PHYSIOLOGICAL RESPONSE OF BROILER BIRDS TO ORAL SUPPLEMENTATION WITH ALOE VERA AND NEEM LEAVE EXTRACTS

ABSTRACT

Two hundred and forty 14-day old broiler birds were used in a study conducted to investigate the physiological  response  of boiler birds to oral supplementation  with aloe vera gel  and neem leaf extracts. In experiment one, one hundred and twenty 14- day old broilers were used to assess the physiological response of the broiler birds to oral supplementation with alovera gel extract, while in experiment two, one hundred and twenty 14- day old broilers were used to  assess the physiological response of the broiler birds to oral supplementation with neem leaf extract. The birds of both sexes were randomly allotted into five treatment groups of 24 birds each in a completely randomized design (CRD) in both experiments. Treatments 1, 2, 3, 4, and 5 received ordinary water, Vitaltye,  10, 20, and 30% of each of the two  extracts, respectively. Results obtained in experiment one showed that there were significant (p<0.05) differences in final body weight, feed conversion ratio, average cost/kg gain and mortality rate.  Birds on T4(20%AVGE) had the lowest feed conversion ratio(3.09) and lower average cost  of  feed  per  kg  gain(N308.67)  than  others  with  feed  conversion  ratio  [  T1(3.36), T2(3.46),T3(3.21)  and  T5(3.18),  and  average  cost  of  feed  per  kg  gain  [T1((N336.33), T2(N345.67), T5(N317.66), respectively. There were significant (p<0.05)differences  among treatments     in  packed  cell  volume,  red  blood   cells,  hetrophil,  lymphocyte,  moncyte, eosnoohil, and basophil.  There were also   significant (p<0.05) differences among treatments in  crude  protein,  ether  extract    and    nitrogen  free  ether  retained;  significant  differences existed among treatments in total protein, albumin globulin, glucose, creatine, cholesterol and calcium.  Live body weight,  dressed weight (%LW), head, gizzard, empty gizzard, shank, heart, liver, kidney, abdominal fat, lungs, and large intestine were significantly affected by treatments.  However,  there were no significant  (p<0.05)  differences  among treatments  in average  daily weight gain, average daily feed intake, daily water intake, protein efficiency ratio, white blood cell, dry matter retained, dressed weight(kg), and  small intestines. Birds that received neem leaf extract (T4 and T5) showed progressive increase in final body weight (3.42kg  and  3.70kg,  respectively)  compared  to  the  control  (3.14kg)  and  T2  [(vitalyte) (3.39kg)].   Birds on T5(30%NLE)  had the lowest  feed conversion  ratio(2.85)  and lower average cost of feed per kg gain(N284.67) than others which had   feed conversion ratio of

3.48 (T1), 3.21 (T2), 3.29 (T3) and 3.15 (T4), and average  cost of feed per kg gain  as

follows:T1(N347.67),   T2(321.00),  and     T4(N315.33).   There  were  significant   (p<0.05) differences among treatments in packed cell volume, red blood cells, hetrophil, lymphocyte, moncyte,  eosnoohil,  and  basophil.  Significant  differences  (p<0.05)  also  existed  between treatments in the apparent retentions of crude protein, ether extract and nitrogen free ether, and in total protein, albumin, globulin,  glucose, cholesterol  and  calcium. There were also significant  (p<0.05)differences  among treatments   in live   weight, dressed weight(%LW), head, gizzard, empty gizzard, shank, heart, liver, kidney, abdominal fat, lungs, large intestine and    small  intestine.  However,  there  were  no  significant  (p<0.05)  differences  among treatments in average daily feed intake, total  water intake, dry matter retained, and serum creatine. Results showed that the levels of aloe vera gel and neem leaf extracts used in the present  study  enhanced  the  growth  performance  of  broiler  birds,  especially  at  20%  and  30% inclusions.

INTRODUCTION

1.1 BACKGROUND OF THE STUDY

Poultry  is on  the  fastest  means  to achieving  appreciable  improvement  in the  nutritional standard of the populace  because of its short generation  interval, quick  turnover rate and relatively low capital investment (Smith, 2001; Ani and Okeke, 2011)

Nutrition  is the  most  important  consideration  in any livestock  enterprise.  Its  survival  is dependent on the availability of feedstuffs, which are mainly components of human food. The unavailability  of grains and the high cost of imported ingredients  have made  the price of commercial animal feed to increase over 300%. These problems remain the most important constraints to the expansion of commercial poultry production in Nigeria.

