Genetic and non-genetic factors affecting first parity growth, reproductive and lactation traits in Barbari goats under semi-intensive management in semi-arid region of India

M K SINGH; S K SINGH; M S DIGE; AKHILESH KUMAR

doi:10.56093/ijans.v91i2.113820

Authors

M K SINGH ICAR-Central Institute for Research on Goats, Makhdoom, Mathura, Uttar Pradesh
S K SINGH ICAR-Central Institute for Research on Goats, Makhdoom, Mathura, Uttar Pradesh
M S DIGE ICAR-Central Institute for Research on Goats, Makhdoom, Mathura, Uttar Pradesh
AKHILESH KUMAR ICAR-Central Institute for Research on Goats, Makhdoom, Mathura, Uttar Pradesh

https://doi.org/10.56093/ijans.v91i2.113820

Keywords:

Barbari, Body weight, Goat, Genetic parameters, Milk yield, Parity, Post-weaning, Pre-weaning, Prolificacy, Productivity litter size

Abstract

Barbari is most preferred goat breed of commercial farmers in India and information on its first parity growth, reproduction and production traits are valuable for making present and future genetic progress of flock. Data for present study pertains to 2,554 kids, progeny of 227 sires and 1645 dam born during 2001 to 2019 at Central Institute for Research on Goats, Makhdoom, Mathura, Uttar Pradesh. The least squares means of body weight of kids at birth, 3, 6, 9 and 12 months of age were 1.69±0.02, 7.48±0.13, 11.45±0.21, 16.08±0.28 and 20.21±0.33 kg, respectively. Period, sex, type of birth, and weight of dam at kidding were significant sources of non-genetic variation affecting body weights. The least squares mean of weight at first conception, weight at first kidding, age at first conception, age at first kidding and first gestation period were 18.04±0.07 kg, 21.79±0.09 kg, 381.65±2.51 days, 523.23±2.52 days and 143.33±0.21 days, respectively. Period of birth was major source of variation though these traits were also significantly affected by season and type of birth. The least squares means of first lactation 90-days milk yield, 140-days milk yield, total Lactation period milk yield, first lactation Length, milk yield per day of first lactation length and milk yield per day of first kidding interval were 50.22±0.41 litre, 69.94±1.05 litre, 57.32±0.53 litre, 123.01±0.53 days, 48.91±0.35 litre and 19.39±0.22 litres, respectively. Period, season, type of kidding, age and weight of dam at kidding were significant sources of non-genetic variation affecting above lactation traits. The h2 for growth and production traits were moderate whereas low to moderate for reproductive traits except weight at first conception and kidding which have moderate h2 estimates. The genetic and phenotypic correlations among the growth traits at different ages were moderate to high (0.3 to 0.8), however decrease with distant ages. Very high genetic and phenotypic correlation estimates were obtained among lactation traits suggesting that judicious selection of animals' for any lactation traits would yield consistent genetic improvement in the other milk production traits in the flock. The economic traits which were significantly influenced by non-genetic factors with high magnitude need attention for strategic management interventions such as planned breeding of females to avoid kidding in adverse weather conditions, better attention in suckling of milk for kids born with low birth weight, hygiene of shed, adequate supplementation of concentrate ration to those kids which have less pre-weaning growth regardless of type of birth, better nutrition level to maiden goats before and after mating and extension of weaning age for triplets by 10-15 days to obtain higher post weaning weight gains, optimization of breeding weight at first mating and strategic supplementary concentrate feeding as per milk yield.

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References

Al-Shaikh M A and Mogawer H H. 2001. Factors affecting body weight of Aardi goat kids in Saudi Arabia. Journal of Applied Animal Research 20: 233–38. DOI: https://doi.org/10.1080/09712119.2001.9706757

Annual Report. 2019. ICAR-Central Institute for Research on Goats, Makhdoom. Mathura. Success Stories of Multiplier flocks of Barbari goat. Published by Director, ICAR-CIRG.

DADH (GOI). 2019. Basic Animal Husbandry Statistics 2019– 20, Department of Animal Husbandry and Dairying, Government of India, New Delhi. India.

Deokar D K, Lawar V S, Pawar B K and Andhale R R. 2007. Breed characteristics of Sangamneri goat. Indian Journal of Small Ruminants 13(2): 213–15.

Gautam L Kumar, Nagda R K and Ashraf Waiz H. 2019. Growth modeling and genetic analysis on growth traits of Sirohi goat under field conditions. Iranian Journal of Applied Animal Science 9: 115–24.

Gowane G R, Chopra A, Prakash V and Arora A L. 2011. Estimates of (co)variance components and genetic parameters for growth traits in Sirohi goat. Tropical Animal Health and Production 43(1): 189–98. DOI: https://doi.org/10.1007/s11250-010-9673-4

Harvey W R. 1990. User’s guide for LSMLMW. Mixed Model L.S Maximum Likelihood computer programme PC-Version 2. Ohio State University, Columbus, USA.

Kharkar K, Kuralkar S V and Prajakta Kuralkar. 2014. Growth, production and reproduction performance of Barbari goats in their native tract. Indian Journal of Small Ruminants 20: 12– 15.

