Original Article
Effect of Season on Biochemical Profile of Osmanabadi Goat under Agro-Climatic Conditions of Chhattisgarh Plains
Year: 2020 | Month: August | Volume 10 | Issue 4
1.Abdelatif, A.M., Ibrahim, M.Y. and Hassan, Y.Y. 2009. Seasonal variation in erythrocytic and leukocytic indices and serum proteins of female Nubian goats. Middle-East J. Sci. Res., 4(3): 168-174.
View at Google Scholar2.Bahga, C.S., Sikka, S.S. and Saijpal, S. 2009. Effect of seasonal stress on growth rate and serum enzyme levels in young crossbred calves. Indian J. Anim. Res., 43(4): 288-290
View at Google Scholar3.Banerjee, D., Upadhyay, R.C., Chaudhary, U.B., Kumar, R., Singh, S., Ashutosh, D.T.K. and De, S. 2015. Seasonal variations in physio-biochemical profiles of Indian goats in the paradigm of hot and cold climate. Biol. Rhythm Res., 46(2): 221-236.
View at Google Scholar4.Basha, N.A.D., Scogings, P.F., Dziba, L.E. and Nsahlai, I.V. 2012. Diet selection of Nguni goats in relation to season, chemistry and physical properties of browse in a sub-humid subtropical savanna. Small Rumin. Res., 102: 163-171.
View at Google Scholar5.Chikwanda, A. T. and Muchenje, V. 2017. Grazing system and floor type effects on blood biochemistry, growth and carcass characteristics of Nguni goats. Asian-Austral. J. Anim. Sci., 30(9): 1253-1260.
View at Google Scholar6.Collier, R.J., Collier, J.L., Rhoads, R.P., and Baumgard, L.H. 2008. Genes involved in the bovine heat stress response a invited review. J. Dairy Sci., 91: 445-454.
View at Google Scholar7.DADF. 20th Livestock Census 2019. Government of India, Ministry of Agriculture, Department of Animal Husbandry, Dairying and Fisheries, New Delhi.
View at Google Scholar8.Dar, A.H., Kumar, S., Singh, D.V., Sodhi, M., Sharma, R.K., Ghosh, A.K., Singh, B. and Rahman, J.U. 2019. Seasonal variation in blood biochemical characteristics of Badri cattle. Pharma. Innov., 8(9): 147-150.
View at Google Scholar9.El-Nouty, F.D., Al-Haidary, A.A. and Salah, M.S. 1990. Seasonal variations in hematological values of high and averageyielding Holstein cattle in a semi-arid environment. K.S.U. Agric. Sci., 2: 172-173.
View at Google Scholar10.Ghosh, S., Singh, A.K. and Haldar, C. 2013. Adaptive and ecological significance of the seasonal changes in hematological, biochemical and hormonal parameters in the tropical goat (Capra hircus). J. Endocrinol. Reprod., 17(2): 113-122.
View at Google Scholar11.Helal, A., Hashem, A.L.S., Abdel-Fattah, M.S. and El-Shaer, H.M. 2010. Effect of heat stress on coat characteristics and physiological responses of Balady and Damascus Goats in Sinai, Egypt. American-Eurasian J. Agric. Environ. Sci., 7: 60-69.
View at Google Scholar12.Hernandez, A., Dominguez, B., Cervantes, P., Munoz- Melgarejo, S., Salazar-Lizan, S. and Tejeda- Martinez, A. 2011. Temperature-humidity index (THI) 1917-2008 and future scenarios of livestock comfort in Veracruz. Mexico. Atmosfera., 24(1): 89-102.
View at Google Scholar13.Hooda, O.K. and Naqvi, S.M.K. 1990. Changes in some blood constituents in different breeds of sheep exposed to elevated temperature and feed restriction. Indian Vet. J., 62: 1121- 1125.
View at Google Scholar14.Inbaraj, S., Kundu, A., De, A.K., Sunder, J. and Sejian, V. 2018. Seasonal changes in blood biochemical and endocrine responses of different indigenous goat breeds of tropical island agro-ecological environment. Biol. Rhythm Res., 49(3): 412-421.
View at Google Scholar15.Indu, S., Sejian, V. and Naqvi, S.M.K. 2014. Impact of stimulated heat stress on growth, physiological adaptability, blood metabolites and endocrine responses in Malpura ewes under semi-arid tropical environment. Anim. Prod. Sci., 55(6): 766- 776
View at Google Scholar16.Itoh, F., Obara, Y., Rose, M.T. and Fuse, H. 1998. Heat influences on plasma insulin and glucagon in response to secretogogues in non-lactating dairy cows. Domest. Anim. Endocrine., 15: 499-510.
