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Publication #VM176

Biosecurity for the Poultry Industry1

Gary Butcher and Mojtaba Yegani2

There has been tremendous growth in the global poultry industry over the past few decades. Some regions have reported a dramatic increase in the incidence of infectious disease outbreaks during this time of rapid expansion. In spite of the difficult challenges that the industry has been facing, poultry products (meat and eggs) still represent a major part of animal protein consumed by humans at the global level. Today's consumers are generally more health-conscious and react strongly to perceived safety issues associated with consumption of products of animal origin. Mad cow disease (BSE), avian influenza (AI) and salmonellosis are just a few examples of these contemporary concerns. In these days where the media tend to create hype rather than reporting the news, it is even more important to maintain a continuous vigilance to keep consumer confidence in poultry products.

Poultry Health Status

Maintaining the excellent health of poultry flocks is the primary objective of any producer since a healthy flock is usually a profitable flock. Despite all progress in prevention and control of infectious diseases, it is still difficult to keep a commercial poultry facility disease free. Commercial poultry farms continue to be affected by the emergence of new or variant disease agents. Diseases are generally responsible for mortality and reduced growth rate and egg production in poultry flocks. The end result of these diseases is reduced economic returns to producers. The emergence of new diseases and variants of existing diseases are becoming more common in the industry. Genetic changes in the microorganisms might have, in part, contributed to this situation. Similarly, genetic changes in the birds might have also altered their susceptibility or resistance to diseases. Global trading and traveling have made it difficult to keep diseases to limited areas or regions.

Complex Interactions

There are complex interactions among poultry, disease agents, and the environment. Factors directed at specific or non-specific immunity of the birds can affect their ability to resist disease if exposure to the agent occurs. Activities directed at the disease agents mainly influence the exposure of the birds to the agent. Environmental factors can also affect both the birds and the disease agent.

Current Situation

With the current tendency for regulatory agencies, in many parts of the world, to further limit the use of antibiotic growth promoters and therapeutic antibiotics, more effort must be directed to disease preventive strategies rather than use of pharmacologic treatments. There are different sources or methods that can introduce diseases into a farm or spread infections within or between farms. These include:

  • Human (employees, visitors)

  • Airborne transmission

  • Carrier birds within a flock

  • Birds in hospital/cull pen in a poultry house

  • Birds recently obtained from an outside flock

  • Forced-molted hens

  • Eggs from infected breeder flocks

  • Backyard, pet fowl, and wild birds

  • Pet animals, rodents, and insects

  • Live-bird markets

  • Contaminated feed and water

  • Contaminated vaccines

What Happens Next?

With the tendency for larger farms and with higher bird density, the above mentioned methods of disease spread can, directly or indirectly, contribute to dissemination of infectious agents. There could be severe losses following a disease outbreak or the emergence of a more pathogenic form of a given disease. Sub-optimal performance due to a disease can result in economic losses although there are no exact estimates of losses associated with diseases. Specific factors such as the virulence of the agent, the immune status of the flock, previous exposure to immunosuppressive agents or conditions, housing design, stocking density, and environmental conditions are all variables that can influence the extent of losses following a disease outbreak.

Biosecurity: An Old Concept

Biosecurity is a term frequently used in the poultry industry over the past decades. Many people believe that biosecurity only involves implementing a strict visitor control and farm cleaning program. In reality, a comprehensive biosecurity program includes many other components. In any commercial poultry operation, flock health must be excellent in order to achieve maximum profitability. Health status can often be directly correlated with the comprehensiveness of the biosecurity program implemented in an operation. It should also be noted that competence of the immune system of birds is of critical importance.

Biosecurity is the efficient use of common sense hygiene procedures in preventing the adverse effects of a disease. It can be defined as a set of management practices which, when followed, reduce the potential for the introduction or spread of disease agents onto and among site. In other words, biosecurity is an essential component of a disease control program in the poultry industry. Table 1 presents some of important considerations in designing a comprehensive biosecurity. Clearly, a biosecurity plan must be adapted for each operation because each operation usually has its own unique situations. There is no standard formula applicable to all poultry commercial farms.

A Comprehensive Biosecurity Program

When a disease outbreak occurs, people tend to point fingers at someone or something else as being responsible for introduction of the disease agent. This is definitely the wrong approach. Under these circumstances, everyone should make an effort to keep an open mind and to help investigate how the problem began in the first place. The objective is to solve the problem and not simply determine who was at fault. Problems need to be correctly diagnosed by all available means, otherwise they may recur in the next production cycle or on other farms within the company. The worst excuses that are often heard during a disease outbreak are “nobody told me that before” or “I did not know that”. Thus, it is imperative that all employees at all levels have a complete understating regarding the policy on the biosecurity program. It is recommended to make check-lists and ensure that training is on-going, even when times are good and no diseases are present.

