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SEMEN QUALITY AND EGG HATCHABILITY IN LOCAL TURKEY FED DIETS CONTAINING MORINGA OLEIFERA AND GONGRONEMA LATIFOLIUM LEAF MEAL

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ABSTRACT

The  experiment  was  conducted  to  determine  semen  quality,  fertility,  egg  hatchability  and  some biochemical  parameters  in Nigerian local turkey toms fed diets containing  Moringa oleifera (MO), Gongronema latifolium (GL) leaf meals and their combinations. A total of 72 Nigerian local turkeys comprising of 54 males and 18 females were used for the study. The males were randomly divided into  9  treatment  groups,  each  treatment  was  replicated  3  times  with  2  toms  per  replicate.  The treatment  diets  were  given  only  to  the  toms,  starting  from  three  month  of  age  through  the experimental  period.  The  experimental  animals  were  fed  and  given  water  properly,  twice  a day without restriction. All the management practices were carried out to the best of ability. The males in all the treatment groups were weighed weekly to determine their daily and weekly body weight gain. At 26 weeks of age, toms were trained for semen collection, and 32 weeks of age, semen was collected using abdominal massages. Samples were analyzed for colour, volume, progressive  motility, sperm concentration,  viability  and  sperm  morphology.   Fresh  semen  sample  were  also  collected  per treatment in vials’ stored in ice block and analyzed for fructose, Na and K.  A total of 18 hens were randomly  shared  2  per  treatment  corresponding  to  the  9  treatments.  Pooled  Semen  from  each treatment was used to inseminate the hens twice a week at the beginning of egg lay and once a week subsequently.  A total  of 225 eggs  were  collected  and  incubated  in  weekly  batches,  analyzed  for fertility  and  hatchability.  The  result  revealed  that  M.  oleifera  and  G.  latifolium  leaf  meals  had significant (P<0.05)  effects on the semen quality parameters measured. M. oleifera fed tom at 3kg yielded  the  best  result:  ejaculate  volume  0.58ml,  motility=  92.93%,  Conc.=  4.82(x10/ml  9),  live sperm=  94.13%,  normal sperm 91.38% and  corresponding  lower values  for percentage  dead and abnormal  sperm.  While,  G.  latifolium  treated  toms  had  a  lower  value  for  their  semen  quality parameters when compared with the control group. Interaction effects of M. oleifera and G. latifolium leaf meals were significantly  (P<0.05)  different.  Compared  with control semen quality traits were higher at 3kgMO+1.5kgGL inclusion, lower at 1.5kgMO + 1.5kgGL, and significantly reduced semen quality of toms fed 1.5kgMO+ 3kgGL diets.  Similarly, the percent fertile eggs, and percent hatched eggs were greatly improved at 3kgMO diets with corresponding decrease in percent infertile eggs and dead in shell embryos  than the control. However,  toms fed diet at 1.5kgGL  and 3kgGL had their values for these parameters  being severely reduced. Hatchability  values  increased  to 88.39%   and

83.33% at 3kg MO+1.5kgGL and 3kg MO+3kgGL respectively with a decrease in percent dead- in- shell embryos to 16.99% and 19.12% respectively.  Seminal fructose concentration  (mg/100ml)  was significantly  (P<0.05)  increased  (5.86+2.76)  at 3kgGL  when  compared  with  the  control,  but M. oleifera had a negligible increase in fructose concentration. However, M. oleifera fed toms (3kg) had a significant(P<0.05)  increase  in concentration  of Na and K (0.39  and   0.35) respectively.  These result suggest that improved fertility, eggs hatchability and reduction in percent embryo mortality can be achieved using M. oleifera at 3kg/100kg diet  and combination of M. oleifera+G. latifolium at rate of 3kgMO+1.5kgGL, but treatment with G.latifolium at the rate of 1.5kg, 3kg and combination at rate of 1.5kgMO +3kgGL caused reduced fertility in local Nigerian turkey.

