CHAPTER IIREVIEW OF LITERATUREThe r

CHAPTER II
REVIEW OF LITERATURE
The reproductive potential of cocks is determined to large extent by the quality of
the semen it produces. The importance of semen evaluation in poultry breeding
(Natural and artificial breeding) for selecting breeding males or for routine
monitoring of their reproductive performance cannot be overemphasized. The
assessment of semen quality of chicken gives excellent indices of its reproductive
potential and has been reported to be a major determinant of fertility and
subsequent hatchability of eggs (Peters et al., 2004). Hens can lay a series of
fertilized eggs over a period of 3 or more weeks following a single insemination
(Froman and Feltmann, 2005). In order to make certain that maximum success is
achieved, not only required proper diluents and sperm dilution rates, but also a
complex knowledge of the sperm and its physiology, is vital. (Purdy, 2006).For
good results in the artificial insemination of chickens, the quality of semen
should be ensured (Alkan et al., 2002). There are many unique characteristics of
cockerel sperm that limits its viability for AI, either fresh or post freeze/thawing.
The sperm motility and fertilizing ability of cockerel sperm generally deteriorates
within 1 hour after collection, if stored in vitro (Dumpala et al., 2006). The avian
sperm head is also unique, being cylindrical and not wide in diameter
(approximately 0.5 µm) and containing less cytoplasm, which makes it difficult
for the cryoprotectant to be absorbed by the sperm head cell resulting in a poor
survival rate during the freeze/thawing process. The tail of the sperm is quite
long (90 to 100µm), about 8 times the length of the head, relatively longer when
compared to bull sperm where the tail is 50µm thus making cockerel semen more
prone to cryopreservation damage during freezing (Donoghue and Wishart,
2000). The present review focuses on factors influencing the semen parameters of
cocks.
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2.2 Cockerel semen composition
In the male, semen is composed of sperm and seminal plasma secreted by the
epididymis and vas deferens. The sperm are produced in the testes and in the
case of the avian species the seminal fluid is also produced in the testes. All these
secretions in the testes are controlled by the endocrine hormones carried to them
in the blood stream. The pituitary FSH and LH regulates the testes which in turn
produce testosterone, which controls the testicular development and secretions
(Hafez, 1974).
Table 1: Characteristics and the mean chemical components of semen in the
domestic cockerel (Hafez and Hafez, 2000).
Characteristics and Components Cockerel
Ejaculate volume (ml) 0.2-0.5
Sperm concentration in ( x106/ml) 3000-7000
Sperm/ejaculate (billion)(x109) 0.06-3.5
Motile sperm (%) 60-80
Morphologically normal sperm (%) 85-90
Protein (g/100 ml) 1.8-2.8
pH 7.2-7.6
Fructose (mg/100ml) 4
Sorbitol (mg/100ml) 0-10
Inositol (mg/100ml) 16-20
Glycerylphosphoryl choline (GPC) (mg/100ml) 0-40
Ergothioneine (mg/100ml) 0-2
Sodium (mg/100ml) 352
Potassium (mg/100ml) 61
Calcium (mg/100ml) 10
Magnesium (mg/100ml) 14
Chloride (mg/100ml) 147
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2.3 Body weight of the cockerel
The body weight of the cockerel is important when selecting for breeding flock
performance. A significant negative correlation has been established between the
growth rate or body weight and the reproductive performance in males (Harris et
al., 1980; Lukaszewicz & Kruszynski, 2003). It is crucial for the males to reach a
minimum body weight typical for a given breed, strain or type, before being used
for breeding (Lisowski & Bednarczyk, 2005). The number of sperm per ejaculate
and body weight has been positively correlated and it may be concluded that body
weight and length of the shank, comb and wattle are good predictors of semen
attributes in cockerels. This is contrary to the reported negative effect of
bodyweight on semen production (Wilson et al., 1979; Galal, 2007).
2.4Factors affecting semen quality
Saacke (1983) stated that historically, semen quality traits have been classified
according to the sperm viability or morphology. The morphology of sperm is also
considered to reflect the physiological status of the male for sperm production
and reflects the viability of storage in the gonadal ducts. Viability, as other semen
traits, can reflect the fertility status, but it also measures the human’s interaction
with semen as it is collected, processed and inseminated. Semen traits related to
fertility e.g. sperm motility, velocity, acrosome morphology etc., may affect the
penetration of the cervical mucus and are thus important for semen preservation
and ultimately fertilizing capacity. Parker and McDaniel (2002) reported that in
poultry there is no real breeding soundness evaluation. Roosters are selected,
based on physical characteristics, that are associated with the mature males e.g.
comb and wattle size and color, body size and shank length. However, it is very
important to evaluate the semen quality, as it predicts the fertility of an
individual male. Fertility and hatchability according to Tabatabaei et al. (2009)
depends on genetic, physiological, social and environmental factors. These are
interrelated heritable traits, which may vary between breeds. Sperm numbers,
type of hens (broiler or layer) and age may affect the in vivo storage of sperm,
and subsequently the fertility of the eggs. The conditions which cause low sperm