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Comparison of Three Temperatures for the Hatching Phase in the Artificial Incubation of Red-legged Partridge (Alectoris rufa) Eggs

ABSTRACT

This study aimed at investigating the effects of three incubation temperatures during the hatching period on egg weight loss, hatchability, chick weight at hatching and length of the incubation period of red-legged partridge (Alectoris rufa) under artificial incubation. One hundred and fifty eggs obtained from a red-legged partridge game farm were randomly allocated to three batches of 50 eggs each. Eggs were incubated at 37.8ºC during the first 20 days, and subsequently at 37.0, 37.4 or 37.8ºC until hatching. Fertility was 74.7% and a good hatching performance was obtained, characterized by 85.7% hatchability, 9.1% egg weight loss after 20 days of incubation, 13.8±0.1 g chick weight at hatching, and 23.2±0.1 days incubation length. Hatchability, egg weight loss after 20 days of incubation, and length of the incubation period were not affected by incubation temperature during the hatching period. However, hatching synchrony improved when the incubation temperature was increased from 37.0 to 37.8°C (p<0.05). Thus, hatching distribution became very leptokurtic and very positively skewed with the increase in incubation temperature during the hatching phase. In conclusion, higher hatching synchrony can be achieved in A. rufa when setting temperatures within the range 37.0 to 37.8ºC to incubate eggs during the hatching period. Consequently, incubation temperature management during the hatching phase may have a direct impact on hatching synchrony and hatchling management.

Keywords:
Game farming; hatching synchrony; incubation temperature; red-legged partridge

Introduction

In order to provide birds to restock hunting reserves, the red-legged partridge (Alectoris rufa) is reared in several Mediterranean countries (mainly Spain, Portugal, France, and Italy), which has led to a well-developed subsector of game farms (Sánchez García-Abad et al., 2009Sánchez García-Abad C, Alonso ME, Prieto R, González V, Gaudioso VR. Una visión sobre la avicultura para la producción de caza en España. ITEA-Información Técnica Económica Agraria 2009;105:169-183.; González-Redondo et al., 2010González-Redondo P, Delgado-Pertíñez M, Toribio S, Ruiz FA, Mena Y, Caravaca FP, Castel JM. Characterisation and typification of the red-legged partridge (Alectoris rufa) game farms in Spain. Spanish Journal of Agricultural Research 2010;8:624-633.). One of the keys of red-legged partridge farm productivity is egg handling and incubation, which have been recently being investigated to review and improve empirical farmer's practices (González-Redondo & De la Rosa Sánchez, 2009González-Redondo P, De la Rosa Sánchez S. Efecto de la duración de la fase de volteo de los huevos de perdiz roja (Alectoris rufa) durante la incubación sobre la tasa de eclosión. ITEA-Información Técnica Económica Agraria 2009;105:291-295.; González-Redondo, 2010González-Redondo P, Delgado-Pertíñez M, Toribio S, Ruiz FA, Mena Y, Caravaca FP, Castel JM. Characterisation and typification of the red-legged partridge (Alectoris rufa) game farms in Spain. Spanish Journal of Agricultural Research 2010;8:624-633.; Gómez-de-Travecedo et al., 2014aGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of storage temperature and length of the storage period on hatchability and performance of red-legged partridge (Alectoris rufa) eggs. Poultry Science 2014a;93:747-754., 2014bGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of pre-storage incubation of red-legged partridge (Alectoris rufa) eggs on hatchability and incubation length. International Journal of Agriculture and Biology 2014b;16:513-520., 2014cGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of the time to change from incubation to hatching temperature on the artificial incubation of red-legged partridge (Alectoris rufa) eggs. Spanish Journal of Agricultural Research, 2014c;12:727-731.). However, several aspects of the artificial incubation of A. rufa eggs still need to be scientifically evaluated.