CHAPTER ONE

INTRODUCTION

1.1.      Background of the study

In Nigeria, poultry industry is once again experiencing growth due to the current regime’s effort at encouraging investments in the industry through several economic and agricultural policies and reforms including removal of import duties on agricultural products (Fasina et al.,  2007).  Notwithstanding,  the  current  trend  in  growth  within  the  industry  it  is  still experiencing  challenges  as  some  species  of  poultry  are  left  out.  For  instance,  turkey production  has not been as successful  as chicken production  in Nigeria. Its production is largely at the small holder level. This has been attributed to high cost of feed, inconsistencies in feeding program as well as lack of information on its nutritional requirements (Ojewola et al., 2002). Also, reproductive  problems  experienced under natural mating conditions,  low fertility  and  poor  hatchability  as a  result  of  poor  quality  semen  due  to  oxidative  stress amongst other factors (Bucak et al., 2010) militate against turkey production in Nigeria.  This situation  is  also  evident  from  the  FAO  report  (FAOStat,  2011),  which  shows  that  the population of  local turkeys in Nigeria is only about 1.05 million, being the smallest when compared  with  other poultry species.  It is important  to come to terms with the fact that advancement in the industry depends on the use of birds with high reproductive rate, adoption of better mating methods, use of high quality semen in insemination as well as good nutrition.

According to Donoghue and Donoghue (1997), avian spermatozoa are rich in polyunsaturated fatty acids (PUFA) which makes them vulnerable to lipid peroxidation especially during in- vitro manipulation.  In particular fatty acids are the most  vulnerable to lipid peroxidation. Generally, some features of avian semen have also  been found to put it under pressure of oxidative stress. For instance, there is limitation in antioxidant recycling, because of very low activity or even absences of hexose  mono-phosphate  shunt in avian spermatozoa  (Sexton,

1974). Also, the low production of NADPH (the coemzymes for glutathione reductase) has been implicated as a factor in reducing fertility of avian sperm. There are also observations that leukocyte  contamination  of the semen is responsible  for increased  generation  of free radicals  which affect  the performance  of turkey  sperm  (Halliwed  and Gutteridge,  1999). Furthermore,  the  activity  of  antioxidant  enzymes  in  turkey  spermatozoa  is  also  lower compared to that of chicken and this makes turkey sperm more vulnerable to the problem of peroxidation  (Aitken, 1999). Worthy of note, is the  fact that turkey spermatozoa  are very

dependent  on  oxidative  metabolism  to  maintain  optimal  ATP  level  needed  for  sperm metabolism (Wishart, 1982). Therefore, any damage resulting from these discrepancies may leads  to  alteration  of  the  membrane  irreversibly,  thereby  affecting  sperm  function  and fertilizing ability. In effect, antioxidant protection is thus absolutely vital for maintaining the fertility of turkey spermatozoa.

Studies have revealed how the reproductive efficiency of male breeder can be affected by a variety of factors such as breeding methods, environment  (daily photoperiod,  temperature housing,  and  nutrition)  and  frequency  of  semen  collection  and  technique  of  artificial insemination  (AI), especially  in turkey (Sexton, 1983 and Lake,  1984). In addition, these authors  have  stressed  the  importance  of  evaluating  the  semen  prior  to  insemination  to improve  the  reproductive  efficiency.  Antioxidants  have  been  reported  to  be  efficient  in diminishing  lipid oxidation  in avian  spermatozoa  which is a major factor in reduction of fertility. Worthy of note is the  fact that natural antioxidant  has the ability to increase the antioxidant  capacity of the  seminal plasma and reduce the risk of certain deleterious  free radicals on sperm fertilizing ability (Chanda and Dave, 2009). Dawson et al. (1990) reported that the antioxidant properties of ascorbic acid are essential in maintaining the membrane and the genetic integrity of sperm cells by preventing oxidative damage to the sperm DNA. Also, studies have shown that antioxidants especially those of plant origin such as Moringa oleifera and Gogronema Latifolium have greater application potential for therapeutic and reproductive uses.

