and Sanford, 1974)
- Certain antioxidants such as gallic acid (from grapes, tea and oak bark) and tannic
acid (Coutts and Wilson, 1990), or tannins from grains such as sorghum (Jacob et
al., 2000)
- Calcium deficient diets (Jacob et al., 2000; McCready et al., 1972, cited by
Cunningham and Sanford, 1974)
Storage time and temperature has also been shown to affect the degree of egg yolk mottling
(Jacob et al., 2000; Coutts and Wilson, 1990). Jones (2006) stated that as the internal temperature of the egg increases above 7 degrees Celsius, the protein structures of the thick albumen and vitelline membrane breakdown faster. As the membrane degenerates during storage, water enters the yolk causing mottling and after prolonged storage, albumen proteins also enter the yolk increasing the severity of mottling (Jacob et al., 2000). In order to reduce the rate of breakdown of the vitelline membrane, eggs should be collected regularly, reducing the time they are exposed to higher environmental temperatures and contaminants, and stored at temperatures of 7 - 13 degrees Celsius and humidity of 50 - 60 %.
Em sua revisão, Cunningham e Sanford (1974) também identificaram a idade de galinha, o revestimento de óleo de ovos e
movimento de ovos como possíveis fatores que afetam o mosqueamento dos ovos.
Yolk firmness:
The yolk of a freshly laid egg is round and firm (Jacob et al., 2000). However,
as the egg ages and the vitelline membrane degenerates, water from the albumen moves into the
yolk and gives the yolk a flattened shape.
Yolk texture: Rubbery yolks may be caused by severe chilling or freezing of intact eggs, the
consumption of crude cottonseed oil or the seeds of some weeds (Jacob et al., 2000)