D. Belay 1, J. Verbeke 2, K. Yisehak1, D. Solomon 1, S. Belew1, S. Devliegher 3, G.P.J. Janssens 2 1...
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D. Belay D. Belay 1 , J. Verbeke , J. Verbeke 2 , K. Yisehak1, D. Solomon , K. Yisehak1, D. Solomon 1 , S. Belew1, S. Devliegher , S. Belew1, S. Devliegher 3 , G.P.J. Janssens , G.P.J. Janssens 2 1 Department of Animal Science, Jimma University, Jimma, Ethiopia; Department of Animal Science, Jimma University, Jimma, Ethiopia; 2 Laboratory of Animal Nutrition, Ghent University, Merelbeke, Belgium; Laboratory of Animal Nutrition, Ghent University, Merelbeke, Belgium; 3 Department of Reproduction, Obstetrics and Department of Reproduction, Obstetrics and Herd Health, Ghent University, Merelbeke, Belgium Herd Health, Ghent University, Merelbeke, Belgium Discussion Discussion Material and Methods Material and Methods Results and Discussion Introduction Introduction References References • Milk production was on average low (Table 1) • Fat and protein content of the milk was less than that reported by Fekadu and Michalak, 1988; Zinash et al., 1988) for crossbred cows around Holeta and Addis Ababa • The SCC ranged from 142 to 3154 per µl on a farm basis. • Prevalence of subclinical mastitis based on SCC was 71.15% • Plasma Cu concentrations were on average below the threshold for deficiency (Table 2). • Kincaid (1999) indicated that marginal deficiency of plasma copper is 0.7 to 0.9µ/ml and it is considered adequate when the level is 0.9 to 1.1 • A positive correlation was found between SCC and milk production (r = 0.782). • Plasma Cu and geometric SCC average per farm were negatively correlated (r = - 0.691). • This suggests that Cu deficiency increased the susceptibility of dairy cattle for mastitis k -Mastitis is a serious disease of dairy animals causing great economic losses due to reduction in milk yield, as well as lowering its nutritive value (Allore, 1993). - In Ethiopia, bovine mastitis is one of the most frequently encountered diseases of dairy cows (Lemma et al., 2001). -mastitis results from immune system failure of the cow -there is a strong relationship between blood concentrations of micronutrients and immune function. -Lack of specific nutrients can impair proper resistance against mastitis pathogens. -Particularly microminerals influence some aspects of immune function (Smith et al., 1994). Harmon et al. 1994; Scaletti et al. (2003) ) found Cu-supplemented cows and heifers had fewer infected mammary gland . →AIM: investigate whether micromineral status is related with mastitis parameters and whether micromineral supplementation would be a useful strategy to improve disease resistance, hence mastitis incidence in dairy cattle Allore, H. G., 1993. A review of the incidence of Allore, H. G., 1993. A review of the incidence of mastitis in buffaloes and cattle. Pakistan Vet. J., mastitis in buffaloes and cattle. Pakistan Vet. J., 13: 1-7. 13: 1-7. Fekadu Beyene and Michalak, B.W. 1988. Composition Fekadu Beyene and Michalak, B.W. 1988. Composition and quality of milk delivered to Addis Abeba milk and quality of milk delivered to Addis Abeba milk plant and the effect of transportation on quality. plant and the effect of transportation on quality. Second national livestock improvement conference, Second national livestock improvement conference, 24-26 February, Addis Ababa, Ethiopia. Pp.119-123 24-26 February, Addis Ababa, Ethiopia. Pp.119-123 Harmon, R. J., and P. M. Torre. 1994. Copper and Harmon, R. J., and P. M. Torre. 1994. Copper and zinc: do they influence mastitis? Pages 54-65 in zinc: do they influence mastitis? Pages 54-65 in Proc. National Mastitis Council. Orlando, FL. Proc. National Mastitis Council. Orlando, FL. Kincaid, R.L., 1999. Assessment of trace mineral Kincaid, R.L., 1999. Assessment of trace mineral status of ruminants: A review. Proceedings of the status of ruminants: A review. Proceedings of the American Society of Animal Science, 1999. American Society of Animal Science, 1999. Lemma M, Kassa T and Tegegene A 2001 Clinically Lemma M, Kassa T and Tegegene A 2001 Clinically manifested major health problems of crossbred dairy manifested major health problems of crossbred dairy herds in urban and periurban production systems in herds in urban and periurban production systems in the central high lands of Ethiopia. Journal of the central high lands of Ethiopia. Journal of Tropical Animal Health and Production 33: 85–89 Tropical Animal Health and Production 33: 85–89 Scaletti, R.W., D.S. Trammell, B.A. Smith, and R.J. Scaletti, R.W., D.S. Trammell, B.A. Smith, and R.J. Harmon. 