TABLE OF CONTENTS
Title
page———————————————————————— —- i
Certification
——————————————————————– —- ii
Dedication
———————————————————————- —- iii
Acknowledgment————————————————————— —- iv
Table
of Contents ————————————————————— —- v
List
of Tables ——————————————————————- —- vii
Abstract ———————————————————————— —- viii
CHAPTER ONE: INTODUCTION
1.1 Background of the Study ————————————————— —- 1
1.2 Objectives of the Study—————————————————– —- 4
- Justification—————————————————————– —- 4
CHAPTER
TWO: LITERATURE REVIEW
2.1 Some Common Diseases of Poultry.—————————————- —- 6
2.1.1 New Castle Disease:——————————————————- —- 6
2.1.2 Infectious Bursal Disease (Gumboro
Disease):—————————
—- 9
2.1.3
Fowl Pox—————————————————————— —- 11
2.2 Vaccines and Vaccination————————————————— —- 12
2.3 The Importance of Vaccination——————————————— —- 13
2.4 Deciding Whether or not to Vaccinate ————————————- —- 14
2.5 Types of Vaccines: ———————————————————- —- 15
2.6 Administration————————————————————– —- 16
2.7 Types of Vaccination Programmes—————————————— —- 18
2.8 Tips For Successful Vaccination ——————————————– —- 20
2.9 Vaccine Distribution——————————————————– —- 21
2.10 Factors Which Interfere With Vaccine
Efficacy————————–
—- 21
CHAPTER
THREE: MATERIALS AND METHODS
3.1
Location and Duration of the Study————————————— —- 25
3.2 The Experimental Animals.———————————————— —- 25
3.3 General sanitation and Health measures———————————— —- 26
3.4 Experimental Design:——————————————————– —- 26
3.5 Data Collection Analysis—————————————————- —- 27
3.6 Analysis of Data————————————————————- —- 31
CHAPTER
FOUR
Results————————————————————————– —- 32
CHAPTER
FIVE
Discussion———————————————————————- —- 37
CHAPTER
SIX
Summary Conclusion and Recommendation———————————— —- 39
References———————————————————————– —- 41
Appendices
LIST OF
TABLES
Table
1: The vaccination programme for common diseases of poultry…………………. 19
Table
2: The day of vaccination and the treatments used………………………………….. 20
Table
3: Weekly live body weight of broiler subjected to varying vaccination
Schedule………………………………………………………………………………………….. 32
Table
4: Mean of daily live weight gain of broilers subjected varying vaccination
Schedule………………………………………………………………………………………….. 33
Table
5: Weekly shank length of broilers subjected to varying vaccination
Schedule………………………………………………………………………………………….. 34
Table
6: Mean daily shank length gain of broilers subjected to varying
vaccination schedule………………………………………………………………………….. 35
Table
7: Mortality rates of broilers subjected to different vaccination schedule……. 35
Table
8: Mean values for blood parameters of broilers subjected to different
vaccination
schedules…………………………………………………………………………………… 36
ABSTRACT
This study was conducted to find the effect of the delayed routine vaccination schedules on growth performance, blood parameters and immunity levels of broilers reared in a humid tropical part of Nigeria. A total of 90 broiler chickens were procured and sorted into three treatments (control, 1 week delay in vaccination and 2 weeks delay in vaccination). The results showed significant differences (P < 0.05) in all growth parameters studied with lower values for broilers with delayed vaccination schedules (Treatment 2 and 3). Shank length and gains in shank length were not significantly (P>0.05) affected by delayed vaccination schedule. The blood parameters (PCV and WBC) values were significantly (P<0.01) lower in birds whose vaccination schedule was delayed for two weeks, (Treatment 3) compared to other treatments while immunity levels were significantly (P<0.01) lower in Treatment 3 compared to Treatments 2 and 1 respectively. It was concluded that delayed vaccination schedule of up to two weeks considerably affected growth performance and immunity status of broilers.
CHAPTER ONE
INTRODUCTION
1.1 Background of the study
The
poultry industry in Nigeria
is characterized by a mixture of backyard, peasant, household-oriented and
modern large scale poultry farms which dot our country side and urban centres
today. It can be said that poultry keeping has become a business in Nigeria since Poultry is now kept by practically
every household in Nigeria
especially in rural communities (Obioha 1992). Broilers are meat type chickens
that reach market size at about 8-10 weeks of age. Nearly 80% of all commercial
chicks hatched in Nigeria
are broilers (Bundy et al 1975).