In particular, incubation temperature strongly influences hatchability and the livability of chicks. In this regard, literature studies recommend incubating red-legged partridge eggs at temperatures ranging from 37.7 to 38.0ºC during the first 20-21 d of incubation, and subsequently transferring them to a hatcher, where temperature is lowered between 0.2-0.3 and 1ºC and set at 37.2 to 37.5ºC (Llauradó, 1987Llauradó L. Incubación artificial de huevos de perdiz. Selecciones Avícolas 1987;29:144-147.; Cancho, 1991Cancho M. Incubación. Equipo y técnicas de manejo. Control. In: La perdiz roja. Fundación La Caixa-AEDOS, Barcelona, Spain; 1991. p. 21-27.; Setién, 1991Setién M. Producción cinegética: granjas de perdices. In: Manual de ordenación y gestión cinegética (Fuentes A, Sánchez I, Pajuelo L, eds). IFEBA, Badajoz, Spain; 1991. p. 133-152.; Saperas, 1992Saperas JM. Manejo del huevo de perdiz roja en instalaciones cinegéticas. Mundo Ganadero 1992;11:76-78.; García-Martín & Dalmau, 2003García-Martín E, Dalmau A. Reproducción de la perdiz roja y la codorniz. In: Reproducción e incubación en Avicultura. Real Escuela de Avicultura, Arenys de Mar, Spain; 2003. p. 457-495.), until hatching occurs on day 23-24 (González-Redondo et al., 2012González-Redondo P, Gutiérrez-Escobar R, Díaz-Merino R, Panea-Tejera P, Martínez-Domínguez AR. Duración de la incubación artificial en perdiz roja (Alectoris rufa). ITEA-Información Técnica Económica Agraria 2012;108:289-297.). The incubation temperature is reduced during the hatching phase because the heating needs of the embryos are lower at this late stage of incubation (Decuypere & Michels, 1992Decuypere E, Michels H. Incubation temperature as a management tool: a review. World's Poultry Science Journal 1992;48:28-38.; Molenaar et al., 2010Molenaar R, Reijrink IAM, Meijerhof R, Van Den Brand H. Meeting embryonic requirements of broilers throughout incubation: a review. Revista Brasileira de Ciência Avícola 2010;12:137-148.). However, optimal incubation temperature during the hatching period of A. rufa has not been precisely established by scientific studies yet. Therefore, this study was designed to investigate the effects of three incubation temperatures during the hatching period (37.0, 37.4 and 37.8ºC) on the hatchability, egg weight loss, and length of the incubation period of artificially incubated red-legged partridge eggs.

Material and Methods

Breeder flock and husbandry

The hatching eggs used in this trial were obtained from a red-legged partridge game farm located in Santa Cruz (province of Cordoba, southern Spain). Eggs derived from 2-year-old breeders that were fed ad libitum a balanced commercial feed containing 2800 kcal metabolizable/kg and 20% crude protein, and were kept in pairs in outdoor cages measuring 40 × 100 cm. During the reproductive resting period, breeders were subjected to natural lighting. From mid-December, artificial lighting was supplied, increasing the photoperiod by a quarter of an hour every 3 d until a total photoperiod (natural+artificial light) of 16 h of light was reached by the end of January.

Experimental procedure

On May 31, 150 recently-laid hatching eggs were collected and randomly allocated to three groups of 50 eggs each. Twelve hours before being loaded in the incubator, all eggs were pre-warmed at 22-23°C and 45-50% relative humidity (RH) in the room where the incubator was located. All the experimental batches were subsequently loaded into an incubator (Masalles HS25(r), Masalles, Ripollet, Spain) on the same date (June 1). The incubator was set at 37.8°C and 55% RH, and eggs were automatically turned every hour. On day 20 of incubation, each of the experimental batches was transferred to an independent hatcher set at different temperatures: 37.0ºC (1-2 SA(r) hatcher, Maino Enrico-Adriano S.n.c., Oltrona di San Mamette, Italy), 37.4ºC (MG 50H(r) hatcher, FIEM S.n.c., Guanzate, Italy), or 37.8ºC (Masalles HS25(r) hatcher, Masalles, Ripollet, Spain). In order to maintain the other incubation parameters constant among experimental treatments, on day 20 of incubation RH was increased to 75% and turning of eggs was stopped in all batches.

Parameters evaluated

All eggs were individually weighed before incubation and on day 20 of incubation. Egg weight loss after 20 d of incubation was calculated as a percentage of initial egg weight. After the incubation period, the numbers of hatched chicks and unhatched eggs were recorded, and unhatched eggs were broken to determine true fertility (Ernst et al., 2004Ernst RA, Bradley FA, Abbott UK, Craig RM. Egg candling and breakout analysis. ANR Publication 2004;8134. http://anrcatalog.ucdavis.edu/pdf/8134.pdf. Accessed June 20th, 2014.
http://anrcatalog.ucdavis.edu/pdf/8134.p...
). The length of the incubation period was calculated as the difference between the date eggs were set in the incubator and hatching date of each individual egg, determined through hatching controls carried out every 12 h. All chicks were individually weighed at hatching.

