ABSTRACT
This study was conducted to
evaluate the effect of dietary supplementation of Vitamin E and Selenium on the
reproductive performance of rabbit Does and Kits. Four groups of mixed breeds
of rabbits (Newzealand white, Dutch black, and Chinchilla) 8-9 months old with
an average body weight of 1.98±0.6kg were considered in the experiment. Each
group was made up of 3does and a buck to serve them. All the bucks were fed the
basal diet during the study alongside group 1 Does which served as the control.
Does in groups 2, 3 and 4 Does were fed the basal diet supplemented with 40mg
vitamin E (VE); 0.3mg Selenium (Se); and 40mg Vitamin E plus 0.3 Selenium (VE +
Se) for 4 weeks respectively. From the study, there were no significant
(P>0.05) differences in the reproductive performances of Does except for
body weight of litter at birth which was significantly (P>0.05) increased by
Se and significantly decreased by VE + Se supplementation; and weight at
weaning which was increased in the Se group. Blood Haemoglobin, PCV, RBC, and
LH did not differ (P>0.05) from the control. Se and VE groups increased
blood Neutrophils. In the VE+ Se group, Eosinophil and FSH were significantly
(P>0.05) increased, while lymphocyte was significantly (P>0.05) reduced.
However, Eosinophil and Lymphocyte were significantly (P>0.05) decreased in
the VE group. For the oxidative enzymes, the Se, SOD, and Glutathione
peroxidase were not influenced by the treatments (P>0.05). The Se group had
a significantly (P>0.05) increased MDA and Reduced glutathione values.
Glutathione level was significantly lowered in the VE and Se group. For the VE
+ Se group, MDA was significantly increased while Catalase was significantly
(P>0.05) reduced. Other oxidative enzymes were not however influenced
(P>0.05) by the treatments. In conclusion, in addition to improvement in the
FSH and oxidative enzymes status of Does, there was also better reproductive
performance when Se is supplemented at 0.3mg/kg diet.
CHAPTER ONE
INTRODUCTION
1.1 Background
Information
The shortage
of animal protein in the developing countries in the tropics has been long
recognized and has remained one of the major limiting factors to the attainment
of food security in Nigeria. The minimum protein requirement is estimated at
about 75g/person/day out of which 40grams should come from animal protein
(Akinwumi, 2011). Presently, animal protein consumption has been given as
7g/person/day by FAO (2014), which suggests a less than 16% contribution of the
animal products to protein consumption. The situation is degenerating with time
as the population growth is not equated with the corresponding increase in
animal per capital production (Akunwumi, 2011). The demand and supply of meat
have not been able to agree. The problem lingers due to the fact that 85% of
the country’s meat supply comes from the cattle whose nomadic system of
production does not encourage rapid production (Dung, 1992).
The federal
government through its Agricultural Transformation agenda of 2011 has devised
means of increasing domestic production of livestock, utilizing improved
technologies and management practices towards this end but the impact of these
projects are yet to be seen. The utilization of the advantages of short
gestation period, high reproductive potential, rapid growth rate and ability to
utilize forage which rabbit (Mailafia et al., 2010) and other
micro-livestock animals have over cattle to bridge gap between meat demand and
supply still leaves the country with a short fall in supply due to myriad of
problems facing it (Nworgu, 2007). To maximize food production and bridge this
meat demand supply gap in Nigeria, it is pertinent to assess and weigh viable
options (Owen et al. 2008) which involves using fast growing livestock
species like rabbits which posses advantageous features in the small holder
subsistence type integrated farming in developing countries (Mailafia et al.,
2010). The set-backs in animal meat production in Nigeria have been attributed
partly to diseases, availability of affordable feeds and also the competition
between these food animals and humans for available grains. Therefore need to
increase the awareness of the high potentials of the rabbit meat production and
advocating its use in the developing countries as a veritable means of alleviating
animal food shortage (Ajala and Balogun, 2014) both in Nigeria and other
tropical African countries.
The rabbit
is a pseudo-ruminant that has a fast growing and breeding rate (Hassan et
al, 2012, Mailafia et al, 2010). A buck and two does if well fed
and cared for will yield more
The meat
from rabbit meat surpasses meat from other farm animals in protein content
(Aduku and Olukori, 1990). It also contains low cholesterol, fewer calories and
a lower percentage of fat (Mailafia et al, 2010) compared to beef, pork,
chicken or lamb (Aduku and Olukosi, 1990; Lane 1999). The rabbit meat is in the
categories of white meat and its prescribed safe for consumption and for people
by patients with different diseases conditions and for people on strict diet
who wish to cut down fat in their diet (Ahsan, 2014). The fat-less and
cholesterol free properties of rabbit meat have made it a high recommendation
for cardiac patients and people with cholesterol problems. It has been labeled
safe for patients with blood pressure due to sodium intolerance to consume due
to its comparatively lower content of sodium, used for the treatment of
atherosclerosis and normalizing metabolism in cancer patients undergoing
radio-therapy (Ahsan, 2014). The rabbit has been observed to excel other
livestock cattle, sheep and goats, because its meat quality is higher of all
the livestock species. Rabbit is the most efficient converter of feed to flesh
(Agunbiade, 2001). One kilogram of rabbit meat only requires a quarter of the
feed energy required to produce an equivalent quantity of lamb or beef and only
70 percent of the feed to produce same amount of pork (Lebas and Matheron,
1982).The rabbit therefore has a potential solution to the problem of meat
supply in many developing countries.
The optimum
exploration of rabbits’ proficiency and performance can be achieved through
proper feeding (Iheukwumere, 2005). The reproductive performance of rabbits
have been said to be affected by biological, nutritional and physical
environmental factor (Robinson, 1996). It is well established that malnutrition
retards growth, delay puberty, lower conception rate, reduce ovarian follicular
growth and hamper both nutritional and fetal growth through fatal / maternal
competition for growth (Mello Curry, 1989; Armstrong et al 2001) and
this suggests that increased feed and nutrient level be given to pregnant rabbit
to enhance productivity (Leban, 1983, Efiong and Weger, 2007).
Reactive Oxygen species (ROS) are chemical reactive
molecules containing Oxygen formed as a natural by-product of the normal
cellular oxygen metabolism which plays major roles in cell signaling and
homeostatic (Devasagayam et al, 2004). At times of environment stress,
the levels of ROS generated in the body increases tremendously (Rada and lets,
2008) leading to damage of cell structures (oxidative stress). The cells of the
animal body have devised a range of mechanisms to nullify and repair the
harmful effects of these ROS including inactivating them (anti-oxidation)
(Pierce et al, 2009; Argawal and Allamaneni.....
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