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Grover, Jagdish
- Bovine Mastitis and Management Strategies for its Prevention and Control
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1 KrishiVigyan Kendra (PAU), Faridkot (Punjab), IN
1 KrishiVigyan Kendra (PAU), Faridkot (Punjab), IN
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Research Journal of Animal Husbandry & Dairy Science, Vol 8, No 1 (2017), Pagination: 68-73Abstract
Mastitis is a complex disease of milk producing animals having huge economic implications world wide. The disease is caused by various pathological agents and has both clinical as well as subclinical manifestations. Economic losses associated with mastitis originate mainly from a decrease in milk yield, discarded milk, veterinary services expenses, cost of veterinary medicines, reduced animal value, labour expenses, deterioration of milk quality and sometimes death of animals. Mastitis leads to significant changes in milk composition and thus, considerable changes in milk fat percentage and solid not fat (SNF) content of milk which renders milk quality deterioration. Management of lactating animals has quite a significant role in prevention of mastitis at a dairy herd. Awareness of dairy farmers can help to regularly monitor and ultimately reduce the number of cases of mastitis resulting in decrease in economic losses due to it, thereby enhancing of overall profitability.Keywords
Mastitis, Bovine, Prevention, Management.References
- Akhilesh, K., Rajora, V.S., Panchauri, S.P. and Gupta, G.C. (1998). Milk profiles in clinical mastitis. Indian J. Anim. Sci., 68 (5) : 467 - 468.
- Ali, M.A., Ahmad, M.D., Muhammad, K. and Anjum, A.A. (2011). Prevalence of sub-clinical mastitis in dairy buffaloes of Punjab, Pakistan. J. Anim. & Plant Sci., 21(3): 477–480.
- APHIS (Animal and Plant Health Inspection Service). Info sheet, USDA(2008) Prevalence of contagious mastitis pathogens on U.S. dairy operations, 2007.
- Batavani, R.A., Asri, S. and Naebzadeh, H.( 2007). The effect of sub-clinicalmastitis on milk composition in dairy cows. Iranian J. Veterinary Res., 8 (3) : 205–211.
- Boyer, P.J. (1997). Outbreak of clinical mastitis in dairy cows following ‘blitz’ therapy. Vet. Rec.,141: 55.
- Bradley, A.J. and Green, M.J. (1997). Clinical mastitis in dairy cows after ‘blitz’ therapy. Vet. Rec.,141: 179-180.
- Bradley, A.J., Leach, K.A., Breen, J.E., Green, L.E. and Green, M.J. (2007). Survey of the incidence and aetiologyof mastitis on dairy farms in England and Wales.Vet. Rec., 160: 253-258.
- Bramley, A.J., Cullor, J.S., Erskine, R.J., Fox, L.K., Harmon, R.J., Hogan, J.S., Nickerson, S.C., Oliver, S.P., Smith, K.L. and Sordillo, L.M. (1996). The mastitis problem.Current concepts of bovine mastitis. (4thEd.), Madison: National Mastitis Council.
- Bramley, A.J., Cullor, J., Erskine, R., Fox, L., Harmon, R., Hogan, J., Nickerson, S., Oliver, S., Larry, Smith K. and Sordillo, L. (2003). Current concepts of bovine mastitis. 4th Ed. 421 S. Nine Mound Rd. Verona, WI: National Mastitis Council Publications.
- Dairy Australia (2011). Dairy Australia Strategic Plan 2011-2015.
- Dua, K. (2001). Incidence, aetiology and estimated loss due to mastitis in India- An update. Ind Dairy Man, 53 : 41-48.
- Edmondson, P.W.(1997). Clinical mastitis in dairy cows after ‘blitz’ therapy. Vet. Rec., 141: 108.
- FAO (2014). Impact of mastitis in small scale dairy production systems. Animal Production and Health Working Paper.No. 13. Rome, Italy.
- Gogoi, J. (1997). Public health importance of Staphylococcus aureus isolated from cases of bovine mastitis and milkers. MVSCThesis, Assam Agricultural University,ASSAM (INDIA).
- Green, M. J. and Bradley, A.J. (2001). Should you be using sand for dairy cow cubicles?In: Proceedings of the British Mastitis Conference, Garstang and Lancashire. pp. 91-2. Institute of Animal Health, Compton.