Ofori S A and Hagan J K. 2020. Genetic and non-genetic factors influencing the performance of the West African Dwarf (WAD) goat kept at the Kintampo goat breeding station of Ghana. Tropical Animal Health and Production 52: 2577–84. DOI: https://doi.org/10.1007/s11250-020-02276-9

Patel A C and Pandey D P. 2013. Growth, production and reproduction performance of Mehsana goat. Journal of Livestock Science 4: 17–21.

Rai B, Singh M K, Khan B U and Yadav M C. 2004. Factors affecting growth traits in Marwari goats. Indian Journal of Animal Sciences 74: 543–46.

Rashidi A, Bishop S C and Matika O. 2011. Genetic parameter estimates for pre-weaning performance and reproduction traits in Markhoz goats. Small Ruminant Research 100: 100–106. DOI: https://doi.org/10.1016/j.smallrumres.2011.05.013

Rout P K, Matika O, Kaushik R, Dige M S, Dass G, Singh M K and Bhusan S. 2018. Genetic analysis of growth parameters and survival potential of Jamunapari goats in semi-arid tropics. Small Ruminant Research 165: 124–30. DOI: https://doi.org/10.1016/j.smallrumres.2018.04.002

Sabapara G P, Deshpande S B, Singh G and Joshi B K. 2010. Reproduction and production performance of Surti goats in its native tract. Indian Journal of Small Ruminants 16(2): 195– 98.

Sanchez G F F, Montaldo V H and Juarez L A. 1994. Environmental and genetic effects on birth weight in graded- up goat kids. Canadian Journal of Animal Science 74: 397– 400. DOI: https://doi.org/10.4141/cjas94-057

Shorepy A S A, Alhadrami G A and Abdulwahab K. 2002. Genetic and phenotypic parameters for early growth traits in Emirati goat. Small Ruminant Research 45: 217–23. DOI: https://doi.org/10.1016/S0921-4488(02)00110-4

Singh A, Yadav M C and Sengar O P. 1984. Factors affecting the body weights of Jamunapari and Barbari kids. Indian Journal of Animal Sciences 54: 1001–03.

Singh M K and Rai B. 2006. Barbari breed of goat: Reasons of dilution in its home tract. Indian Journal of Animal Sciences 76: 716–19.

Singh M K and Roy R. 2003. Effect of non-genetic factors on reproduction traits in Jamunapari goats under semi-intensive management. Indian Journal of Small Ruminants 9: 112–15.

Singh M K, V Rajkumar, Akhilesh Kumar and R Pourouchottamane. 2021. Growth, carcass and economic evaluation of Barbari kids reared with and without green fodder under stall-feeding in semi-arid region of India. Indian Journal of Animal Research (10.18805/IJAR.B-4217). DOI: https://doi.org/10.18805/IJAR.B-4217

Singh M K, Dixit A K, Roy A K and Singh S K. 2013. Goat rearing: A pathway for sustainable livelihood security in Bundelkhand region. Agricultural Economics Research Review 26: 79–88.

Singh M K, Rai B and Sharma N P. 2008. Factors affecting survivability in Jamunapari kids under semi-intensive management system. Indian Journal of Animal Sciences 78: 178–81.

Singh M K, Rai B and Singh N P. 2009. Environmental and genetic effects on growth traits in Jamunapari kids. Indian Journal of Animal Sciences 79: 582–86.

Singh M K, Rai B and Singh N P. 2009. Genetic analysis of milk production traits of Jamunapari goats. Indian Journal of Animal Sciences 79: 83–86.

Singh M K, Ravindra K and S P Singh. 2020. Comparative performance of Barbari goats under different rearing system in semi-arid regions. Indian Journal of Animal Sciences 90: 483–86.

Snyman M A. 2010. Influence of body weight, age and management system on reproduction of South African Angora goat does. South African Journal of Animal Science 40: 41–53. DOI: https://doi.org/10.4314/sajas.v40i1.54129

Todaro M, Corrao A, Barone C M A, Alicata M L, Schinelli R and Giaccone P. 2006. Use of weaning concentrate in the feeding of suckling kids: effects on meat quality. Small Ruminant Research 66: 44–50. DOI: https://doi.org/10.1016/j.smallrumres.2005.06.038

Verma N K, Dixit S P, Dangi P S, Aggarwal R A K, Kumar S and Joshi B K. 2009. Malabari goats: Characterisation, management, performance and genetic variability. Indian Journal of Animal Sciences 79(8): 813–18.

Yadav J S, Rai B, Singh M K, Yadav M C and Khan B U. 2004. Genetic and phenotypic parameters of milk production in Kutchi goats. Indian Journal of Animal Sciences 74: 668–70. Zhang C Y, Zhang Y, Xu D, Li X, Su J and Yang L G. 2009.

Genetic and phenotypic parameter estimates for growth traits in Boer goat. Livestock Science 124: 66–71. DOI: https://doi.org/10.1016/j.livsci.2008.12.010