Abstract
Assessment of the ruminant livestock feed sources availability, existing feeding practices, and nutrient balances was embarked at different zones of Gurez valley of Kashmir in two major seasons (summer and winter). A baseline survey was conducted to obtain the information in three zones, viz., Lower, Middle and Upper Gurez. The study was carried out in three villages in each zone where seven farmer families per village were selected randomly for the study. A total of 63 households owning livestock were interviewed to collect the information and the samples of available animal feeds and fodders fed during the seasons for chemical analysis. Daily nutrient intakes were calculated and compared with the standard requirements to determine the nutrient balances of livestock during the seasons. The main crops cultivated only during summer season were pulses (98.41%), maize (95.24%), and potatoes (90.48%), while few farmers in Lower and Middle Gurez also sow oats (42.86%) and had apple orchards (17.46%), the by-products and wastes of which were utilized as livestock feeds. The only fodder crop cultivated throughout Gurez was maize. During winter, due to very harsh climatic conditions, no agricultural activities are being carried out, as such greenery perishes from the scenario. Feed resources availability to the livestock varied according to the season. Animals relied mainly on natural grazing resources available overabundant during summer and remained undernourished due to very limited feed resources during winter when completely stall-fed. Most of the farmers offered tree foliage (92%) and practiced concentrate feed (86%) supplementation to their animals particularly during winter season (96%). Farmers (87%) were preparing concentrate feed at home by blending ingredients available with them. Only 6% of the farmers supplemented the diet of animals with mineral mixture. Nutrient intakes through different feed resources were in excess during summer, while non-availability of green fodder during winter leads to considerable nutritional deficit in quantity, as well as quality. It is concluded that lack of technical know-how among the animal rearers regarding livestock feeding strategies and winter season feed/fodder scarcity are the major constraints that limit livestock productivity. It is therefore suggested that there is a dire need for nutritional innovations to increase fodder production as well as adoption of fodder conservation and feeding strategies for ensuring year-round availability of animal feeds if sustainable livestock production is to be met in the high Himalaya Gurez valley of Kashmir.
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References
AOAC, 2005. Official Methods of Analysis. 18th edition, Association of Official Analytical Chemists, Arlington, Virginia, USA.
Biradar, N., Ramesh, C.R. and Sukanya, D.H., 2003. Fodder availability and utilisation as influenced by cropping pattern- a PRA based analysis. Karnataka Journal of Agricultural Sciences, 16(1), 87-91.
Bishnoi, D.K. and Singh, R., 2009. Comparative feeding practices of milking animals in Hariana. Indian Journal of Animal Nutrition, 26(3), 243-246.
Chandler, P., 1990. Energy prediction of feeds by forage testing explored. Feedstuffs, 62(36), 12.
Haile, W., Zelalem, Y. and Yosef, T., 2012. Challenges and opportunities of milk production under different urban dairy farm sizes in Hawassa City, Southern Ethiopia. African Journal of Agricultural Research, 7(26), 3860-3866.
Hussain, A., Rasul, G., Mahapatra, B. and Tuladhar, S., 2016. Household food security in the face of climate change in the Hindu-Kush Himalayan region. Food Security, 8(5), 921-937.
ICAR., 2013a. Nutrient composition of Indian feeds and fodders, (Indian Council of Agricultural Research, New Delhi, India).
ICAR., 2013b. Nutrient requirements of cattle and buffalo, (Indian Council of Agricultural Research, New Delhi, India).
ILCA., 1990. Livestock systems research manual no. 12, section. In: Working document of International Livestock Center for Africa, Addis Ababa, Ethiopia.
Madke, P.K., Murkute, J.S., Upadhye, S.V. and Vedpathak, C.P., 2006. Adoption of scientific feeding practices by dairy farmers. Indian Journal of Animal Research, 40(2), 155-157.
Martin, N., 1985. Agricultural Extension Service no. 2637. University of Minnesota, Minneapolis, Minnesota.
