Abstract
Defining single unequivocal means of housing requirement for sheep is difficult as sheep is a versatile species in terms of geographical distribution and morphological conformation. However, many of the environmental components such as solar radiation, temperature, humidity, wind velocity, and precipitation have serious effects on sheep productivity. Under the changing climatic scenario, the impact may be erratic and accentuated especially in the warm tropical regions. Further, sheep rearing based on pastoral and mixed farming system will be more affected by global warming than the industrialized system. Concentration of sheep is relatively congregated at hot arid and semi-arid regions of the tropics, where nomadic grazing type is the predominant sheep rearing system. Nonetheless, practices of providing shelter to sheep around the globe are highly varying in feature, which range from folding of sheep at open space with or without fencing to insulated shed that controls ventilation, lighting, feeding, and watering artificially. Spatial climatic conditions and socioeconomic status of the sheep farmers, including their legacy from community and tradition, are the major factors connected with the principles of housing requirement for sheep and the housing practices adopted by the sheep farmers. If spatial climate is the single most principal factor that decides the housing principles and practices, the types of sheep sheds can broadly be categorized as (1) open sheds, (2) semi-open sheds, and (3) enclosed sheds. However, in India and some other developing countries, different types of animal houses are constructed for sheep production without any careful planning and designing. Nonetheless, practically very little research work has been carried out especially in the tropics to assess the relative suitability of type of housing to sheep production. Though isolated reports on the effect of housing on physiological response, behavior, and growth are existing, no long-term studies on housing system with respect to the production of sheep and economy of flock production have been conducted. Whatever little evidence is available indicated that providing suitable shelter during warm climate may provide more comfort to the animals by protecting them from direct solar radiation and improve their productive performance.
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References
Adewuyi AA, Gruys E, van Eerdenburg FJ (2005) Non-esterifed fatty acids (NEFA) in dairy cattle. A review. Vet Q 27:117–126
Averos A, Martin S, Riu M, Serratosa J, Gosalvez LF (2008) Stress response of extensively reared young bulls being transported to growing-finishing farm under Spanish summer commercial conditions. Life Sci 119:174–182
Barnett JL, Hemsworth PH, Hand AM (1983) Effects of chronic stress on some blood parameters in the pigs. Appl Anim Ethol 9:273–277
Bhatta R, Swain N, Verma DL, Singh NP (2004) Studies on feed intake and nutrient utilization of sheep under two housing systems in a semi-arid range of India. Asian Austral J Anim Sci 17:814–819
Bhatta R, Swain N, Verma DL, Singh NP (2005) Effect of housing on physiologicalresponses and energy expenditure of sheep in a semi-arid region of India. Asian Austral J Anim Sci 18:1188–1193
Bøe KE, Berg S, Andersen IL (2006) Resting behaviour and displacements in ewes-effect of reduced lying space and pen space. Appl Anim Behav Sci 98:249–259
Day JP, Boland TM, Crosby TF (2006) The effects of plastic slatted floor or straw bedding on performance, liver weight and liver copper concentrations in intensively reared lambs. Livest Sci 100(2–3):270–275
De K, Ramanna BVD, Kumar D, Sahoo A (2013) Shelter management- a means to resist extreme climatic variables. In: Sahoo A, Kumar D, Naqvi SMK (eds) Climate resilient small ruminant production. National initiative on climate resilient agriculture. Central Sheep and Wool Research Institute, Avikanagar, pp 75–83
