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Literatur
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1 The importance of the nonlactating period in the epidemiology of intramammary infection and strategies for prevention.
Bradley, A.J., M.J. Green.
In: Veterinary Clinics of North America Food Animal Mastitis: Managing the Transition Cow to Optimize Health and Productivity. © 2004. W.B. Saunders Co. Philadelphia, Pennsylvania. 20(3):547 568.
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2 A prospective investigation of intramammary infections due to enterobacteriacea during
the dry period: A presentation of preliminary findings.
Bradley, A. J., Green, M. J.
Cattle Practice 6, 91-94.
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3 The sources of mastitis pathogens for a dairy herd and their control.
Bramley, A. J.
Kieler Milchwirtschaftliche Forschungsberichte 37, 375-385.
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4 Reviews of the progress of dairy science: Mastitis control- progress and prospects
Bramley, A. J., Dodd, F. H.
J. Dairy Res. 51, 481-512.
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5 Natural protective factors in bovine mammary secretions following different methods of milk cessation.
Bushe, T., S.P. Oliver.
J. Dairy Sci. 70:696-704.
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6 Changes in the microscopic anatomy of the bovine teat canal during mammary involution.
Comalli, M.P., R.J. Eberhart, L.C. Griel, Jr., H. Rothenbacher.
Am. J. Vet. Res. 45:2236-2242.
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7 The association of teat canal closure and other risk factors for new dry period intramammary infections.
Dingwell, R.T., L.L. Timms, J.M. Sargeant, D.F. Kelton, Y.H. Schukken, K.E. Leslie.
Proc. 42nd Annu. Meet. of the National Mastitis Council. Forth Worth, TX. Jan. 26-29, 2003. pp. 298-299.
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8 Deciding to dry-off: Does level of production matter?
Dingwell, R.T., D.F. Kelton, K.E. Leslie, V.L. Edge.
Proc. Annu. Meet. National Mastitis Council. Feb. 11-14, 2001. Pg. 69-79.
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9 Recurrent clinical mastitis caused by Escherichia coli in dairy cows.
Döpfer, D., Barkema, H. W., Lam, T. J. G. M., Schukken, Y. H., Gaastra, W.
J. Dairy Sci. 82, 80-85.
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10 Herd management and prevalence of mastitis in dairy herds in high and low somatic cell counts.
Erskine, J. R., Eberhart, J. R., Hutchinson, L. J., Spencer S. B.
JAVMA 190, 1411-1416.
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11 Prevention of clinical coliform mastitis in dairy cows by a mutant Escherichia coli vaccine.
Gonzalez, R.N., J.S. Cullor, D.E. Jasper, R. Gonzalez
Can. J. Vet. Res. 53:301.
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12 Mastitis control practices: Differences between herds with high and low milk somatic cell counts.
Hutton, C. T., Fox, L. K., and Hancock, D. D.
J. Dairy. Sci 73, 1135-1143.
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13 Elements of mastitis control.
Natzke, R.P.
J. Dairy Sci. 64:1431-1442.
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14 Control of mastitis in the dairy herd by hygiene and management.
Neave, F. K., Dodd, F. H., Kingwill, R. G., Westgarth, D. R. (1969)
J. Dairy Sci. 52, 696-707.
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15 Intramammary infections and risk factors for clinical mastitis in herds with low somatic cell counts in bulk milk.
Schukken, Y. H., Van de Geer, D., Grommers, F. J., Smith, J. A. H., Brand, A.
Veterinary Record 125, 393-396.
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16 Environmental mastitis.
Smith, K. L., Hogan, J. S.
Vet Clin North Am Food Anim Pract. 9, 489-498.
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17 Environmental mastitis: Cause prevalence, prevention.
Smith, K., Todhunter, D., Schoenberger, P.
J. Dairy Sci. 68, 1531-1553.
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18 Environmental Streptococcal Intramammary Infections of the bovine mammary gland.
Todhunter, D. A., Smith, K. L., Hogan, J. S.
J. Dairy Sci. 78, 2366-2374.
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19 Gram-negative bacterial infections of the mammary gland in cows.
Todhunter, D. A., Smith, K. L., Hogan, J. S., Schoenberger, P. S.
Am. J. Med. Res. 52, 184-188.
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20 Characterization and identification of streptococci isolated from bovine mammary glands.
Watts, J. L.
J. Dairy Sci. 71, 1616-1624
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21 The prophylactic effect of a dry-cow antibiotic against Streptococcus uberis.
Williamson, J.H., M.W. Woolford, A.M. Day.
New Zealand Vet. J. 43:228-234.
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