Merrey, D.J., Hussain, A., Tamang, D.D., Thapa, B. and Prakash, A., 2018. Evolving high altitude livelihoods and climate change: a study from Rasuwa district, Nepal. Food Security, 10, 1055-1071.
NRC., 1981. Effect of environment on nutrient requirements of domestic animals (National Research Council, The National Academy Press, Washington DC, pp. 88-91).
NRC., 1989. Nutrient requirements of dairy cattle, (National Research Council, The National Academy Press, Washington DC).
Pantgne, D.D., Kulkarni, A.N., Gujar, B.V. and Lalyankar, S.D., 2002. Nutrient availability of milch Marathwari buffaloes in their home tract. Indian Journal of Animal Nutrition, 19, 41-46.
Ranjhan, S.K., 2003. Animal Nutrition in the Tropics, (Vikash Publishing House Pvt. Ltd., New Delhi, India).
Sabapara, G.P., Desai, P.M., Kharadi, V.B., Saiyed, L.H. and Singh, R.R., 2010. Housing and feeding management practices of dairy animals in the tribal area of South Gujarat. Indian Journal of Animal Sciences, 80(10), 1022-1027.
Shukla, S., Tiwari, D.P., Kumar, A. and Mondal, B.C., 2011. Availability of feed resources and animal feeding practices in Pauri district of Uttarakhand. Animal Nutrition and Feed Technology, 11, 211-219.
Singh, V. and Bohra, B., 2005. Livestock feed resources and feeding practices in hill farming systems: a review. Indian Journal of Animal Science, 75(1), 121-127.
Singh, M., Lathwal, S.S., Prasad, C.K., Dey, D., Gupta, A., Saini, M., Lathwal, I., Sharma, B., Kumar, M. and Sharma, V., 2019. Availability of feed sources and nutritional status of Hariana cattle in different seasons in the breeding tract. Biological Rhythm Research, https://doi.org/10.1080/09291016.2019.1607222.
SPSS (n.d.), Version 20.0. Statistical Packages for Social Sciences, Software products, Marketing Department, SPSS Inc. Chicago, IL 60606-6307, USA.
Talapatra, S.K., Ray, S.C. and Sen, K.C., 1948. The analysis of mineral contents in biological materials. 1. Estimation of phosphorus, chlorine, calcium, magnesium, sodium and potassium in foodstuffs. Indian Journal of Veterinary Science and Animal Husbandry, 10, 243-259.
Undersander, D., Mertens, D. and Thiex, N., 1993. Forage Analyses. Information Systems Division, National Agricultural Library (United States of America) NAL/USDA, 10301 Baltimore Avenue Beltsville, Md. 2070. http://www.nal.usda.gov.
Van Soest, P.J., Roberston, J.B. and Lewis, B.A., 1991. Methods for dietary fibre, neutral detergent fibre and non-starch polysaccharides in relation to animal nutrition. Journal of Dairy Science, 74, 3583-3597.
Yadav, A.K., Kumar, A. and Singh, V., 2003. Nutritive evaluation of some native/ fodder plants in the hill and tarai region of Uttaranchal. Indian Journal of Animal Science, 73(7), 793-797.
Acknowledgments
We sincerely acknowledge the willingness of the farmers to be involved in the study, responding to our queries and for allowing us to visit their farms.
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The authors are grateful to the Director Extension of SKUAST-Kashmir and the Dean of FVSc & AH, Shuhama, SKUAST-K for providing all the necessary facilities and financial support to carry out the study.
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Beigh, Y.A., Ganai, A.M., Rather, M.A. et al. Livestock feed resources availability, feeding practices, and nutrient balances in high Himalaya (Gurez) valley of Kashmir. Trop Anim Health Prod 52, 2469–2480 (2020). https://doi.org/10.1007/s11250-020-02273-y
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DOI: https://doi.org/10.1007/s11250-020-02273-y