Moringa Oleifera plant in the family of Moringacea is native to India, naturalized in tropic and sub-tropical areas of the world (Price, 2002). It is widely distributed and cultivated in the northern part of Nigeria and it is called Zogale in Hausa. The plant is characterized as fast growing and drought resistant with an average height of 12 meters at maturity (Fuglie, 2001). All parts of the moringa tree is said to have beneficial  properties. Nutritional analyses by Gopalan et al. (1989) and Fuglie (2001) indicate  that  Moringa leaves contain a wealth of essential amino acids, vitamins and minerals with higher values in their dried form than in its fresh form, except for vitamin C which is high in its fresh leaves. Fuglie (1999) also reported some specific plant pigments with demonstrated anti oxidant properties such as carotinoids, lutein,   alpha-carotine,   beta-carotine,   xanthins   and   chlorophyll.   Other   phytochemicals contained in moringa which have powerful antioxidant ability include kaempferol, queretin, rutin,  kaffeoylquinic  acids,  vitamins  A, C and E, some  valuable  micro  nutrients  such as selenium and zinc are also found in the leaves of Moringa.

Recently,  scientists  have  put  more  interest  on  the  role  of  this  plant  in  improving  male reproduction efficiency. Cabacungan (2008) reported that a steady diet of moringa fruit boost the sperm count of male thus, improving their chances of fertilizing an egg.  Interestingly, Serrano  M.  R  (2008)  reported  an  increase  in  sperm  count  in  male  mice  when  1% concentration  of moringa  ethanolic  leaf extract  was administered.  Cajuday  and Pocsidio, (2010) also observed that mice administered with high and medium dose of the plant extract had enhanced spermatogenesis.  This evidence was  supported by increase in testicular and epididymal weights as was confirmed in the report of Gonzales (2001).

On  the  other  hand,  Gongronema  latifolium  of  the  family  asclepiadaceae  is  a  tropical rainforest plant primarily used as spice and vegetable and in traditional folk medicine. It is commonly called Utazi by the Igbo tribe in South Eastern of Nigeria. (Ugochuku et al., 2003; Ugochuku and Babady, 2002).  Phytochemical screening of the ethanolic extract of the plant shows that the root contains poly-phenol in abundance, Alkanoids, glycosides and reducing sugars  in moderate  amounts  (Antai  et al.,  2009).  Other  chemicals  such as B-sistosterol, lupenylester, pregnane ester and essential oil were found in the plant extracts as reported by Ekundayo  (1980).  Atawodi,  (2005)  also  reported  the  antioxidant  potentials  of  the  plant, which was confirmed by the report of Nwanjo et al. (2006). In addition, the plant is suggested to be able to mop up reactive  oxygen species in the system. According to Ugochuku and Babady (2002); and Ogundipe et al. (2003) ethanolic and aqueous extracts of the plant had hypoglycemic, hypolipidermic and antioxidant properties.

Evaluation of biochemical constituents of semen is an important criterion for assessing male fertility.  Biochemical  constituents  of  seminal  plasma  are  said  to  play  a  role  as  sperm metabolites, nutrition of ejaculated sperm and provision of protection to spermatozoa against proteinase inhibitors, which help in sperm capacitation and local immunosuppression (Pesch et al., 2005). Therefore, ensuring that the various major biochemical constituents of semen are available in there right proportions is an indication of semen quality.

1.2 Problem Statement

Turkey is one species of poultry that are bred exclusively by artificial insemination due to the differences in body weight between the male and female. Most times the male weighs twice more than the female, consequently the larger body sizes (weight) of the male accounts for poor mating ability.   Thus tom often spend more time preparing to  mate with the female, hence the female might lose interest or is weakened due to the long time spent by the male and this results in ineffective mating. Secondly, studies have revealed that turkey toms are

naturally clumsy during natural mating and as such when semen is released little or nothing is discharged into the vulva of the hen turkey as a result of the tom’s awkward mating skills and thus much of the semen is wasted. Unfortunately, the full potentials of artificial insemination technique in Nigeria have not been fully utilized and improvement in turkey production is limited by fewer numbers of experts in artificial insemination technique, particularly those working on local turkey production.