A biosecurity program should be applied with the same intensity to all sectors of a company. It must be practical and easily understood by everyone within the company. Complicated biosecurity programs, which are not easy to implement, will fail. Consistency in following biosecurity rules throughout the year (i.e. production cycle) is very important. Biosecurity program implementation comes at little cost when compared to the costs associated with a disease outbreak. Biosecurity is a necessary expense and can make a difference between success and failure in a poultry operation (Photos 1, 2, 3, 4).

Figure 1. 

Torn shoe covers.


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Figure 2. 

Leaking drinkers and wet litter.


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Figure 3. 

Broken fans and buildup of dust.


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Figure 4. 

Mortality not promptly removed.


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A Few Examples

Avian Influenza

This disease has caused problems for birds and, in rare instances, humans. The disease is being found in more regions around the globe and is even endemic in the poultry industries in several countries. Outbreaks of avian influenza over the past 10 years indicate that current levels of biosecurity in different parts of the world are inadequate to limit dissemination of this disease.

Infectious Bursal Disease (IBD)

IBD continues to be one of the most important diseases of poultry, with high rates of morbidity and mortality. This disease can be controlled by routine vaccination and a solid biosecurity program. Inadequate control programs including biosecurity measures will not only increase the risk of IBD but also open the door to many other diseases such as Marek's disease.

Newcastle Disease and Infectious Bronchitis

Newcastle disease (NDV) continues as a major problem in different parts of the world. Protection of flocks against NDV requires a solid biosecurity and vaccination program. In many intensive broiler and egg production regions, variants of infectious bronchitis virus (IBV) have emerged causing respiratory infections in broilers, decreased egg production and degraded shell quality in breeders and commercial layer flocks.

Concluding Remarks

In commercial integrations, poultry diseases occur separately or in combination with other infectious agents and management problems. Immunosuppressive infections with agents such as infectious bursal disease, chicken infectious anemia and Marek's disease predispose flocks to the effects of respiratory viruses such infectious bronchitis, Newcastle disease and infectious laryngotracheitis. Opportunistic bacteria including virulent E. coil, often complicate these infections. The fight against these agents will be an on-going effort and biosecurity measures must be the first line of defense in this battle. In spite of strict control measures, no one can guarantee that everything will always go as planned. It really does not matter how comprehensive your biosecurity measures are on paper, but rather whether the program is implemented correctly in farms. It is often said that a comprehensive biosecurity program that is properly implemented will not eliminate the possibility of disease but will reduce the probability. When a disease outbreak occurs, this generally indicates that there has been a breakdown in the program's implementation. As the industry continues to develop and become even more competitive, it is clear that a solid biosecurity program is essential for a company to survive and remain profitable in the poultry business.

Tables

Table 1. 

Some important factors to consider in designing a biosecurity program

Farm location

Backyard poultry

Down time

Farm design

Houses, equipment, vehicle cleaning procedures

Repairs and maintenance of facility

Traffic control (people, vehicles)

Cleaning and disinfecting products

Health status of flock

Alert signs

Water quality and sanitation

Nature of disease agents

Sign-in/sign-out log book

Feed quality and sanitation

Mechanisms of disease transmission

Carwash

Sanitation of feeding and watering systems

Bird immune system competence

Shower

Mortalities/culls disposal

Vaccination

Hand sanitizer

All-in All-out practice

Medication

Coverall and boots

Mixed types of fowl

Monitoring programs

Wild birds/rodents/pet animal

Litter management

 

Footnotes

1.

This document is VM176, one of a series of the Veterinary Medicine-Large Animal Clinical Sciences Department, UF/IFAS Extension. Original publication date December 2008. Reviewed June 2015. Visit the EDIS website at http://edis.ifas.ufl.edu.

2.

Gary D. Butcher, professor and poultry veterinarian, College of Veterinary Medicine; and Mojtaba Yegani, poultry veterinary consultant, Department of Agricultural, Food and Nutritional Science, University of Alberta, Edmonton, AB; UF/IFAS Extension, Gainesville, FL 32611.


The Institute of Food and Agricultural Sciences (IFAS) is an Equal Opportunity Institution authorized to provide research, educational information and other services only to individuals and institutions that function with non-discrimination with respect to race, creed, color, religion, age, disability, sex, sexual orientation, marital status, national origin, political opinions or affiliations. For more information on obtaining other UF/IFAS Extension publications, contact your county's UF/IFAS Extension office.

U.S. Department of Agriculture, UF/IFAS Extension Service, University of Florida, IFAS, Florida A & M University Cooperative Extension Program, and Boards of County Commissioners Cooperating. Nick T. Place, dean for UF/IFAS Extension.