EFFECT OF DIETARY SUPPLEMENTATION OF ORGANIC SELENIUM AT DIFFERENT LEVELS ON REPRODUCTIVE PERFORMANCE OF RABBIT DOES

ABSTRACT

The effect of dietary supplementation of organic selenium at different levels on reproductive performance  of rabbit does was investigated  using 16 (12 does and 4  bucks) rabbits. The rabbits were of New Zealand white, Dutch and chinchilla  breeds.  The twelve rabbit does were randomly assigned to four experimental treatment groups (T0, T1, T2 and T3) according to  the  amount  of organic  selenium  supplementation  in a  completely  randomized  design (CRD). Rabbits in T0 served as the control and received 0.00mg/kg Se supplement diet daily, while those in T1, T2 and T3 were given 0.15, 0.30 and 0.45 mg/kg organic selenium yeast, respectively.  Each  rabbit  in  a  treatment  was  housed  in  individual  cage  and  served  as replicate. Rabbits in each treatment were mated using four bucks (one buck per treatment). The parameters  measured  were:  birth weight of the litters, body weight of the dam after kindling,  litter sizes  at birth  including  stillbirths,  conception  rate, gestation  length,  body weight of does during gestation, litter weight at weaning, litter sizes at weaning and growth rates  of kits. .  Haematological  parameters  and oxidative  enzymes  were  also determined. Results   showed that selenium supplementation  in the diets had no significant  (p > 0.05) effect   on gestation  length,  litter size at birth, number  of stillbirth,  doe body weights  at kindling and litter body weights at birth. However, selenium supplementation had significant effect (p < 0.05) on litter size at weaning, litter body weight at weaning and pre – weaning weight gain of kits during lactation. Doe weight gain during gestation and growth rate of kits were not significantly (p > 0.05) different among the treatment groups. Weight gain of kits at weaning was higher in treatment one with only two kits as the average kits weaned. Litter size at weaning was significantly higher at treatment 3 (6.50) and for treatment 2 (5.00).  The higher  values  in number  of kits  at birth,  birth  weight  of kits  and  litter  size  weaned  as recorded in treatment 2 showed the significant role of selenium as an anti-stress in the diets of the animal.   Inclusion  levels of selenium had  no significant  (p > 0.05) effect on such haematological indices on RBC of rabbits. However, there were significant differences (p <

0.05)  among  treatment  group  on  haematological  values  of  Hb,  PVC,  Neutrophils  and eosinophils.  There  was  a  significant  difference  (p < 0.0.5)  among  treatment  groups  on follicule  stimulating  hormone  (FSH) secretion,  however  no difference  was  found  in LH. Selenium in the diets of rabbit does had no significant effect (p > 0.05) on such oxidative enzymes like catalase, , selenium and reduced glutathione. However, there were significant differences (p < 0.05) among the treatment groups on oxidative enzymes of MDA, SOD and glutathione peroxidase, glutathione, and glutathione transferase with higher significant (p <

0.05)  effect  on  SOD.  It  was  therefore  concluded  that  under  good  nutritional  and  other

management practices, inclusion of selenium in diets of rabbit does at 0.30mg/kg feed will increase the number of kits per doe per year even though best results for weight  gain of litters at weaning were obtained with 0.15mg/kg selenium supplementation  in the diet and this  will  enhance  maximum  productive  performance,   thus  maximum/higher   economic returns                                   from                                   the                                    enterprise.

CHAPTER ONE

1.0                                                  INTRODUCTION

1.1      Background of the Study

It has been discovered that inadequate supply of animal protein from traditional livestock: cattle, sheep, goats, pigs and chicken is responsible for the decline in animal protein consumption  in many developing  countries  of the world.  According  to FAO (2006),  about  854  million  people  representing  12.6%  of  the  world  population  are severely malnourished.  To correct this, Biobaku and  Ekpeyong  (1991) indicated  that non-traditional meat sources suitable for small scale farmer need to be explored.

Iheukwumere  and Okoli (2002) defined a rabbit as a mini-livestock  with  high reproductive  potentials.  It  has  a  unique  ability  which  serves  as  a  flexible  financial reserve. It has short gestation length, exhibits early maturity, has high  prolificacy and also has the ability to re-breed shortly after parturition.  These  attributes lead to short generation interval (Lebas et al., 1997; Effiong and Wogar, 2007).