2003. Role of dietary copper in enhancing Harmon. 2003. Role of dietary copper in enhancing resistance to Escherichia coli mastitis. J. Dairy resistance to Escherichia coli mastitis. J. Dairy Sci. 86:1240-1249. Sci. 86:1240-1249. Smith, K.L. 1996. Standards for somatic cells in Smith, K.L. 1996. Standards for somatic cells in milk; physiological and regulatory. Mastitis milk; physiological and regulatory. Mastitis Newsletter, Newsletter of the ID, 144: 7. Newsletter, Newsletter of the ID, 144: 7. Zinash, S. Seyoum, B. Michalak, B.W. and Teshome, K. Zinash, S. Seyoum, B. Michalak, B.W. and Teshome, K. (1988). Observations on the fat and protein (1988). Observations on the fat and protein contents of the milk of crossbred and local cows. contents of the milk of crossbred and local cows. In: Proceedings of the second National Livestock In: Proceedings of the second National Livestock Improvement Conference, 24-26 February, Improvement Conference, 24-26 February, Addis Ababa Addis Ababa Ethiopia. Pp. 124-126. Ethiopia. Pp. 124-126. - - A survey was conducted in 11 dairy farms A survey was conducted in 11 dairy farms in Jimma town in Jimma town -feed samples were collected from 11 -feed samples were collected from 11 farms farms -milk and blood sample was collected from -milk and blood sample was collected from 52 lactating cows 52 lactating cows -Blood plasma and feed samples were -Blood plasma and feed samples were anaysed for micronutrients anaysed for micronutrients -Milk samples were analysed for protein, -Milk samples were analysed for protein, fat and determination of somatic cell fat and determination of somatic cell count (SCC). count (SCC). Plate 2. Micromineral deficiency is one of Plate 2. Micromineral deficiency is one of the factors for cattle deaths due to the factors for cattle deaths due to reduced immunity reduced immunity •The fact that high SCC coincided with high milk yield is likely because of the higher susceptibility of high- producing Holstein genotypes versus low-producing zebu breeds. •The overall high SCC figures indicate that the mastitis problem is commonly present. •The data further demonstrate that Cu is clearly deficient at the urban dairy farms, and is associated with increased SCC, hence susceptibility for mastitis. •Therefore, an intervention study needs to be conducted whether Cu supplementation can alleviate this mastitis susceptibility. Relationship between micromineral status and mastitis in urban Relationship between micromineral status and mastitis in urban dairy farms in Jimma, Ethiopia dairy farms in Jimma, Ethiopia Paramete r N Min Max Mean ± SD Milk yield 52 6.0 17.2 10 ± 3.3 Fat (%) 52 3.5 4.0 3.7 ± 0.2 Protein (%) 52 1.94 2.83 2.34 ± 0.3 Mean individual and bulk tank SCC (cells/µL) Cow level 52 143 4067 1246 ±1110 Bulk tank 10 134 2282 1089 ±715 Conclusion Conclusion This is PhD work done in the context of the IUC-JU project - Contacts: PhD student: [email protected] ; Supervisor: [email protected] Table 1. Average daily milk yield, Table 1. Average daily milk yield, chemical Composition and SCC (cells/µL) chemical Composition and SCC (cells/µL) Plate 1 Appearance of a Cu Appearance of a Cu deficient cow near the Gilgel Gibe deficient cow near the Gilgel Gibe Dam Dam Table 2. Table 2. Mineral content of blood plasma Mineral content of blood plasma Mineral type N Mean ± SD Cu 11 0.66 ±0.2 Fe 11 10.55 ±8.7 Mg 11 46.6 ±3.9 Mn 11 0.25 ± 0.28 Na 11 2967.8 ± 44.6 Zn 11 5.4 ± 2.5 P 11 112.4 ± 14
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Transcript of D. Belay 1, J. Verbeke 2, K. Yisehak1, D. Solomon 1, S. Belew1, S. Devliegher 3, G.P.J. Janssens 2 1...