De K, Kumar D, Kumar K, Sahoo A, Naqvi SMK (2015) Effect of different types of housing on behavior of Malpura lambs during winter in semi-arid tropical environment. J Vet Behav Clin Appl Res 10:237–242
Delgado, C.L., 2003. Rising consumption of meat and milk in developing countries has created a new food revolution. J Nutr, 133: 39075-39105 (Supplement 2 on Animal Source Foods)
Færevik G, Andersen IL, Bøe KE (2005) Preference of sheep for different types of pen flooring. Appl Anim Behav Sci 90:265–276
Flatten O, Ronning L (2013) A study of factors influencing financial performance of sheep farms in Norway. NILF-Report, 2011–2013
Fournier F, Festa-Bianachet M (1995) Social dominance in adult female mountain goats. Anim Behav 49:1449–1459
Hatem MH, Abdel-Moniem E, Hussein AN (2015) Effect of roofing material type on microclimate in the sheep buildings. Agric Eng Int CIGR J 2015:52–56
Holmoy IH, Kielland C, Stubsjoen SM, Hektoen L, Waage S (2012) Housing conditions and management practices associated with lamb mortality in sheep flocks in Norway. Prev Vet Med 107: 231–241
Hughes BO, Duncan IJH (1988) The notion of ethological ‘need’, models of motivation and animal welfare. Anim Behav 36:1696–1707
Hutson GD (1984) Spacing behaviour of sheep in pens. Appl Anim Behav Sci 12:111–119
Indian Council of Agricultural Research (ICAR) (2002) Hand book of animal husbandry, 3rd edn. Indian Council of Agricultural Research, New Delhi
Jorgensen GHM, Andersen IL, Berg S, Bøe KE (2009) Feeding, resting and social behaviour in ewes housed in two different group sizes. Appl Anim Behav Sci 16:198–203
Kamal R, Dutt T, Patel BHM, Ram RP, Biswas P, Bharti PK, Kaswan S (2013) Effect of roofing materials on micro-climate in loose house for animals during rainy season. Vet World 6(8):482–485
Klont RE, Hulsegge B, Hoving-Bolink AH, Gerritzen MA, Kurt E, Winkelman-Goedhart HA, de Jong IC, Kranenet RW (2001) Relationships between behavioral and meat quality characteristics of pigs raised under barren and enriched housing conditions. J Anim Sci 79:2835–2843
Koluman N, Daskiran I (2011) Effects of ventilation of the sheep house on heat stress, growth and thyroid hormones of lambs. Trop Anim Health Prod 43:1123–1127
Kondo S, Sekine J, Okubo M et al (1989) The effect of group size and space allowance on the agonistic and spacing behaviour of cattle. Appl Anim Behav Sci 24:127–135
Liberati P, Zappavigna P (2004) Performance of ventilated roofs in hot climate. International symposium of the CIGR 2nd technical section, Evora, Portugal, pp 1–8
Maurya, V. P., Sejian, V., Kumar, K., Singh, G., Naqvi, S. M. K., 2012. Walking stress influence on livestock production. In V. Sejian (Eds.), Environmental stress and amelioration in livestock production, pp. 75–95. Berlin/Heidelberg: Springer (Chapter 4)
Minka NS, Ayo JO (2009) Physiological responses of food animals to road transportation tress. Afr J Biotechnol 8(25):7415–7427
Miranda-del Lama GC, Rivero L, Chacón G, Garcia-Belenguer S, Villarroel M, Maria GA (2010) Effect of the pre-slaughter logistic chain on some indicators of welfare in lambs. Livest Sci 128:52–59
Nagpal SK, Pankaj PK, Ray B, Talware MK (2005) Shelter management for dairy animals: a review. Indian J Anim Sci 75(10):1199–1214
Nardone A, Ronchi B, Lacetera N, Ranieri BU (2010) Effect of climate change on animal production and sustainability of livestock systems. Livest Sci 130:57–69
Nicol CJ (1992) Effects of environmental enrichment and gentle handling on behavior and fear responses of transported broilers. Appl Anim Behav Sci 33:367–380
