Estimating the impact of environmental conditions on hatching results using multivariable analysis

Hatching results are directly related to environmental and biological surroundings. This research study aimed at evaluating the influence of incubation environmental conditions on hatchability and one-day-old chickling quality of five production flocks using multivariable analysis tool. The experiment was carried out in a commercial hatchery located in the state of Sao Paulo, Brazil. Environmental variables such as dry bulb temperature, relative humidity, carbon dioxide concentration, and number of colony forming units of fungi were recorded inside a broiler multi-stage setter, a hatcher after eggs transference, and a chick-processing room. The homogeneity of parameter distribution among quadrants inside the setter, the hatcher, and the chick room was tested using the non-parametric test of Kruskal-Wallis, and the fit analysis was applied. The multivariate analysis was applied using the Main Component Technique in order to identify possible correlations between environmental and production parameters. Three different groups were identified: the first group is represented by temperature, which was positively correlated both with good hatchability and good chick quality; the second group indicates that poor chick quality was positively correlated with air velocity and relative humidity increase. The third group, represented by carbon dioxide concentration and fungi colonies forming units, presented strong positive association with embryo mortality increase.

[1]  Eddy Decuypere,et al.  Embryonic developmental plasticity of the chick: increased CO(2) during early stages of incubation changes the developmental trajectories during prenatal and postnatal growth. , 2006, Comparative biochemistry and physiology. Part A, Molecular & integrative physiology.

[2]  B Kemp,et al.  Effect of egg size on heat production and the transition of energy from egg to hatchling. , 2006, Poultry science.

[3]  B De Ketelaere,et al.  Effects of egg storage time on spread of hatch, chick quality, and chick juvenile growth. , 2003, Poultry science.

[4]  A. Castro,et al.  AVALIAÇÃO DAS CONDIÇÕES SANITÁRIAS DE INCUBATÓRIO DE PINTOS DE CORTE , 2002 .

[5]  J. Mauldin Factors Affecting Hatchability , 2002 .

[6]  M. Meireles,et al.  INCIDÊNCIA DE FUNGOS NA PRODUÇÃO DE PINTOS DE CORTE DE UM DIA DE IDADE , 2001 .

[7]  N A French,et al.  Modeling incubation temperature: the effects of incubator design, embryonic development, and egg size. , 1997, Poultry science.

[8]  E. Decuypere,et al.  Incubation temperature as a management tool: a review , 1992 .

[9]  H. R. Wilson,et al.  Physiological requirements of the developing embryo: temperature and turning. , 1990 .

[10]  I. Robertson Studies on the effect of humidity on the hatchability of hen's eggs I. The determination of optimum humidity for incubation , 1961, The Journal of Agricultural Science.

[11]  K. D. Macdonald,et al.  The genetics of Aspergillus nidulans. , 1953, Advances in genetics.

[12]  R. Smythe A Disease of Poultry , 1913 .