D. BelayD. Belay11, J. Verbeke, J. Verbeke22, K. Yisehak1, D. Solomon, K. Yisehak1, D. Solomon11, S. Belew1, S. Devliegher, S. Belew1, S. Devliegher33, G.P.J. Janssens, G.P.J. Janssens22
11Department of Animal Science, Jimma University, Jimma, Ethiopia; Department of Animal Science, Jimma University, Jimma, Ethiopia; 22Laboratory of Animal Nutrition, Ghent University, Merelbeke, Belgium; Laboratory of Animal Nutrition, Ghent University, Merelbeke, Belgium; 33Department of Reproduction, Obstetrics and Herd Health, Ghent University, Department of Reproduction, Obstetrics and Herd Health, Ghent University, Merelbeke, BelgiumMerelbeke, Belgium
D. BelayD. Belay11, J. Verbeke, J. Verbeke22, K. Yisehak1, D. Solomon, K. Yisehak1, D. Solomon11, S. Belew1, S. Devliegher, S. Belew1, S. Devliegher33, G.P.J. Janssens, G.P.J. Janssens22
11Department of Animal Science, Jimma University, Jimma, Ethiopia; Department of Animal Science, Jimma University, Jimma, Ethiopia; 22Laboratory of Animal Nutrition, Ghent University, Merelbeke, Belgium; Laboratory of Animal Nutrition, Ghent University, Merelbeke, Belgium; 33Department of Reproduction, Obstetrics and Herd Health, Ghent University, Department of Reproduction, Obstetrics and Herd Health, Ghent University, Merelbeke, BelgiumMerelbeke, Belgium
DiscussionDiscussionDiscussionDiscussion
Material and MethodsMaterial and MethodsMaterial and MethodsMaterial and Methods
Results and DiscussionResults and DiscussionIntroductionIntroductionIntroductionIntroduction ReferencesReferencesReferencesReferences
• Milk production was on average low (Table 1)• Fat and protein content of the milk was less than that
reported by Fekadu and Michalak, 1988; Zinash et al., 1988) for crossbred cows around Holeta and Addis Ababa
• The SCC ranged from 142 to 3154 per µl on a farm basis. • Prevalence of subclinical mastitis based on SCC was
71.15%• Plasma Cu concentrations were on average below the
threshold for deficiency (Table 2). • Kincaid (1999) indicated that marginal deficiency of
plasma copper is 0.7 to 0.9µ/ml and it is considered adequate when the level is 0.9 to 1.1
• A positive correlation was found between SCC and milk production (r = 0.782).
• Plasma Cu and geometric SCC average per farm were negatively correlated (r = -0.691).
• This suggests that Cu deficiency increased the susceptibility of dairy cattle for mastitis
k-Mastitis is a serious disease of dairy animals causing great economic losses due to reduction in milk yield, as well as lowering its nutritive value (Allore, 1993).
- In Ethiopia, bovine mastitis is one of the most frequently encountered diseases of dairy cows (Lemma et al., 2001).
-mastitis results from immune system failure of the cow
-there is a strong relationship between blood concentrations of micronutrients and immune function.
-Lack of specific nutrients can impair proper resistance against mastitis pathogens.
-Particularly microminerals influence some aspects of immune function (Smith et al., 1994). Harmon et al. 1994; Scaletti et al. (2003) ) found Cu-supplemented cows and heifers had fewer infected mammary gland .
→AIM: investigate whether micromineral status is related with mastitis parameters and whether micromineral supplementation would be a useful strategy to improve disease resistance, hence mastitis incidence in dairy cattle
Allore, H. G., 1993. A review of the incidence of mastitis in buffaloes and Allore, H. G., 1993. A review of the incidence of mastitis in buffaloes and cattle. Pakistan Vet. J., 13: 1-7.cattle. Pakistan Vet. J., 13: 1-7.
Fekadu Beyene and Michalak, B.W. 1988. Composition and quality of milk Fekadu Beyene and Michalak, B.W. 1988. Composition and quality of milk delivered to Addis Abeba milk plant and the effect of transportation on delivered to Addis Abeba milk plant and the effect of transportation on quality. Second national livestock improvement conference, 24-26 quality. Second national livestock improvement conference, 24-26 February, Addis Ababa, Ethiopia. Pp.119-123 February, Addis Ababa, Ethiopia. Pp.119-123
Harmon, R. J., and P. M. Torre. 1994. Copper and zinc: do they influence Harmon, R. J., and P. M. Torre. 1994. Copper and zinc: do they influence mastitis? Pages 54-65 in Proc. National Mastitis Council. Orlando, FL.mastitis? Pages 54-65 in Proc. National Mastitis Council. Orlando, FL.
Kincaid, R.L., 1999. Assessment of trace mineral status of ruminants: A Kincaid, R.L., 1999. Assessment of trace mineral status of ruminants: A review. Proceedings of the American Society of Animal Science, 1999.review. Proceedings of the American Society of Animal Science, 1999.