- Haenlein, G.F.W., Schultz, L.H. and Zikakis, J.P. (1973). Composition of proteins in milk with varying leukocyte contents. J. Dairy Sci., 56 : 1017.
- Halasa, T., Huijps, K., Osteras, O. and Hogeveen, H. (2007). Economic effects of bovine mastitis and mastitis management: a Review. Vet. Quarterly, 29 (1) : 18-31.
- Harmon, R.J. (1994). Physiology of mastitis and factors affecting somatic cell counts. J. Dairy Sci.,77 : 2103-2112.
- Hillerton, J. E. (1999). Balancing mastitis and quality.Proc. British Mastitis Conference, Stonelergh, UK.pp. 31-36.
- Jones, G.M. (2006).Understanding the basics of mastitis. Virginia Cooperative Extension, Publication No. 404-233, Virginia State University, USA, 1-7.
- Kavitha, K.L., Rajesh, K., Suresh, K., Satheesh, K. and Syama, Sundar N. (2009). Buffalo mastitis - risk factors.Buffalo Bull., 28 (3) : 134-137.
- Khan, A.Z. and Muhammad, G. (2005). Quarter-wise comparative prevalence ofmastitis in buffaloes and crossbred cows. Pakistan Veterinary J., 25(1) : 9-12.
- Kivaria, F.M. (2006). Epidemiological studies on bovine mastitis in smallholderdairy herds in the Dar es Salaam Region, Tanzania. Doctoral Thesis, Utrecht University, The Netherlands.
- Malik , H. U. and Mir, A.Q. (2004). Clinical and therapeutic management of bovine mastitis.Indian J. Vet. Med., 24 (2):120.
- Ma, Y., Ryan, C., Barbano, D. M., Galton, D. M., Rudan, M. A. and Boor, K. J. (2000). Effects of somatic cell count on quality and shelf-life of pasteurized fluid milk. J. Dairy Sci., 83 : 264-274.
- Mekonnen, H. and Tesafaye, A. (2010). Prevalence and etiology of mastitis andrelated management factors in market oriented smallholder dairy farms in Adama, Ethiopia. Revue de Medecine Veterinaire, 161 (12) : 574–579.
- Mellenberger R.W. (1999). Milking procedures that assure milk quality. Proc. Regional NMC Meeting, Waterloo, Ontario: 24-29 pp.
- Mooventhan,P., Kadhian, K.S., Senthil Kumar, R., Kumaresan, Manimaran, A. and Sakthivel Selvan A. (2017). Effectiveness of Mastitis management instructional video on knowledge of tribal farmers in northern hills zone of Chhattisgarh. Indian J. Anim. Sci., 87 (3): 391–395.
- Philpot, W. N. (2003). A backword glance-A forward look. In: Proc. 42nd Natl. Mastitis Counc., Inc., Annual Meeting, Taxas, USA. pp. 144-155.
- Radostis, O.M., Gay, C.C., Blood, D.C. and Hinchkliff, K.W. (2000). Veterinary Medicine:A textbook of the diseases of cattle, sheep, pigs, goats and horses. 9th Ed. ELBS &BaillierTindall. See pp. 563–660.
- Rahman, M.M., Islam, M.R., Uddin, M.B. and Aktaruzzaman, M. (2010). Prevalence of sub-clinical mastitis in dairy cows reared in Sylhet District of Bangladesh.Internat. J. Bio Res., 1 (2) : 23-28.
- Reneau, J.K. (2001). Somatic cell counts: measures of farm management and milk quality. In: Proc., National Mastitis Council Ann. Mtg. p. 29-37.
- Rosetti, C.A. (1993).Prevalence of subclinical mastitis caused by Staphylococcus aureus in the Buenos Aires Dairy area and its susceptibility to antibiotics. Vet. Argent.,10: 323-326.
- Schallibaum, M. (2001). Impact of SCC on the quality offluid milk and cheese.Proc. 40th Annual Meeting, National Mastitis Council, Madison, USA.pp. 38-46.
- Seegers, H., Fourichon, C. and Beaudeau, F. (2003). Production effects related tomastitis and mastitis economics in dairy cattle herds. Veterinary Res., 34: 475–491.