Nilsson C (1988) Floors in animal houses. Technical design with respect to the biological needs of animals in reference to the thermal, friction and abrasive characteristics and the softness of the flooring materials. Institutionen for landbrukets byggnadsteknik, Swedish University of Agricultural Sciences, Report 61-In: Færevik G, Andersen IL, Bøe KE (2005) Preference of sheep for different types of pen flooring. App Anim Behav Sci 90:265–276
O’connell NE, Beattie VE, Weatherup RN (2004) Influence of group size during the post-weaning period on the performance and behaviour of pigs. Livest Prod Sci 86:225–232
Olleta JL, Aguayo-Ulloa LA, Miranda-de la Lama GC, Pascual-Alonso M, Villarroel M, Sañudo C, MarÃa GA (2014) Effect of enriched housing on welfare, production performance and meat quality in finishing lambs: the use of feeder ramps. Meat Sci 97:42–48
Paranhos da Costa MJR, Costa e Silva E (2007) Aspectos básicos do comportamento social de bovinos. Rev Bras Reprod Anim 31(2):172–176
Sejian V, Maurya VP, Kumar K, Naqvi SMK (2013) Effect of multiple stress on growth and adaptive capability of Malpura ewes under semi-arid tropical environment. Trop Anim Health Prod 45:107–116
Sevi A, Massa S, Annicchiarico G, Dell’Aquila S, Muscio A (1999) Effect of stocking density on ewe’s milk yield, udder health and microenvironment. J Dairy Res 66:489–499
Sevi A, Albenzio M, Annicchiarico G, Caroprese M, Marino R, Taibi L (2002) Effects of ventilation regimen on the welfare and performance of lactating ewes in summer. J Anim Sci 80:2349–2361
Simensen E, Valle PS, Vatn S (2010) A mail survey of factors affecting performance in 627 selected sheep flocks in south eastern Norway. Acta Agric Scand 60:194–201
Simensen E, Kielland C, Hardeng F, Bøe KE (2014) Associations between housing and management factors and reproductive performance in 327 Norvegian sheep flocks. Acta Vet Scand 56:26
Sleiman FT, Saab SA (1995) Influence of environment on respiration, heart rate and body temperature of filial crosses compared to local Awassi sheep. Small Rumin Res 16:49–53
Tan SSL, Shackleton DM, Beames RM et al (1991) The effect of mixing unfamiliar individuals on the growth and production of finishing pigs. Anim Prod 52:201–206
Turner SP, Even M, Rook JA et al (2000) The effect of space allowance on performance, aggression and immune competence of growing pigs housed on straw deep-litter at different group sizes. Livest Prod Sci 66:47–55
Urano FS, Pires VA, Susin V et al (2006) Desempenho e caracterÃsticas de carcac¸ a de cordeiros confinados alimentados com grãos de soja. Pesq Agropec Bras 41:1525–1530
Van DTT, Thi Mui N, Ledin I (2007) Effect of group size on feed intake, aggressive behaviour and growth rate in goat kids and lambs. Small Rumin Res 72:187–196
Vandenheede M, Bouissou MF (1993) Sex differences in fear reactions in sheep. Appl Anim Behav Sci 37:39–55
Veissier I, Boissy A, Nowak R et al (1998) On to geny of social awareness in domestic herbivores. Appl Anim Behav Sci 57:233–245
Villeneuve L, Méthot H, Cinq-Mars D, Bergeron R (2009) Effect of individual or paired housing during post-weaning on feed intake, growth rate and behaviour of lambs. Small Rumin Res 85:99. doi:10.1016/j.smallrumres.2009.07.007
Wolf BT, Molloy HRB, Trayte MJ, Rose MT (2010) Behaviour of growing lambs housed on straw or woodchip bedding materials and their preference for floor type. Appl Anim Behav Sci 124:45–50
Young RJ (2003) Environmental enrichment for captive animals, UFAW animal welfare series. Blackwell Publishers, Oxford
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De, K., Kumar, D., Thirumurugan, P., Sahoo, A., Naqvi, S.M.K. (2017). Ideal Housing Systems for Sheep to Cope with Climate Change. In: Sejian, V., Bhatta, R., Gaughan, J., Malik, P., Naqvi, S., Lal, R. (eds) Sheep Production Adapting to Climate Change. Springer, Singapore. https://doi.org/10.1007/978-981-10-4714-5_16
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