Body condition score and locomotion score help to predict reproductive and health performances of dairy cattle

Body condition score and locomotion score help to predict reproductive and health performances of dairy cattle

Title: Body condition score and locomotion score help to predict reproductive and health performances of dairy cattle

Authors: DNN Madushanka, VM Ranasingha, AMS Bandara, WRAS Mayurawansha and MPS Magamage

Source: Ruminant Science (2016)-5(2):179-186.

Cite this reference as: Madushanka DNN, Ranasingha VM, Bandara AMS, Mayurawansha WRAS and Magamage MPS (2016). Body condition score and locomotion score help to predict reproductive and health performances of dairy cattle. Ruminant Science 5(2):179-186.

Abstract

The present study was conducted to elucidate the applicability of body condition score (BCS) and locomotion score (LMS) to predict the reproductive and health performance of cows in intensive manage dairy herd in upcountry dairy farm in Sri Lanka. BCS and LMS were scored using 1 to 5 point score system. Forty three (n=43) pregnant cows and forty six (n=46) early lactating cows were selected for the study. Fertility was measured from farm records based on conception rate and length of postpartum anestrus of the selected herds. BCS level 2 to 4 has shown the lowest postpartum length. Under the given conditions, BCS<2 level has shown 70.75±4.09 days of post-partum length, where BCS 2-4 level has shown 34.4±2.15 days of post-partum anestrus length. This was the lowest recoded postpartum anestrus length during the study period. Low LMS was also associated with the lowest post-partum length compared to other groups (56.29±5.29 in LMS<2, 47.16±5 in LMS >2, 36±1.15 in control). There was significant (P<0.0075) effect of BCS on retained placenta condition. LMS has significant (P<0.0098) impact on retained placenta condition. There was no significant effect (P>0.2547) of body condition score on dystocia. A significant effect (P<0.0163) of lameness condition was observed on dystocia. Higher lameness condition score has shown significant effect (P<0.0098) on increasing incidents of endometritis. Poor body condition score has recorded significant effect to the lowering conception rate (P<0.0026). In conclusion, BCS and LMS have direct relationship with the reproductive performance and herd health parameters of dairy cattle, therefore the BCS and LMS can be effectively used to predict the reproductive performance in dairy cattle in the herds under intensive management system.

References

Alawneh JI, Laven RA and Stevenson MA (2011). The effect of lameness on the fertility of dairy cattle in a seasonally breeding pasture-based system. Journal of Dairy Science 94(11):5487-93.

Barkema HW, Westrik JD, van Keulen KAS, Schukken YH and Brand A (1994). The effects of lameness on reproductive performance, milk production and culling in Dutch dairy farms. Preventive Veterinary Medicine 20(4):249-59.

Bartolome JA, Khalloub P, de la Sota RL, Drillich M and Melendez PG (2014). Strategies for the treatment of dairy cows at high risk for postpartum metritis and for the treatment of clinical endometritis in Argentina. Tropical Animal Health and Production 46(1):79-85.

Benzaquen ME, Risco CA, Archbald LF, Thatcher MJ and Thatcher WW (2004). Evaluation of rectal temperature and calving relating factors on the incidence of metritis in postpartum dairy cows. 37th Annual Convention Proceedings American Association of Bovine Practitioners 197-198.

Berry DP, Lee JM, Macdonald KA and Roche JR (2007a). Body condition score and body weight effects on dystocia and stillbirths and consequent effects on post calving performance. Journal of Dairy Science 90:4201-4211.

Berry DP, Roche JR and Coffey MP (2007b). Body condition score and fertility more than just a feeling. fertility in dairy cows. Bridging the gaps Liverpool Hope University, Liverpool, UK, 107-118.

Boisclar Y, Grieve DG, Allen OB and Curtis RA (1987). Effect of prepartum energy, body condition, and sodium bicarbonate on health and blood metabolites of Holstein cows in early lactation. Journal of Dairy Science 70:2280.

Booth CJ, Warnick LD, Gröhn YT, Maizon DO, Guard CL and Janssen D (2004). Effect of lameness on culling in dairy cows. Journal of Dairy Science 87(12):4115-22.

Butler WR and Smith RD (1989). Interrelationships between energy balance and postpartum reproductive function in dairy cattle. Journal of Dairy Science 72:767-83.

Collick D, Ward W and Dobson H (1989). Associations between types of lameness and fertility. Veterinary Record 125(5):103-6.

Diskin MG and Kenny DA, (2016). Managing the reproductive performance of beef cows. Theriogenology 86(1):379-87.