- Sharma, N., Maiti, S.K. and Sharma, K.K.(2007). Prevalence, etiology and antiobiogram of micro-organisms associated with sub-clinical mastitis in buffaloes in Durg, Chhattisgrh State (India). Internat. J. Dairy Sci., 2 (2) : 145–151.
- Shearer, J.K. and Harris, B. Jr. (2003). Mastitis in dairy goats.Anim. Sci. Dept. Florida Coop. Ext. Serv. Inst. Food Agri. Sci; Univ. Fl. Gainesville, USA. pp.1-6.
- Srivastava, A.K. (2000). Recent concepts on the use of antimicrobials in the treatment of mastitis. In: Mastitis. Verma, R. and Mamtani, A.P. (eds.), pp.62-83.
- Ullah, S. (2004). Effect of mastitis on milk composition in buffaloes under field conditions. M.Sc. (Hons.) Thesis, Deptt. Vet. Clinical Medicine and Surgery, Univ. Agri., Faisalabad, Pakistan.
- Watts, J.L. (1988). Etiological agents of bovine mastitis. Vet. Microbiol., 16: 41-66.
- Zafalon, L.F., Nader Filho, A., Oliveira, J.V. and Resende, F.D., (2007). Subclinical mastitis caused by Staphylococcus aureus: cost benefit analysis of antibiotic therapy in lactating cows. Arq. Bras. Med. Vet. Zootec., 59: 577-585.
- Rabies–A Horrifying Disease Affecting Animals as well as Humans
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1 Krishi Vigyan Kendra (P.A.U.), Faridkot (Punjab), IN
1 Krishi Vigyan Kendra (P.A.U.), Faridkot (Punjab), IN
Source
Rashtriya Krishi (English), Vol 13, No 1 (2018), Pagination: 118-119Abstract
Rabies is a dreadful disease which affects not only animals but humans also. It is considered to be zoonotic disease because it can be transmitted from animals to humans. This infectious viral disease affects nervous system and causes inflammation in the brain. Once the clinical signs appear in the affected animal or individual, the disease is almost always fatal. There is no specific treatment for rabies and hence prevention is the only way to keep the disease away. Therefore, it is of utmost importance to create awareness about rabies so that maximum population can be prevented from this fatal disease.- Field Evaluation of Productivity of Gobhi Sarson (Brassica napus) under Cluster Frontline Demonstrations in Faridkot District of South-Western Punjab
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Authors
Affiliations
1 Punjab Agricultural University, Krishi Vigyan Kendra, Faridkot (Punjab), IN
1 Punjab Agricultural University, Krishi Vigyan Kendra, Faridkot (Punjab), IN
Source
International Journal of Agricultural Sciences, Vol 16, No 2 (2020), Pagination: 227-231Abstract
One hundred fifty three front line demonstrations (FLDs) were conducted on farmers’ fields to demonstrate the effect of improved technologies on the productivity of canola type gobhi sarson var. GSC-7 using cluster approach in district Faridkot of Punjab during Rabi 2016-17 and 2017-18. The productivity of gobhi sarson under demonstration plots ranged between 19.2 to 20.4 q and 19.9 to 20.8 q/ha, respectively, for year 2016-17 and 2017-18, whereas, under farmers’ practice, the productivity varied from 14.1 to 14.2 q and 16.6 to 17.1 q/ha for the respective years. The maximum value of extension gap to the tune of 5.10 q/ha was recorded in cluster IV followed by cluster III and V (4.75 q/ha), cluster II (4.65 q/ha) and the least was in cluster I (4.10 q/ha). The technology gap in the demonstration plots over potential yield was the lowest i.e. 1.80 q/ha in cluster IV, whereas, the highest technology gap was recorded in cluster I (2.70q/ha). The technology index was 8.09 per cent for cluster IV and the highest (12.13%) for cluster I while the mean technology index was 9.48 per cent. The value of net returns per ha under demonstration plots was Rs. 71594 and Rs. 72170, whereas, farmers’ practice gave net returns per ha of Rs. 40626 and Rs. 52626 for the year 2016- 17 and 2017-18, respectively. The benefit: Cost ratio varied between 3.76 to 4.05 for 2016-17 and 3.73 to 4.04 for 2017-18 under demonstration plots while the value of same under farmers’ practice varied between 2.46 to 2.55 and 2.80 to 2.93, respectively, for year 2016-17 and 2017-18.Keywords
Front Line Demonstration, Canola Gobhi Sarson, Economic Evaluation.References
- Anonymous (2015). Department of agriculture and cooperation, Directorate of Economics and Statistics, Ministry of Agriculture and farmer welfare, GOI.