Today, rabbit as a micro-livestock production is part of value chain development in the present agricultural transformation  agenda (ATA). This is  because of the huge potentials  of rabbit  production  in supplying  the much  needed animal  protein  intake. Other such potentials include low capital outlay, good converter of feed (Biobaku et al.,

2002). Furthermore, the characteristic small body, size, rapid growth and ability to live on forage has made rabbit production lucrative, especially where production is a very big business in some parts of Nigeria where the meat is receiving an encouraging patronage. It is an alternative livestock where trypanosomiasis has posed a threat to cattle and other livestock production.

Rabbit  is  a  monogastric  and  its  meat  differs  from  other  animals  in  protein content,  (Aduku  and Olukosi,  1990).  The  meat also  contains  low  cholesterol,  fewer calories and a low percentage of fats compared to beef, pork, chicken or lambs, (Aduku and Olukosi, 1990). Janieri (1987) reported that this attributes of low cholesterol value makes it a life saving animal protein source for people with high blood pressure. The meat is also tender and juicy, an attribute that makes it suitable for all categories of ages both young and old.

Apart from being a good source of white meat which is “pearly white”, rabbit can be used for heart patients, provides wool (fur), skins, manure and toys. It is the only farm animal which produces meat at 10 to 15 times or more of its weights in a year through

progenies.  Being  such  multiplier,  it is  expected  to  ease  the  demand  of  pressure  in chicken and mutton (Banergee, 1998).

Rabbit has been observed to excel other livestock: cattle, sheep and goats,  but ranks close to chicken in respect of growth rate, feed conversion efficiency (FCE) and meat quality. Of all the livestock species, rabbit is most efficient converter of feed to flesh (Agunbiade et al., 2001). One kilogram of rabbit meat only requires one quarter of the fed energy required to produce an equivalent quantity of lamb or beef and only 70 percent of the feed to produce the same amount of pork (Lebas and Matheron, 1982). Rabbit production  is an ideal  enterprise  for young people because it requires limited capital  investment  for  housing  and  equipment.  A breeder  with  a pair  of  rabbit  can produce 60 – 80 rabbits each year to sell or eat (Elmer, 1990).

The optimum exploitation of rabbit prolificacy and performance can be achieved through  proper  feeding  (Iheukwumere  et  al.,  2005),  while  poor  nutrition will  delay sexual maturity in rabbits, resulting in low financial return to the farmer (Asuquo, 1993). This suggests that increased feed and nutrient level be  given to breeding rabbits as a means of increasing litter size, adequate maintenance of pregnancy and subsequent milk let down by the doe (Lebas, 1983; Effiong and Wogar, 2007). Also, dietary supplements such as selenium  with intent  to maintain  healthy  systems  and support  recovery  and healing are necessary for better performance of the rabbit.

Selenium, essential trace mineral is necessary to maintain good health of animals but is required only in small amounts. Selenium (Se) has good properties in improving fertility parameters especially in females. They are antioxidants and have protective and preservative characteristics (Orffa, 2010). Hence, this serves as dietary supplements of breeding does for higher productive performance.

1.2      Objectives of the Study

The objective of the research was to determine the effect of organic selenium on the reproductive performance of rabbit does.

The specific objectives of the study were:

i.         To   evaluate    the   effects    of   different    levels    of   organic    selenium supplementation in the diet on the reproductive performance of rabbits.

ii.        To  determine  the  effect  of  dietary  selenium  supplementation  on the  pre- weaning growth rate of kits.

iii.       To  determine   the  effect   of  dietary   selenium   supplementation   on   the hematological  and  oxidative  enzymes  release  in  the  doe  at  the  end  of lactation.

1.3      Justification for the Study

Efficient production is one of the main factors that assure high productivity in rabbit  farms.  To achieve  this, breeders  need to take  into consideration  management practices  that  will  promote  the  physiology,  behavior  and  general  well-being  of  the animal. Since appropriate feeding has been identified as the corner stone of a profitable rabbit production (Fielding, 1991), the exploration of the full potentials of rabbit as meat in  our  country  requires  an understanding  of  their  nutritional  requirements.  There  is therefore the need to evaluate the appropriate nutritional requirements including mineral supplements that will achieve high productivity per doe per year without negative effects on the litters and does. This will ultimately help to achieve sustainable animal protein supply to Nigerians.

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