Statistical analysis

Differences in fertility, hatchability of total eggs set, and hatchability of fertile eggs, as a function of the incubation temperature during the hatching period, were statistically analyzed using contingency tables on which Pearson's c2 tests were performed. Statistical differences among treatments in initial and final egg weights, fertile egg weight loss on 20 d of incubation, chick weight at hatching, and length of the incubation period were analyzed by one-way ANOVA in case of homoscedasticity, and by Kruskal-Wallis tests in case of heteroscedasticity. When differences among treatments were significant, means were separated using Duncan's multiple range tests at 0.05 significance level. Pearson correlation was applied to analyze the ratio between egg weight before incubation and chick weight at hatching. The descriptive statistical parameters, including maximum and minimum values, coefficient of variation, and skewness (g1) and kurtosis (g2) coefficients were calculated for the variable incubation length. Differences in the variance of the length of the incubation period among treatments were also analyzed. The values of the quantitative variables were expressed as mean±standard error of the mean. The analyses were performed using SPSS 15.0 statistical package (SPSS Inc., Chicago, USA).

Results

Mean fertility was 74.7%, hatchability of the total number of incubated eggs was 64.0%, and hatchability of the fertile eggs reached 85.7% (Table 1). No differences were observed among the experimental treatments in the fertility of incubated eggs (p=0.076.), hatchability of total eggs set (p=0.088), or in hatchability of fertile eggs (p=0.755).

Table 1
Fertility and hatchability of red-legged partridge eggs according to the incubation temperature during the hatching phase.

The mean weight of the fertile eggs before incubation was 19.51±0.13 g. Eggs incubated during the hatching period at 37.4º C were lighter than those from the other treatments (Table 2; p=0.008). After d 20 of incubation, average weight loss of the fertile eggs amounted to 9.08±0.18% of their initial weight, without any differences among experimental batches (Table 2; p=0.527).

Table 2
Egg weight losses during incubation in red-legged partridge fertile eggs according to incubation temperature during the hatching phase (mean±standard error of the mean).

Mean chick weight at hatching was 13.79±0.11 g, and differences among the experimental treatments were detected, although there was no linear progression (Table 3; p=0.040). Moreover, chick weight at hatching was positively correlated with the initial egg weight (r=0.810, p<0.001).

Table 3
Chick weight at hatching and incubation length of red-legged partridge eggs according to incubation temperature during the hatching phase

The mean incubation period lasted 23.23±0.05 d and was independent of the incubation temperature during the hatching period, although it showed a marginal trend to decrease with higher incubation temperatures during the hatching phase (Table 3; p<0.052). Increasing the incubation temperature from 37.0 to 37.8ºC during the hatching period led to an increase in the hatching synchrony, as illustrated by a reduction in variance (p<0.05), in the coefficient of variation and in the range of the incubation length (Table 3). In fact, hatching was reduced from 2.5 d span in the batch of eggs incubated at 37.0 ° C to a 1.5 d span in the batch incubated at 37.8 °C. Thus, hatching distribution was very leptokurtic and very positively skewed with the increase in the incubation temperature during the hatching period (Table 3).