View at Google Scholar17.Kataria, N., Kataria, A.K., Agarwal, V.K., Garg, S.L. and Sahani, M.S. 2002. Effect of long term dehydration on serum constituents in extreme climatic conditions in camel. Indian J. Physiol. Pharmacol., 46: 218-222.
View at Google Scholar18.Kumar, S. 2007. Commercial goat farming in India: An emerging agri-business opportunity. Agricultural Livestock Production Sci., 67: 1-18. Economics Research Review, 20 (Conf. Issue): 503-520.
View at Google Scholar19.National Research Council. 1971. A guide to environmental research on animals. National Academy of Science, Washington, DC.
View at Google Scholar20.Ocak, S. and Guey, O. 2010. Physiological responses and some blood parameters of bucks under Mediterranean climate conditions. Anadolu J. Agric. Sci., 25(2): 113-119.
View at Google Scholar21.Piccione, G., Messina, V., Vazzana, I., Dara, S., Giannetto, C. and Assenza, A. 2012. Seasonal variations of some serum electrolyte concentrations in sheep and goats. Comp. Clin. Pathol., 21: 911-915.
View at Google Scholar22.Rasooli, A., Nouri, M., Khadjeh, G.H. and Rasekh, A. 2004. The influences of seasonal variation on thyroid activity and some biochemical parameters of cattle. Iranian J. Vet. Res., 5: 1383-2004.
View at Google Scholar23.Rathwa, S.D., Vasava, A.A., Pathan, M.M., Madhira, S.P., Patel, Y.G. and Pande, A.M. 2017. Effect of season on physiological, biochemical, hormonal, and oxidative stress parameters of indigenous sheep. Vet. World, 10(6): 650-654.
View at Google Scholar24.Ribeiro, M.N., Ribeiro, N.L., Bozzi, R. and Costa, R.G. 2018. Physiological and biochemical blood variables of goats subjected to heat stress - a review. J. Appl. Anim. Res., 46(1): 1036-1041
View at Google Scholar25.Rumosa Gwaze, F., Chimonyo, M. and Dzama, K. 2010. Relationships between nutritionally-related blood metabolites and gastrointestinal parasites in Nguni goats of South Africa. Asian-Australas J. Anim. Sci., 23: 1190–97.
View at Google Scholar26.Sejian, V. and Srivastava, R.S. 2009. Effects of melatonin on adrenal cortical functions of Indian Goats under thermal stress. Vet. Med. Int., 2010: 1-6.
View at Google Scholar27.Sharma, A.K., and Puri, G. 2013. Effect of extreme hot condition on serum biochemical constituents in Marwari Goats. Livestock Res. Intl., 1: 23-28.
View at Google Scholar28.Silanikove, N. 2000. Effects of heat stress on the welfare of extensively managed domestic ruminants. Livest. Prod. Sci., 67(1-2): 1-18
View at Google Scholar29.Snedecor, G.W. and Cochran, W.G. 2004. Statistical methods. 8th edn., Oxford and IBH Pub. Co., Kolkata.
View at Google Scholar30.Solaiman, Sandra & Thomas, J. & Dupre, Y. & Min, Byeng & Gurung, Nar & Terrill, Thomas & Haenlein, G.F.W. 2010. Effect of feeding sericea lespedeza (Lespedeza cuneata) on growth performance, blood metabolites, and carcass characteristics of Kiko crossbred male kids. Small Rumin. Res., 93: 149-156.
View at Google Scholar31.SPSS. 2013. Statistical Package for the Social Sciences, release 10.0. SPSS Inc. IL, Chicago, USA.
View at Google Scholar32.Sreedhar, S., Rao, K.S., Suresh, J., Moorthy, P.R.S., Reddy, V.P. 2013. Changes in haematocrit and some serum biochemical of Sahiwal and Jersey le of Sahiwal and Jersey × Sahiwal cows in tropical environments. Vet. Arhiv., 83: 171-187.
View at Google Scholar33.Suhair, M.S. 2012. Effects of level of feeding and season on rectal temperature and blood metabolites in desert rams. Acad. J. Nutr., 1(2): 14-18.
View at Google Scholar34.Vasava, A. 2017. Serum biochemical constituents during summer and winter season of Surti goats. J. Vet. Med. Health, 1(1): 1000e103.
View at Google Scholar