Physiological Respons of Bali and Simbal Cattles on the Thermal Environtment of Lowland and Highland Areas in Lombok Island

Lalu Wira Pribadi; Rr. Agustien Suhardiani; Tahyah Hidjaz; M. Ashari; Happy Poerwoto; Rina Andriati

doi:10.29303/jbt.v21i3.2771

Physiological Respons of Bali and Simbal Cattles on the Thermal Environtment of Lowland and Highland Areas in Lombok Island

Authors

Lalu Wira Pribadi , Rr. Agustien Suhardiani , Tahyah Hidjaz , M. Ashari , Happy Poerwoto , Rina Andriati

DOI:

10.29303/jbt.v21i3.2771

Published:

2021-09-13

Issue:

Vol. 21 No. 3 (2021): September - Desember

Keywords:

physiological respons, thermal environment, lowland, highland, Bali cattle, Simbal cattle

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Pribadi, L. W., Suhardiani, R. A., Hidjaz, T., Ashari, M., Poerwoto, H., & Andriati, R. (2021). Physiological Respons of Bali and Simbal Cattles on the Thermal Environtment of Lowland and Highland Areas in Lombok Island. Jurnal Biologi Tropis, 21(3), 648–661. https://doi.org/10.29303/jbt.v21i3.2771

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Abstract

The effort to increase productivity of Bali cattle in Lombok Island made use of crossbreeding with exotic breeds, such as Simmental, Limousine, Charolais, Hereford, and Brahman breed, in which Simmental was suggested the best one. However, replacing indigenous with exotic breed might in fact create significant problem, especially low tolerance on harsh environment condition and increased work to feed each animal because of higher growth and greater size at maturity. This study that mean objective to investigate the physiological respons of Bali and Simbal cattleÃÂ on the thermal environment of lowland and highland areas in Lombok island, was carried out by measure the rectal temperature (BT, ^oC), respiration rate (RR, resp/min), and heat tolerance coefficient (HTC) of 320 cattles in lowland and 280 cattle in highland, each consisted of pure Bali breed (B), crossbred of B x Simmental (SB), backcross of SB x Simmental (SBS), and backcross of SB x Bali (SBB). Each genotype consist of male and female, and 24-36 months of age. All cattle observed are ordered to be similar condition with BCS 3-5. The thermal condition of lowland and highland are measured from air temperature (^oC), relative humidity (%), and temperature humidity index (THI). Data were analysed by using Anova and further test using HSD-test. Results of the study shows, the daily temperature and THI data obtained for the lowland environment are in considered to thermal stress zone for beef cattle, whereas those of found for the highland are within range of safety zone for cattle production. Physiological response shuch as BT, RR, and HTC, were significantly higher for cattle in the lowland than those in highland. The crossbreds cattle with higher proportion of Simmental genetic showed higher BT, RR, and HTC in the lowland, but became decrease in highland environment by higher decreasing index. It could be conclused that environmental condition in lowland with average THI of 80.02 lead to coused thermal stress to genotypes of Simbal cattle based on HTC wich in average of 2.91; however in highland wich average THI of 69.39 each genotype of cattle shows physiological responses in the normal range.ÃÂ

References

Alencar, C.M., L.E. Henkes, L.G. Papadopolis, & J.C. Moraes, (2005). Evidence of Genotype by Environment Interaction for Reproductive and Maternal Traits in Beef Cattle. J. Anim.Prod. 56:69-83

As-Syakur, A., (2011). Pemutakhiran Peta Agroklimat Klasifikasi Oldeman di Pulau Lombok dengan Aplikasi Sistem Informasi Geografi. J. Penelt. Lingkungan Indonesia. 210:79-87

Atmadilaga, D., (1999). Pengaruh Iklim Terhadap Ternak. Datam: Buku Simposium Meteorologi Pertanian. Bag.Klimatologi.Dep. Ilmu Penget. Alam, IPB.

Beatty, D.T., A. Barnes, E. Taylor, & S. K. Maloney (2006). Physiological Responses of Bos Taurus and Bos indicus Cattle to Prolonged Continuous Heat and Humidity. J.Anim.Sci. 84:972-985

Beatty, D.T. (2005). Prolonged and Continuous Heat Stress in Cattle: Physiology, Welfare, Electrolyte and Nutritional Interventions. Ph.D Thesis. School of Veterinary and Biomedical Sciences, Murdoch University, Australia

Bligh, J. (1995). The Receptors Concerned in the Respiratory Response to Humidity at High Ambient Evaporative Heat Loss Mechanism in Sheep. J. Physiol. 79:54

Carroll, J. A., N.C.Burdick, C.C.Chase, S.W.Colleman, & D.E.Spiers, (2012). Influence of Environment Temperature on the Physiological, Endocrine, and Immune Responses in Livestock Exposed to a Provocative Immune Challenge. Elsevier.Domestic Animal Endocrinology xx (2012)xxxwww.sciencedirect.com

Dahlen, C. R. & C. L. Stoltenow (2012). Dealing with Heat Stress in Beef Cattle Operation.NDSU Extension Service. Dakota State Univ., Fargo

DeHasan, S. (2009). Evaluasi Nutritional Pemberian Tylosin sebagai NonNutritive Feed Additive untuk Penggemukan Sapi Sistem Pakan Kurung. J. Bionomika, 4(1):23-28

Espasandin, A.G., J. I. Qrieste, L. T. Campos, M. M. de Alencar; 2011. Genotype x Environment Interaction for Weaning Weight in Angus Population of Brazil and Uruguay. J.Bras. Zootec, 40(3):568-574