Discussion

The mean values of fertility, hatchability of eggs set, and hatchability of fertile eggs found in this trial were within the ranges described in literature for A. rufa under farming conditions (50.2 to 89.7%, 30.6 to 86.4% and 57.5 to 91.6%, respectively; Bagliacca et al., 1988Bagliacca M, Mori B, Gualterio L. Egg laying under artificial photo-regulation in the red partridge. In: Proceedings of the 18th World's Poultry Congress; 1988; Nagoya, Japan, p. 657-659.; Paci et al., 1992Paci G, Marzoni M, Benvenuti N, Bagliacca M. Breeding technology of red-partridges: colonies or couples. In: Proceedings of the 19th World's Poultry Congress; 1992; Amsterdam, Netherlands, vol. 3, p. 351-352.; González-Redondo, 2006González-Redondo P. Influence of the laying date on the fertility and hatchability of red-legged partridge (Alectoris rufa) eggs. Journal of Applied Poultry Research 2006;15:579-583., 2010González-Redondo P, Delgado-Pertíñez M, Toribio S, Ruiz FA, Mena Y, Caravaca FP, Castel JM. Characterisation and typification of the red-legged partridge (Alectoris rufa) game farms in Spain. Spanish Journal of Agricultural Research 2010;8:624-633.; Mourão et al., 2010Mourão JL, Barbosa AC, Outor-Monteiro D, Pinheiro VM. Age affects the laying performance and egg hatchability of red-legged partridges (Alectoris rufa) in captivity. Poultry Science 2010;89:2494-2498.; Gómez-de-Travecedo et al., 2014aGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of storage temperature and length of the storage period on hatchability and performance of red-legged partridge (Alectoris rufa) eggs. Poultry Science 2014a;93:747-754., 2014bGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of pre-storage incubation of red-legged partridge (Alectoris rufa) eggs on hatchability and incubation length. International Journal of Agriculture and Biology 2014b;16:513-520., 2014cGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of the time to change from incubation to hatching temperature on the artificial incubation of red-legged partridge (Alectoris rufa) eggs. Spanish Journal of Agricultural Research, 2014c;12:727-731.). As no differences were found among the experimental batches for these parameters, it can be considered that, in all treatments, incubation conditions were suitable in terms of hatchability. In fact, it is known that in A. rufa farming (Setién, 1991Setién M. Producción cinegética: granjas de perdices. In: Manual de ordenación y gestión cinegética (Fuentes A, Sánchez I, Pajuelo L, eds). IFEBA, Badajoz, Spain; 1991. p. 133-152.) and in other poultry species (French, 2000French NA. Effect of short periods of high incubation temperatures on hatchability and incidence of embryo pathology of turkey eggs. British Poultry Science 2000;41:377-382.) excessive incubation temperature, even for short periods, causes an abnormal increase in embryo mortality, which did not occur in this trial, suggesting that the three incubation temperatures tested for the hatching phase appeared to be adequate for red-legged partridges.

Mean egg weight and egg weight loss of recently-laid fertile eggs during the first 20 d of incubation agreed with those described for red-legged partridges under game farming conditions (González-Redondo, 2010González-Redondo P, Delgado-Pertíñez M, Toribio S, Ruiz FA, Mena Y, Caravaca FP, Castel JM. Characterisation and typification of the red-legged partridge (Alectoris rufa) game farms in Spain. Spanish Journal of Agricultural Research 2010;8:624-633.; Mourão et al., 2010Mourão JL, Barbosa AC, Outor-Monteiro D, Pinheiro VM. Age affects the laying performance and egg hatchability of red-legged partridges (Alectoris rufa) in captivity. Poultry Science 2010;89:2494-2498.; Gómez-de-Travecedo et al., 2014aGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of storage temperature and length of the storage period on hatchability and performance of red-legged partridge (Alectoris rufa) eggs. Poultry Science 2014a;93:747-754., 2014bGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of pre-storage incubation of red-legged partridge (Alectoris rufa) eggs on hatchability and incubation length. International Journal of Agriculture and Biology 2014b;16:513-520., 2014cGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of the time to change from incubation to hatching temperature on the artificial incubation of red-legged partridge (Alectoris rufa) eggs. Spanish Journal of Agricultural Research, 2014c;12:727-731.). Although eggs randomly allocated to the experimental batch incubated at 37.4ºC during the hatching period showed lower initial weight and, consequently, lost less weight during the incubation than eggs of the other treatments, egg weight loss percentage was not different among the experimental batches. This is obvious since the temperature was modified among treatments on day 20 of incubation, after eggs were weighed to calculate egg weight loss percentage. Our result in terms of egg weight loss percentage partly agree with Gómez-de-Travecedo et al. (2014c)Gómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of the time to change from incubation to hatching temperature on the artificial incubation of red-legged partridge (Alectoris rufa) eggs. Spanish Journal of Agricultural Research, 2014c;12:727-731., who found a non-linear progression for this parameter in A. rufa when lowering the incubation temperature from 37.8 to 37.5ºC between days 18 and 22 of incubation.