- Anuj, K. Singh, K.C. Singh, Y.P. and Singh, D.K. (2014). Impact of frontline demonstration on adoption of improved practices of oilseed crops. Indian Res. J. Extn. Edu., 14 (3):75-77.
- Balai, C.M., Meena, R.P., Meena, B.L. and Bairwa, R.K. (2012). Impact of front line demonstration on rapeseed-mustard yield improvement. Indian Res. J. Extn. Edu., 12(2): 115.
- Chaudhary, B.N. (1999). Krishi Vigyan Kendra-Guide for KVK managers. Publication, Division of Agril. Extn., ICAR, 73-78pp.
- Choudhary, A.K., Yadav, D.S. and Singh, A. (2009). Technological extension yield gaps in oilseeds in Mandi district of Himachal Pradesh. Indian J. Soil Conserv., 37 (3): 224-229.
- Hiremath, S.M. and Nagaraju, M.V. (2010). Evaluation of on farm front line demonstrations on the yield of chilli. Karnataka J. Agric. Sci., 23 (2) : 341-342.
- Imoloame, E.O., Gworgwor, N.A. and Joshua, S.D. (2007). Sesame (Sesamum indicum L.) weed infestation, yield and yield components as influenced by sowing method and seed rate in a Sudan Savanna agro-ecology of Nigeria. African J.Agric. Res., 2 (10) : 528-533.
- Jeengar, K.L., Panwar, P. and Pareek, O.P. (2006). Front line demonstration on maize in Bhilwara district of Rajsthan. Curr.Agric., 30 (1/2) : 115-116.
- Kapila, Shekhawat, Rathore, S. S., Premi, O. P., Kandpal, B.K. and Chauhan, J.S. (2012). Advances in agronomic management of Indian mustard [Brassica juncea (L.) Czernj. Cosson] : An overview. Internat. J. Agronomy, 2012 : 1-14 .
- Kumar, A. (2017). Oilseed technologies towards selfsufficiency in changing climate scenario. In: Proc 3rd Nat. Brassica conf 16-18 Feb, 2017, ICAR-IARI, New Delhi, India, 2-12pp.
- Mukherjee, N. (2003). Participatory, learning and action. Concept, Publishing Company, New Delhi, India.
- Panday, I.D., Singh, B. and Sachan, J.N. (1999). Brassica hybrid research in India: status and prospects. Proceedings of the tenth international rape seed congress. Canberra, Australia.
- Prasad, R., Sharma, A., Sood, R. and Kumari, V. (2018). Relative efficacy of natural resource use in gobhi sarson (Brassica napus) in Himachal Pradesh, India. J. Oilseed Brassica, 9 (1) : 27 - 32.
- Samui, S.K., Maitra, S., Roy, D.K., Mandal, A.K. and Saha, D. (2000). Evaluation of front line demonstration on groundnut. J. Indian Soc. Coastal Agric. Res., 18: 180-183.
- Bioprospecting Augmented Production of Neutraceutically Rich Karonda (Carissa carandus Linn) by Osmotic Dehydration using Response Surface Methodology
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Authors
Affiliations
1 Department of Fruit Science, Punjab Agricultural University, Ludhiana, Punjab - 141 004, IN
2 Regional Research Station, Bathinda, Punjab Agricultural University, Ludhiana, Punjab - 151 001, IN
3 Regional Research Station, Bathinda, Punjab Agricultural University, Ludhiana, Punjab - 151 001
4 Department of Microbiology, Punjab Agricultural University, Ludhiana, Punjab - 141 004, IN
1 Department of Fruit Science, Punjab Agricultural University, Ludhiana, Punjab - 141 004, IN
2 Regional Research Station, Bathinda, Punjab Agricultural University, Ludhiana, Punjab - 151 001, IN
3 Regional Research Station, Bathinda, Punjab Agricultural University, Ludhiana, Punjab - 151 001
4 Department of Microbiology, Punjab Agricultural University, Ludhiana, Punjab - 141 004, IN