Farooq, U., H.A. Samad, F. Shehzard, and A. Qoyyum, 2010. Physiological Responses of Cattle to Heat Stress. World Appl.Sci. J. 8:38-43

Ghony, H.M.D. & F. Almansur (2011). Pedoman Praktis Penelitian Doktoral. UIN-Maliki Press, Malang

Habeeb, A.A.M., F.M.Marai, & T.H.Kamal (1992). Heat Stress. In: Farm Animal and the Environment. Phillips, C and D.Piggins (Eds.). C.A.B. Int., UK

Hansen, P. J. (2004). Physiological and Cellular Adaptation of Zebu Cattle to Thermal Stress. Anim. Rep. Sci. (82-83):349-360

Hazdie, M., A.A.Bhakti, K.Rahadi & Z.Farichin (2018). Faktor-faktor Pendorong dan Penghambat Pencapaian Swasembada Pangan di Nusa Tenggara Barat. Maj. Studi Pembangunan, 7(2):44-51

Lakitan, B. (2002). Dasar-Dasar Klimatologi.Cet. ke-2. Raja Grafindo Persada, Jkt.

Lelana, N.E., Sutarno & N. Etikawati (2003). Identifikasi polimorfisme pada fragmen ND-5 DNA mitokondria sapi Benggala dan Madura dengan teknik PCR-RLFP.

Makkin, M., (2002). Estimasi Kebutuhan Energi untuk Aktivitas Termoregulasi pada Sapi Perah Frisien Holstain. J. Pet.Indo. 11(2):223-229

Mount, L.E., (1995). Adaptation to Thermal Environment, Man and the Productive Animal. Edw.Arn, London

Nugroho, H., (2012). Produktivitas Sapi Peranakan Ongole dan Silangannya di Peternakan Rakyat pada Ketinggian Tempat Berbeda di Jawa Timur. Disertasi.Prog. Doktor Ilmu Ternak, FPs Universitas Brawijaya, Malang

Od'Ompanich, W., Singh, G., A. Kour, & G.P. Pathak (2010). Impact of Environmental Factors on Production and Reproduction in Domestic Animals. IOSR-JAVS, 7(2)(III):10-12

Pribadi, L.W. (2001). Produktivitas Sapi Bali pada Berbagai Tipe Iklim di Pulau Lombok. J. Ipteks Ã¢â¬ÅSkalaÃ¢â¬Â. 4(1):106-115

Pribadi, L.W., S.Maylinda, M.Nasich & S.Suyadi, (2014). Prepubertal growth rate of Bali cattle and its crosses with Simmental breed at lowland and highland environment. IOSR Journal of Agriculture and Veterinary Science (IOSR-JAVS), 7 (12) Ver.II: 52-59

Pribadi, L.W., S.Maylinda, M.Nasich, & S.Suyadi, (2015). Reproductive Efficiency of Bali Cattle and Its Crosses with Simmental Breed in the Lowland and Highland Areas of West Nusa Tenggara Province, Indonesia. Livestock Research for Rural Development (LRRD Journal), 27(02)2015

Purwanto, E.Purbowati & Purnomoadi (2005). Respon Fisiologis Domba Lokal Akibat Pengangkutan dari Dataran Tinggi ke Dataran Rendah. Proc. Sem.Nas.Pet.Vet. 1(2005):539-544

Ramdani, D., (2008). Pengaruh Heat Stress terhadap Performa Sapi Potong. Proc.Sem.Nas. Sapi Potong, Palu, 24 Nov. 2008. pp 67-77

Rao, A.P.K., (1997). Animal Physiology and Ecology. 6t' ed. S.Chand and Co. LTD., Ram Nagar, New Delhi

Santosa, U., (1997). Pengembangan Agribisnis Penggemukan Pedet. G.M.Offset, Bandung

Soeharsono (1998). Bionomika Ternak. Padjadjaran Univ. Press., Bdg.

Sudono, A., D. Manalu & B.P. Purwanto (2003). Respon Termoregulasi Sapi Bangsa Berbeda yang Diberi Naungan dan Tanpa Naungan dengan Pemberian Pakan Berbeda. J. Forum Pascasarjana, 26(1), 31-39

Tchanosod, J., W. Od'Ompanich & A.F. Anglemier, (1991). A Review on Effects of Breed Composition on Feed Intake and Growth Efficiency in Beef Cattle. A.I.T. Bull. Research in App. Physiol. 11:75-85

Tjasyon, B. (2004). Klimatologi.Cet. ke2. ITB Press, Bandung

Turnpenny, J.R., (2004). The Impact of Climate Change on the Thermal Balance of UK

West, J.L., A.I.F. Webster & M. Spangler (1992). The Influence of the Climate Environment on Metabolism in Cattle. Butterworths, London

Yanuarianto, O. & H. Hartadi (2002). Estimation of Energy Digestibility Values of Peanut Straw, King Grass, and Corn Stover on Ongole Crossbred Cattle. J. Anim.Sci.Tech, 1(2), 106-114

Yurmiati, H. (1997). Pengaruh Tinggi Tempat Terhadap Pertambahan Bobot Badan dan Ukuran Tubuh Domba Lokal Garut dan Silangannya dengan Domba Dormer Sampai Sapih.Pub. Berkala Hasil Peneliti. Univ. Padjadjaran, Bdg., 7(21), 116-122

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Physiological Respons of Bali and Simbal Cattles on the Thermal Environtment of Lowland and Highland Areas in Lombok Island

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