Mean chick weight at hatching found in this trial are consistent with that described for red-legged partridges in captivity (14.0-14.3 g, according to Gómez-de-Travecedo et al., 2014aGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of storage temperature and length of the storage period on hatchability and performance of red-legged partridge (Alectoris rufa) eggs. Poultry Science 2014a;93:747-754., 2014bGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of pre-storage incubation of red-legged partridge (Alectoris rufa) eggs on hatchability and incubation length. International Journal of Agriculture and Biology 2014b;16:513-520., 2014cGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of the time to change from incubation to hatching temperature on the artificial incubation of red-legged partridge (Alectoris rufa) eggs. Spanish Journal of Agricultural Research, 2014c;12:727-731.). Chick weight did not follow a linear relationship with the incubation temperature during the hatching period; thus, chicks hatched from eggs incubated at 37.4ºC showed lower weight than chicks hatched from eggs incubated at 37.8ºC during the hatching phase, while chicks from eggs incubated at 37.0ºC showed an intermediate weight. As confirmed by the positive correlation among the chick weight at hatching and the initial egg weight, the hatchling weight differences observed between treatments were due to the differences in initial egg weight, as the eggs incubated at 37.4ºC were lighter than eggs of the other experimental batches. This agrees with Traldi et al. (2011Traldi AB, Menten JFM, Silva CS, Rizzo PV, Pereira PWZ, Santarosa J. What determines hatchling weight: breeder age or incubated egg weight? Revista Brasileira de Ciência Avícola 2011;13:283-285.), who demonstrated in broilers that hatchling weight is influenced by egg weight. Our results do not agree, however, with those of Gómez-de-Travecedo et al. (2014c)Gómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of the time to change from incubation to hatching temperature on the artificial incubation of red-legged partridge (Alectoris rufa) eggs. Spanish Journal of Agricultural Research, 2014c;12:727-731., who did not found hatchling weight differences when lowering the incubation temperature from 37.8 to 37.5ºC between days 18 and 22 of incubation in red-legged partridges.

The mean incubation period found in this trial matched the 23.4-d period described by González-Redondo et al. (2012González-Redondo P, Gutiérrez-Escobar R, Díaz-Merino R, Panea-Tejera P, Martínez-Domínguez AR. Duración de la incubación artificial en perdiz roja (Alectoris rufa). ITEA-Información Técnica Económica Agraria 2012;108:289-297.) for the artificial incubation of this species. The marginal tendency (p<0.1; Table 3) of shorter incubation length when incubation temperature increased during the hatching phase agrees with the shorter incubation length found by Gómez-de-Travecedo et al. (2014cGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of the time to change from incubation to hatching temperature on the artificial incubation of red-legged partridge (Alectoris rufa) eggs. Spanish Journal of Agricultural Research, 2014c;12:727-731.), when delaying the change of the incubation temperature from to 37.8 to 37.5ºC between 18 and 22 d of incubation. This also agrees with informative publications on red-legged partridge game farming stating that higher temperatures during the incubation shorten the incubation period, whereas lower temperatures lengthen it (Cancho, 1991Cancho M. Incubación. Equipo y técnicas de manejo. Control. In: La perdiz roja. Fundación La Caixa-AEDOS, Barcelona, Spain; 1991. p. 21-27.; Setién, 1991Setién M. Producción cinegética: granjas de perdices. In: Manual de ordenación y gestión cinegética (Fuentes A, Sánchez I, Pajuelo L, eds). IFEBA, Badajoz, Spain; 1991. p. 133-152.). This is because, as temperature decreases at the end of the incubation period, so does the oxygen consumption by the embryo and, consequently, its pace of development, leading to longer incubation periods (French, 1997French NA. Modelling incubation temperature: The effects of incubator design, embryonic development, and egg size. Poultry Science 1997;76:124-133.).