Lemma M, Kassa T and Tegegene A 2001 Clinically manifested major Lemma M, Kassa T and Tegegene A 2001 Clinically manifested major health problems of crossbred dairy herds in urban and periurban health problems of crossbred dairy herds in urban and periurban production systems in the central high lands of Ethiopia. Journal of production systems in the central high lands of Ethiopia. Journal of Tropical Animal Health and Production 33: 85–89Tropical Animal Health and Production 33: 85–89
Scaletti, R.W., D.S. Trammell, B.A. Smith, and R.J. Harmon. 2003. Role of Scaletti, R.W., D.S. Trammell, B.A. Smith, and R.J. Harmon. 2003. Role of dietary copper in enhancing resistance to Escherichia coli mastitis. J. dietary copper in enhancing resistance to Escherichia coli mastitis. J. Dairy Sci. 86:1240-1249.Dairy Sci. 86:1240-1249.
Smith, K.L. 1996. Standards for somatic cells in milk; physiological and Smith, K.L. 1996. Standards for somatic cells in milk; physiological and regulatory. Mastitis Newsletter, Newsletter of the ID, 144: 7.regulatory. Mastitis Newsletter, Newsletter of the ID, 144: 7.
Zinash, S. Seyoum, B. Michalak, B.W. and Teshome, K. (1988). Zinash, S. Seyoum, B. Michalak, B.W. and Teshome, K. (1988). Observations on the fat and protein contents of the milk of crossbred Observations on the fat and protein contents of the milk of crossbred and local cows. In: Proceedings of the second National Livestock and local cows. In: Proceedings of the second National Livestock Improvement Conference, 24-26 February,Improvement Conference, 24-26 February, Addis Ababa Ethiopia. Pp. Addis Ababa Ethiopia. Pp. 124-126.124-126.
--A survey was conducted in 11 dairy farms in Jimma townA survey was conducted in 11 dairy farms in Jimma town
-feed samples were collected from 11 farms-feed samples were collected from 11 farms
-milk and blood sample was collected from 52 lactating -milk and blood sample was collected from 52 lactating cowscows
-Blood plasma and feed samples were anaysed for -Blood plasma and feed samples were anaysed for micronutrientsmicronutrients
-Milk samples were analysed for protein, fat and -Milk samples were analysed for protein, fat and determination of somatic cell count (SCC). determination of somatic cell count (SCC). Plate 2. Micromineral deficiency is one of the factors Plate 2. Micromineral deficiency is one of the factors
for cattle deaths due to reduced immunityfor cattle deaths due to reduced immunity
•The fact that high SCC coincided with high milk yield is likely because of the higher susceptibility of high-producing Holstein genotypes versus low-producing zebu breeds.
•The overall high SCC figures indicate that the mastitis problem is commonly present.
•The data further demonstrate that Cu is clearly deficient at the urban dairy farms, and is associated with increased SCC, hence susceptibility for mastitis.
•Therefore, an intervention study needs to be conducted whether Cu supplementation can alleviate this mastitis susceptibility.
Relationship between micromineral status and mastitis in urban dairy farms in Relationship between micromineral status and mastitis in urban dairy farms in Jimma, EthiopiaJimma, Ethiopia
Relationship between micromineral status and mastitis in urban dairy farms in Relationship between micromineral status and mastitis in urban dairy farms in Jimma, EthiopiaJimma, Ethiopia
Parameter N Min Max Mean ± SD
Milk yield 52 6.0 17.2 10 ± 3.3
Fat (%) 52 3.5 4.0 3.7 ± 0.2
Protein (%) 52 1.94 2.83 2.34 ± 0.3
Mean individual and bulk tank SCC (cells/µL)
Cow level 52 143 4067 1246 ±1110
Bulk tank 10 134 2282 1089 ±715
ConclusionConclusionConclusionConclusion
This is PhD work done in the context of the IUC-JU project - Contacts: PhD student: [email protected]; Supervisor: [email protected]
Table 1. Average daily milk yield, chemical Composition Table 1. Average daily milk yield, chemical Composition and SCC (cells/µL)and SCC (cells/µL)
Plate 1 Appearance of a Cu deficient cow near the Appearance of a Cu deficient cow near the Gilgel Gibe DamGilgel Gibe Dam
Table 2. Table 2. Mineral content of blood plasmaMineral content of blood plasma
Mineral type N Mean ± SD
Cu 11 0.66 ±0.2
Fe 11 10.55 ±8.7
Mg 11 46.6 ±3.9
Mn 11 0.25 ± 0.28
Na 11 2967.8 ± 44.6
Zn 11 5.4 ± 2.5
P 11 112.4 ± 14