Furthermore, avian semen has been found to be rich in PUFA which put them under pressure of oxidative stress (Donoghue and Donoghue, 1997). The activity of antioxidant enzymes in turkey spermatozoa is lower compared to that of chicken and this makes turkey sperm more vulnerable to peroxidation (Aitken et al., 1999). In effect, an unsatisfactory egg fertility and hatchability due to the low quality semen of turkey constitutes a major problem for turkey breeders.  Also,  during  hatching  and  early  postnatal  period,  the  accumulation  of  PUFA- producing tissue makes it vulnerable to  peroxidation. In poultry, vitamin E (combine with selenium)  provides  protection  against lipid  peroxidation  especially  in turkey  semen,  this vitamins is effectively transferred both from the paternal and maternal system to the egg yolk and further to the developing embryo (Surai, 2002).

The biochemical constituents such as fructose, potassium and sodium of semen are important for sperm  fertility  and deviation  from normal  values  or proportion  of these  biochemical components  in seminal plasma may result to low or male infertility  (Cevik  et al., 2007). Handler and Bulos(1965) reported that fructose serves as fuel supply for sperm cells, and in the absence of fructose infertility would occur. In general, deviation from normal values of biochemical components in seminal plasma is correlated with male infertility (Cevik et al.,

2007).  The  present  study  was  designed  to  determine  the  effects  of  M.  oleifera  and  G. latifolium leaf meals in turkey toms’ diets on semen quality, biochemical parameters and egg hatchability of local turkeys.

1.3  Objectives of the Study

The main objective of the study is to determine Semen Quality and Egg Hatchability in Local Turkey Fed Diets Containing Moringa Oleifera and Gongronema Latifolium Leaf Meals.

Specifically this study seeks to:

i.         Determine the effects of Moringa oleifera and Gongronema latifolium on daily body weight of turkey toms.

ii.        Evaluate the effects of Moringa oleifera and Gongronema latifolium on semen quality parameters.

iii.       Determine the fertilizing capacity of the spermatozoa obtained from the treated toms on hatchability of eggs laid by inseminated hens.

iv.       Determine the concentration of some biochemical constituents of turkey semen and correlate them with some notable semen quality parameters.

v.        Correlate body weight of the treated toms with their semen quality parameters.

1.4 Justification

The greatest achievement  of every producer in the poultry industry is to maintain  breeder males capable of producing viable spermatozoa that can fertilize eggs which will hatch with minimum mortality. However, the numbers of hatched eggs is dependent on the quality and quantity  of  the  spermatozoa,   thereby  determining  the  profitability   of   the  production. Unfortunately, reproductive efficiency in turkey has been compromised due to emphasis on high body weight during genetic improvement. Artificial insemination therefore, has become the  most  effective  and  widely  used  techniques  in  turkey  production  and  for  causing reproductive  improvement  in most  farm animals. The success of artificial insemination  is directly dependent on the  quality of semen output and appropriate handling procedures to sustain the fertilizing potential of the spermatozoa. In Nigeria, the turkey industry has not yet utilized the high reproductive potentials offered by artificial insemination, as a major tool to improve and optimize the genetic potential of the local breeds and eliminate the reproductive challenges in turkey production.

The practice of using drugs or hormones to enhance reproductive efficiency in poultry has been questioned  in many areas because of their cumulative  negative health effects  in the animal as well as their products (meat and egg) meant for human consumption. Alternative measures are now being recommended for improving reproduction in farm animals through the  application  of  organic  extracts  of  plant  components  (leaf,  seeds,  stem  and  root) administered through feed or water. Most recently, some available underutilized plants have been proved to have nutritional,  medicinal  and  therapeutic  properties  which can improve semen  quality,  fertility  and  even  hatchability  of  the  turkey  eggs.  Moringa  oleifera  and Gongronema latifolium contain nutrients, vitamins, minerals, some beneficial phytochemicals and antioxidants which are known to stimulate growth and improve reproductive efficiency in humans and animals. The plants have been used as natural feed additives and have generally been proven to be effective  and non-toxic  when consumed  by humans and animals.  It  is against this background that this research was conducted.


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