Poultry occupies a unique position in Nigeria animal
production programme for several reasons. The most important of these is the
fact that poultry are relatively free from the many pathological, ecological
and economic constraints which affect the commercial production of other breeds
and classes of livestock in Nigeria
(Obioha 1992). The occurrence of disease in a poultry flock is a serious event
and one that causes a lot of anxiety to a poultry farmer due to the fact that
most commercial poultry are reared intensively with a large number of birds
occuping a relative small area, a disease can spread rapidly among the whole
flock causing a high level of mortality and huge financial loss to the farmer.
The prevention of disease therefore is a decisive factor to the success or
failure of a poultry enterprise. Diseases of poultry can be caused by four
major factors namely: pathogens, poor management, deficiency of nutrients and
metabolic disorders. Most poultry diseases are brought about by the presence of
one or more pathogens or causative organisms. These organisms are always
present in any poultry environment but they attain a virulent stage when the
resistance of the chicken is low due to internal or external stress. The stress
condition may be created by mismanagement, transportation, handling, internal
parasite or even excessive excitement (Obioha 1992). The infectious organism
may also gain easy access to the tissue of the birds following wound that may
be cause by cannibalism. Some of the common sources of stress are lack of feed
and water, poor ventilation, inadequate floor space, poor sanitation, high
internal and external parasitic load, extremes of weather, vaccination failure,
sudden changes in feed or environment, pests, flies, ants, nutritional
deficiencies etc.
Apart
from encouraging the invasion of pathogens, bad management may cause disease
directly. Examples of bad management are over crowding, poor ventilation,
failure to vaccinate at the right time, failure to remove dead birds promptly,
failure to remove droppings regularly leading to accumulation of ammonia and
breeding site of pathogens and parasites, cannibalism, uncontrolled access of
visitors to poultry farms and absence of
disinfectant troughs or dips.
Poultry
disease maybe caused by lack of or deficiency of one or more essential
nutrients. This is why poultry feeds should be balanced. Where one element is
deficient or excessive it can induce or cause the body to show symptoms
relevant to such deficiency or excessesive availability of the nutrient. A group of diseases may be caused by
faulty metabolic process in the body. These include the fatty liver
syndrome. Animal diseases are important limitation to edible protein
production. It is the goal of veterinary medicine to reduce losses due to
animal diseases and in cooperation with animal scientists, to develop positive
live stock /poultry health programme (Oyenuga et al 1973).
Vaccination of poultry is very
important disease prevention programme in poultry farming. Vaccines have
varying expiration dates, depending on the storage temperature and nature of production.
The expiration date is based on holding the vaccine under optimum conditions,
frequently involving refrigeration. Vaccines that are expired have lost part of
their antigenic properties and are ineffective as immunizing agents.
Vaccination of poultry animals are programmed based on age of birds and are
administered based on age and body weight. Although vaccination is an important
weapon in the control of many livestock diseases, the immunity produced is
overcome by massive exposure of birds to infection, by moderate contact with a
highly virulent strain of the infecting agent or by stress, e.g. poor
environment conditions.
Moreover
it is not the purpose of a vaccine to protect an animal that is inoculated
while in the incubation stage of a disease. Vaccination should not be
considered as a panacea in disease control. It should be supplemented with
sanitary measures designed to prevent the introduction and spread of disease.
Some poultry diseases can not be treated properly by medication but can be
controlled by vaccination; therefore vaccination of poultry against certain
diseases and at the right timing help in proper growth rate as well as reduced
morbidity and mortality in the flock. Evidence has shown that there are delayed
vaccination programmes for broilers reared by some farmers in remote villages
or farmers that rear their birds in locations where veterinary care is limited
or non existent; that is why this research is aimed at knowing the effect of
those delayed vaccination on growth and mortality rate of affected birds.
1.2 Objectives of the
Study
EFFECTS OF DIFFERENCE TIMING OF ROUTINE VACCINATION SCHEDULES ON GROWTH PERFORMANCE, MORTALITY RATE AND BLOOD PARAMETERS OF BROILERS