The most relevant finding in this research study was that hatching synchrony improved when the incubation temperature during the hatching period was increased from 37.0 to 37.8 °C. Thus, hatching distribution progressively became very leptokurtic and very positively skewed as the incubation temperature during the hatching phase increased. Taking into account that, depending on specific incubation conditions, hatching can span from day 21.5 to 26 from the beginning of the incubation in red-legged partridges (González-Redondo et al., 2012González-Redondo P, Gutiérrez-Escobar R, Díaz-Merino R, Panea-Tejera P, Martínez-Domínguez AR. Duración de la incubación artificial en perdiz roja (Alectoris rufa). ITEA-Información Técnica Económica Agraria 2012;108:289-297.), the narrow 1.5-d hatching range achieved by the eggs incubated at 37.8ºC during the hatching phase represents a high level of hatching synchrony. Our results are consistent with the short hatching interval of 36 h obtained by Gómez-de-Travecedo et al. (2014cGómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of the time to change from incubation to hatching temperature on the artificial incubation of red-legged partridge (Alectoris rufa) eggs. Spanish Journal of Agricultural Research, 2014c;12:727-731.) for A. rufa eggs incubated at 37.8ºC for 22 d, in comparison with eggs whose incubation temperature was lowered to 37.5ºC between day 18 and 21 of incubation. This high hatching synchrony is a behavioral adaptation of A. rufa and other precocial species that allows the female to quickly leave the nest with its brood as a strategy to minimize predation risks associated to a long stay in the nest as would occur with a wider hatching span (Persson & Andersson, 1999Persson I Andersson G. Intraclutch hatch synchronization in pheasants and mallard ducks. Ethology 1999;105:1087-1096.; González-Redondo et al., 2012González-Redondo P, Gutiérrez-Escobar R, Díaz-Merino R, Panea-Tejera P, Martínez-Domínguez AR. Duración de la incubación artificial en perdiz roja (Alectoris rufa). ITEA-Información Técnica Económica Agraria 2012;108:289-297.).

It is known that the temperature of the avian embryo at the end of the incubation period is higher than at the beginning due to the extra heat generated by the metabolic activity and movement of the chick. As a consequence, heating needs are lower at this late embryonic stage (Decuypere & Michels, 1992Decuypere E, Michels H. Incubation temperature as a management tool: a review. World's Poultry Science Journal 1992;48:28-38.; Molenaar et al., 2010Molenaar R, Reijrink IAM, Meijerhof R, Van Den Brand H. Meeting embryonic requirements of broilers throughout incubation: a review. Revista Brasileira de Ciência Avícola 2010;12:137-148.) and it is the reason why, in red-legged partridge farms, a lower temperature is set in the hatcher than in the incubator (Llauradó, 1987Llauradó L. Incubación artificial de huevos de perdiz. Selecciones Avícolas 1987;29:144-147.; Cancho, 1991Cancho M. Incubación. Equipo y técnicas de manejo. Control. In: La perdiz roja. Fundación La Caixa-AEDOS, Barcelona, Spain; 1991. p. 21-27.; Setién, 1991Setién M. Producción cinegética: granjas de perdices. In: Manual de ordenación y gestión cinegética (Fuentes A, Sánchez I, Pajuelo L, eds). IFEBA, Badajoz, Spain; 1991. p. 133-152.; Saperas, 1992Saperas JM. Manejo del huevo de perdiz roja en instalaciones cinegéticas. Mundo Ganadero 1992;11:76-78.; García-Martín & Dalmau, 2003García-Martín E, Dalmau A. Reproducción de la perdiz roja y la codorniz. In: Reproducción e incubación en Avicultura. Real Escuela de Avicultura, Arenys de Mar, Spain; 2003. p. 457-495.). Our findings, however, demonstrate that the proper choice of the incubation temperature for the hatching period could enable game farms and hatching centers to improve hatchling handling by extracting all them from the hatcher at the same time, minimizing or even avoiding extraction queues. Nevertheless, since the aim of A. rufa partridge game farms is to rear healthy and vigorous partridges for release and restocking of hunting reserves, further research should elucidate which of the temperatures within the range investigated provides better postnatal chick growth performance and survival rate.

Conclusion

Incubating red-legged partridge eggs between 37.0 to 37.8ºC during the hatching period from day 20 of incubation to hatching did not affect the hatchability or the length of the incubation period. However, hatching synchrony improved when the incubation temperature was increased from 37.0 to 37.8°C.

