The Behavioral Preferences and Performance of Female Broilers under Unevenly Distributed Yellow LED Lights with Various Intensities

Abstract. Light-emitting diode (LED) light sources show a high potential for replacing traditional incandescent lamps in broiler production facilities. LEDs offer clear advantages in energy efficiency. However, the application of LED technology to broiler production is restricted because of the absence of research about its uneven distribution of light intensity and subsequent impacts on broilers. This study investigated the effect of unevenly distributed yellow LED lights with different light intensities on the behavioral preferences and performance characteristics of female broilers. Four pens were developed to provide two unevenly distributed lighting environments with maximum light intensities (MLIs) of 90 and 60 lx in a study including replicates. Each pen consisted of four subzones characterized by their light intensity, including three subzones of high intensity (HI), medium intensity (MI), and low intensity (LI) in the lighting area (LA) and one non-lighting area (NA). Thirty female broilers were reared in each pen and were free to eat, drink, and stay in any subzone. No significant difference between the 90 and 60 lx experimental groups was found in feed conversion ratio (FCR), body weight (BW), uniformity, or growth ratio. The birds in both groups tended to drink water (p

[1]  S F Bilgili,et al.  Effect of light intensity and photoperiod on live performance, heterophil-to-lymphocyte ratio, and processing yields of broilers. , 2007, Poultry science.

[2]  J. Feddes,et al.  Growth, body composition, and plasma androgen concentration of male broiler chickens subjected to different regimens of photoperiod and light intensity. , 1992, Poultry science.

[3]  T G Crowe,et al.  Effect of light intensity on broiler production, processing characteristics, and welfare. , 2010, Poultry science.

[4]  G S Davis,et al.  The effect of light duration on turkey poult performance and adrenal function. , 1985, Poultry science.

[5]  B. L. Nielsen,et al.  Effects of qualitative and quantitative feed restriction on the activity of broiler chickens , 2003 .

[6]  W. B. Roush,et al.  A Review of Lighting Programs for Broiler Production , 2006 .

[7]  F. Robinson,et al.  Effects of increasing photoperiod length on performance and health of broiler chickens. , 1991, British poultry science.

[8]  Z. Wang,et al.  Effect of combinations of monochromatic lights on growth and productive performance of broilers. , 2012, Poultry science.

[9]  R C Newberry,et al.  Influence of light intensity on behavior and performance of broiler chickens. , 1988, Poultry science.

[10]  W. C. Skoglund,et al.  Light Intensity Studies with Broilers , 1962 .

[11]  T. R. Morris,et al.  Poultry and coloured light , 2000 .

[12]  T. S. Samarakone,et al.  Preference of Broiler Chicken for Different Light Colors in Relation to Age, Session of the Day and Behavior , 2012 .

[13]  J. A. Renden,et al.  Research Note: Comparison of Restricted and Increasing Light Programs for Male Broiler Performance and Carcass Yield , 1993 .

[14]  G. Archer,et al.  The effect of light intensity on the behavior, eye and leg health, and immune function of broiler chickens. , 2009, Poultry science.

[15]  C. J. Savory,et al.  Broiler growth and feeding behaviour in three different lighting regimes , 1976 .

[16]  Jean-Marie Aerts,et al.  Modelling the dynamic activity of broiler chickens in response to step-wise changes in light intensity , 2006 .

[17]  C. Manser,et al.  Effects of Lighting on the Welfare of Domestic Poultry: A Review , 1996, Animal Welfare.

[18]  O. Halevy,et al.  The effect of a green and blue monochromatic light combination on broiler growth and development. , 2004, Poultry science.

[19]  G. Collier,et al.  Feeding Behavior of Chicks under Three Lighting Regimens , 1979 .

[20]  H. L. Classen,et al.  Day length affects performance, health and condemnations in broiler chickens. , 2004 .

[21]  E. Moran,et al.  Lighting programs for broilers that reduce leg problems without loss of performance or yield. , 1996, Poultry science.

[22]  J. Buyse,et al.  Diurnal-nocturnal changes in food intake, gut storage of ingesta, food transit time and metabolism in growing broiler chickens: a model for temporal control of energy balance. , 1993, British poultry science.

[23]  H. H. Kristensen,et al.  The behaviour of broiler chickens in different light sources and illuminances , 2007 .

[24]  W. D. Weaver,et al.  Photoperiodism as a factor in feeding rhythms of broiler chickens. , 1968, Poultry science.

[25]  Yibin Ying,et al.  Effect of light color on growth and waste emission of broilers. , 2012 .

[26]  K. Schwean-Lardner,et al.  effect of day length and increasing day length programs on broiler welfare and performance , 2013 .

[27]  H. Blokhuis,et al.  The Relevance of Sleep in Poultry , 1983 .

[28]  O. Halevy,et al.  The effect of monochromatic light on broiler growth and development. , 1999, Poultry science.

[29]  R C Newberry,et al.  Light intensity effects on performance, activity, leg disorders, and sudden death syndrome of roaster chickens. , 1986, Poultry science.

[30]  C. Sherwin,et al.  Light intensity preferences of domestic male turkeys , 1998 .

[31]  M. Dawkins From an animal's point of view: Motivation, fitness, and animal welfare , 1990, Behavioral and Brain Sciences.

[32]  H. H. Kristensen,et al.  Leg health and performance of broiler chickens reared in different light environments , 2006, British poultry science.

[33]  B. Robinzon,et al.  Effect of light source and regimen on growing broilers. , 1999, British poultry science.

[34]  C. Savory,et al.  A comparison of the feeding behaviour of young broiler and layer males. , 1974 .

[35]  Gm Morello,et al.  Performance and Preference of Broiler Chickens under Different Light Sources , 2012 .

[36]  M B Timmons,et al.  The effects of light intensity on turkey poult performance, eye morphology, and adrenal weight. , 1984, Poultry science.

[37]  Christopher M. Wathes,et al.  Light, Vision and the Welfare of Poultry , 2003, Animal Welfare.

[38]  Davis Nj,et al.  Preferences of growing fowls for different light intensities in relation to age, strain and behaviour , 1999 .

[39]  Sacit F. Bilgili,et al.  The Effects of Photoperiod Length, Light Intensity, and Feed Energy on Growth Responses and Meat Yield of Broilers , 2006 .

[40]  S. Kestin,et al.  The effect of photoperiod:scotoperiod on leg weakness in broiler chickens. , 1999, Poultry science.

[41]  T. M. Widowski,et al.  Hens' preferences for high-intensity high-pressure sodium or low-intensity incandescent lighting , 2000 .

[42]  F. Boshouwers,et al.  Artificial light sources and their influence on physical activity and energy expenditure of laying hens. , 1993, British poultry science.

[43]  G. Alvino,et al.  Behavioural time budgets of broiler chickens reared in varying light intensities , 2009 .