The high cost of conventional  feedstuff has already sent a lot of livestock farmers out  of business, thus leading to reduction in overall animal protein production and availability for humans dietary’s need. The provision of feed alone has been reported to account for 60-80% of total cost of livestock  production  in developing  countries alone  (Igboeli, 2000; Esonu,

2006).  In view of this, there is increased interest by poultry farmers on the search for non conventional  feed ingredients  that could be cheaper such as leaf and seed meals  of  ethno medicinal  plants  (Okoli  et al., 2001,  2002).  The  use of various  plant  extracts  in broiler production has been documented (Essien et al; 2007; Nworgu et al 2007; Galib and Noor,

2010). One way is to look for alternative source of feed supplement that is not only cheap and could boost the growth of chickens but organic and readily available.

In an effort  to develop  new feedstuff  for animal  feeding,  a number  of researchers  have investigated  the proximate  composition  of neem seed cake (Bawa  et al., 2006;  Uko and Kamalu, 2001),  leaf meal (Oforjindu, 2006; Esonu et al., 2005, 2006; Ogbuewu et al., 2010a, b) and its use as feedstuff in poultry (Esonu et al., 2005; Oforjindu, 2006; Uko and Kamalu,

2007)  and rabbits  (Sokunbi  and Egbunike,  2000a;  Ogbuewu,  2008).  Result  of  proximate analysis  of neem showed  that of had 92.42% dry matter, 7.58% moisture,  20.68% crude protein, 16.60% crude fibre, 4.13% ether extract, 7.10% ash and 43.91% nitrogen free extract (Esonu et al., 2005; Oforjindu, 2006; Ogbuewu, 2008).

Neem cake has also been widely used as animal feed (Bawa et al., 2006; Uko and 2007). Despite the bitter components, poultry consume diets containing varied percentage of neem

cake. Alkali treatment of neem cake with caustic soda yields palatable product, by removing the toxicant triterpenoids (Devakumar and Dev, 1993). Nagalakshmi et al. (1996) and Verma et al. (1998) reported beneficial effect of alkali treated (10-20 g NaOH) neem kernel cake incorporated  into  poultry  feeds.  It  resulted  to  an  increased  feeding  value  and  protein utilization with spectacular growth. However, no significant difference was observed among the different dietary groups in feed intake, egg production, egg quality, fertility, hatchability and chick weight (Nagalakshmi et al., 1996; Verma et al. 1998).

Neem oil and de-oiled neem seed cake are used as animal feed. Neem oil which is rich in long chain fatty acids is used in poultry feed. Deoiled neem seed cake is rich in  essential amino acids, crude proteins, fiber contents, sulphur and nitrogen (Uko and Kamalu, 2007

Aloe  vera  (Aloe  barbadensis)  belongs  to  the  family  of  lily;  It  is  spiky,  succulent,  and perennial. It is native to the eastern and southern part of Africa but it has spread throughout the warmer regions of the world like the Philippines. Physically, it is a short-stemmed plant that could grow from 80 to 100 cm tall, spreading by offsets and root sprouts. The leaves are lanceolate, thick and fleshy with thorny edges and with  color ranging from deep green to greygreen.

It is ubiquitous in almost every house garden and is either used as accents for landscaping or for its medicinal value. Since it is easy to grow and maintain, it is widely used as  natural ground cover or container. Aloe vera is not only a natural healer; it’s also a growth enhancer in poultry. Hearing that, one might think, it’s too good to be true. Essentially, the leaves of aloe vera are often for external uses only, they are not meant to be taken in. But with the study of Bejar and Colapo, it’s now clear that it’s safe for animal intake. Thus, it is important to know what’s in the aloe vera that makes it both a natural healer and a growth promoter in chickens.