References

  • Bagliacca M, Mori B, Gualterio L. Egg laying under artificial photo-regulation in the red partridge. In: Proceedings of the 18th World's Poultry Congress; 1988; Nagoya, Japan, p. 657-659.
  • Cancho M. Incubación. Equipo y técnicas de manejo. Control. In: La perdiz roja. Fundación La Caixa-AEDOS, Barcelona, Spain; 1991. p. 21-27.
  • Decuypere E, Michels H. Incubation temperature as a management tool: a review. World's Poultry Science Journal 1992;48:28-38.
  • Ernst RA, Bradley FA, Abbott UK, Craig RM. Egg candling and breakout analysis. ANR Publication 2004;8134. http://anrcatalog.ucdavis.edu/pdf/8134.pdf Accessed June 20th, 2014.
    » http://anrcatalog.ucdavis.edu/pdf/8134.pdf
  • French NA. Modelling incubation temperature: The effects of incubator design, embryonic development, and egg size. Poultry Science 1997;76:124-133.
  • French NA. Effect of short periods of high incubation temperatures on hatchability and incidence of embryo pathology of turkey eggs. British Poultry Science 2000;41:377-382.
  • García-Martín E, Dalmau A. Reproducción de la perdiz roja y la codorniz. In: Reproducción e incubación en Avicultura. Real Escuela de Avicultura, Arenys de Mar, Spain; 2003. p. 457-495.
  • Gómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of storage temperature and length of the storage period on hatchability and performance of red-legged partridge (Alectoris rufa) eggs. Poultry Science 2014a;93:747-754.
  • Gómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of pre-storage incubation of red-legged partridge (Alectoris rufa) eggs on hatchability and incubation length. International Journal of Agriculture and Biology 2014b;16:513-520.
  • Gómez-de-Travecedo P, Caravaca FP, González-Redondo P. Effects of the time to change from incubation to hatching temperature on the artificial incubation of red-legged partridge (Alectoris rufa) eggs. Spanish Journal of Agricultural Research, 2014c;12:727-731.
  • González-Redondo P. Influence of the laying date on the fertility and hatchability of red-legged partridge (Alectoris rufa) eggs. Journal of Applied Poultry Research 2006;15:579-583.
  • González-Redondo P. Effect of long-term storage on hatchability of red-legged partridge (Alectoris rufa) eggs. Poultry Science 2010;89:379-383.
  • González-Redondo P, De la Rosa Sánchez S. Efecto de la duración de la fase de volteo de los huevos de perdiz roja (Alectoris rufa) durante la incubación sobre la tasa de eclosión. ITEA-Información Técnica Económica Agraria 2009;105:291-295.
  • González-Redondo P, Delgado-Pertíñez M, Toribio S, Ruiz FA, Mena Y, Caravaca FP, Castel JM. Characterisation and typification of the red-legged partridge (Alectoris rufa) game farms in Spain. Spanish Journal of Agricultural Research 2010;8:624-633.
  • González-Redondo P, Gutiérrez-Escobar R, Díaz-Merino R, Panea-Tejera P, Martínez-Domínguez AR. Duración de la incubación artificial en perdiz roja (Alectoris rufa). ITEA-Información Técnica Económica Agraria 2012;108:289-297.
  • Llauradó L. Incubación artificial de huevos de perdiz. Selecciones Avícolas 1987;29:144-147.
  • Molenaar R, Reijrink IAM, Meijerhof R, Van Den Brand H. Meeting embryonic requirements of broilers throughout incubation: a review. Revista Brasileira de Ciência Avícola 2010;12:137-148.
  • Mourão JL, Barbosa AC, Outor-Monteiro D, Pinheiro VM. Age affects the laying performance and egg hatchability of red-legged partridges (Alectoris rufa) in captivity. Poultry Science 2010;89:2494-2498.
  • Paci G, Marzoni M, Benvenuti N, Bagliacca M. Breeding technology of red-partridges: colonies or couples. In: Proceedings of the 19th World's Poultry Congress; 1992; Amsterdam, Netherlands, vol. 3, p. 351-352.
  • Persson I Andersson G. Intraclutch hatch synchronization in pheasants and mallard ducks. Ethology 1999;105:1087-1096.
  • Sánchez García-Abad C, Alonso ME, Prieto R, González V, Gaudioso VR. Una visión sobre la avicultura para la producción de caza en España. ITEA-Información Técnica Económica Agraria 2009;105:169-183.
  • Saperas JM. Manejo del huevo de perdiz roja en instalaciones cinegéticas. Mundo Ganadero 1992;11:76-78.
  • Setién M. Producción cinegética: granjas de perdices. In: Manual de ordenación y gestión cinegética (Fuentes A, Sánchez I, Pajuelo L, eds). IFEBA, Badajoz, Spain; 1991. p. 133-152.
  • Traldi AB, Menten JFM, Silva CS, Rizzo PV, Pereira PWZ, Santarosa J. What determines hatchling weight: breeder age or incubated egg weight? Revista Brasileira de Ciência Avícola 2011;13:283-285.

Publication Dates

  • Publication in this collection
    Jan-Mar 2016

History

  • Received
    May 2015
  • Accepted
    Nov 2015
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