Physically, the leaf of an aloe vera is composed of three layers. The first layer contains a clear  gel,  which  is  contained  within  the  cells  of  the  inner  portion.  Then  there  is  the anthraquinones  contained in the bitter yellow sap of the middle leaf layer  and the fibrous outer part of the leaf that serves a protective function.

The content of the aloe vera leaf is just 0.5 – 1.5% solid, with an average pH value of 4.55. This solid material contains over 75 different nutrients including vitamins and minerals.

Aloe  vera is rich in vitamins  and minerals.  Specific  vitamins  include:  Vitamin  A  (Beta- Carotene), Vitamin B1 (Thiamine), Vitamin B2 (Riboflavin), Vitamin B3 (Niacin), Vitamin B5, Vitamin B6 (Pyridoxine), Vitamin B12, Vitamin C, Vitamin E, Choline, and Folic Acid. The vitamins A, C, and E are responsible for the aloe’s antioxidant activity while vitamin B and choline  are involved  in amino  acid  metabolism and vitamin  B12 is required  for the production and development of blood cells.(source Rita dela cruz of www.bar.gov.ph)

Among  the important  minerals  found  in aloe vera are: calcium,  chromium,  copper,  iron, magnesium,  manganese,  potassium,  phosphorous,  sodium,  and  zinc.  These  minerals  are essential for good health and are known to work in synergistic combinations with each other,

with vitamins and other trace elements. . (source Rita dela cruz of www.bar.gov.ph

Aside from vitamins and minerals, aloe vera is rich with enzymes (help the breakdown of food sugars and fats), hormones (aid in healing and antiinflammatory activities), sugars (i.e. glucose  and  fructose  that  provide  antiinflammatory  activity),  anthraquinones or  phenolic compounds  (aid  absorption  from  gastro-intestinal  tract  and  have  antimicrobial  and  pain killing  effects),  lignin  (increases  the  blood  circulation),  saponins  (provide  cleansing  and antiseptic activity), sterols (antiseptic and analgesic), amino acids (basic building blocks of proteins in the production of muscle tissue), and salicylic acid (works as a pain killer)(source: T. Rita dela cruz of www.bar.gov.ph).

Although the use of various plant extracts in broiler production has been documented, there is paucity of information  on the growth and physiological  response  of broiler  birds to oral supplementation with aloe vera and neem leaves extracts.

1.2 STATEMENT OF PROBLEM.

Achieving maximum health and performance of poultry requires nutritionally balanced diets. One of the common issues with regard to back yard flocks relates to poor or  inadequate feeding  programs  that  can  lead  to  vitamin  and  mineral  deficiencies  in  the  birds.  Since vitamins  and  minerals  are  very  important  to  normal  physiological  functioning  of  birds, inadequate supply of these nutrients will pose a serious problem to birds. It is also costly to use commercial produced vitamins hence increasing the cost of poultry production.

1.3. OBJECTIVES OF THE STUDY.

The  study  aimed  at  determining  the  physiological   response  of  broiler  birds  to   oral supplementation with aloe vera and neem leaf extracts as supplementary sources of vitamins and minerals to broiler birds.

1.4 JUSTIFICATION OF THE STUDY.

As indicated above, vitamin and mineral deficiencies can produce numerous health problems for chickens including death in some cases. Thus, to prevent nutritional deficiencies, or to correct  when deficiency  symptoms  are noted, feeding  a balanced  poultry  ration  with the required vitamins and minerals should be practiced. Besides, oral administration of vitamins and minerals to birds is inevitable especially in the time of stress and outbreak of diseases. The use of aloe vera and neem leaves extracts in  broiler  production is a step in the right direction since they are of potential sources of these essential nutrients that are necessary for normal well being, growth and development of birds.

SPECIFIC OBJECTIVES

The study was to:

i.     Determine the effect of alovera gel and Neem leaf extracts on growth performance of broiler starter and finisher birds.

ii.      Determine the effect of alovera gel and Neem leaf extracts on mortality, blood and biochemical parameters of broiler starter and finisher birds.

iii.     Determine the effect of alovera gel and Neem leaf extracts on carcass yield and organ weights of broiler starter and finisher birds.

iv.      Determine the cost implication of oral supplementation with aloe vera and neem leaf extracts as supplementary sources of vitamins and minerals.

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