Dobson H, Smith R, Royal M, Knight Ch and Sheldon I (2007). The high-producing dairy cow and its reproductive performance. Reproduction in  Domestic Animals 42(Suppl 2):17-23.

Edmonson AJ, Lean IJ, Weaver LD, Farver T and Webster G (1989). A Body condition score chart for Holstein dairy cows. Journal of Dairy Science 72:68-78.

Ferguson JD, Galligan DT and Thomsen N (1994). Principal descriptors of body condition score in Holstein cows. Journal of Dairy Science 77:2695-2703.

Friggens NC and Badsberg JH (2007). The effect of breed and parity on curves of body condition during lactation estimated using a non-linear function. Animal 1(4):565-74

Gröhn YT, Erb HN, McCulloch CE and Saloneimi H (1989). Epidemiology of metabolic disorders in dairy cattle: association among host characteristics, disease, and production. Journal of Dairy Science 72:1876-1885.

Gröhn YT, Eicker SW and Hertl JA (1995). The association between 305-day milk yield and disease in New York dairy cows. Journal of Dairy Science 78:1693-1702.

Hernandez J, Shearer JK and Webb DW (2001). Effect of lameness on the calving-to-conception interval in dairy cows. Journal of the American Veterinary Medical Association 218:1611-1614.

Jolly PD, McDougall S, Fitzpatrick LA, Macmillan KL and Entwistle KW (1995). Physiological effects of undernutrition on postpartum anoestrus in cows. Journal of Reproduction and Fertility 49:477-492.

Kadivar A, Ahmadi MR and Vatankhah M (2014). Associations of prepartum body condition score with occurrence of clinical endometritis and resumption of postpartum ovarian activity in dairy cattle. Tropical Animal Health and Production 46(1):121-6.

Lopez H, Satter LD and Wiltbank MC (2004). Relationship between level of milk production and estrous behavior of lactating dairy cows. Animal Reproduction Science 81:209-223.

Lucey S, Rowlands G and Russell A (1986). The association between lameness and fertility in dairy cows. Veterinary Record 118(23):628-31.

Lucy MC (2003). Mechanisms linking nutrition and reproduction in postpartum cows. Reproduction S61:S415-S417.

Lucy MC (2001). Reproductive loss in high-producing dairy cattle: where will it end? Journal of Dairy Science 84:1277-1293.

Markusfeld O, Galon N and Ezra E (1997). Body condition score, health, yield and fertility in dairy cows. American Journal of Veterinary Research 141:67-72.

Melendez A, Talloczy Z, Seaman M, Eskelinen EL, Hall DH and Levine B (2003a). Autophagy genes are essential for dauer development and life-span extension C. elegans. Science 301:1387-91.

Melendez P, Bartolome J, Archbald LF and Donovan A (2003b). The association between lameness, ovarian cysts and fertility in lactating dairy cows. Theriogenology 59:927-937.

Montiel F and Ahuja C (2003). Body condition and suckling as factors influencing the duration of postpartum anestrus in cattle. Animal Reproduction Science 85:1-26.

Morris MJ, Walker SL, Jones DN, Routly JE, Smith RF and Dobson H (2009). Influence of somatic cell count, body condition and lameness on follicular growth and ovulation in dairy cows. Theriogenology 71(5):801-806.

Noakes DE, Parkinson TJ and England GCW (2001). Dystocia and other disorders associated with parturition. Arthur’sVeterinary Reproduction and Obstetrics. 8th Edn, Saunders. pp 205-217.

Nocek JE (1997). Bovine acidosis: Implications on laminitis. Journal of Dairy Science 80: 1005-1028.

Pedron O, Cheli F and Senatore E (1993). Effect of body condition score at calving on performance, some blood parameters, and milk fatty acid composition in dairy cows. Journal of Dairy Science 76:2528-2535

Peake KA, Biggs AM, Argo CM, Smith RF, Christley RM and Routly JE (2011). Effects of lameness, subclinical mastitis and loss of body condition on the reproductive performance of dairy cows. Veterinary Record 168(11):301.

Peters R and Laven RA (1996). Papers and Articles Review Article Treatment of bovine retained placenta and its effects. Veterinary Record 85:223-236.

Rhodes FM, McDougall S, Burke CR, Verkerk GA and Macmillan KL (2003). Treatment of cows with an extended postpartum anestrous interval. Journal of Dairy Science 86:1876-1894.

Sakaguchi M (2011). Practical aspects of the fertility of dairy cattle. Journal of Reproduction and Development 57(1):17-33.

Sprecher DJ, Hostetler DE and Kaneene JB (1997a). A lameness scoring system that uses posture and gait to predict dairy cattle reproductive performance. Theriogenology 47(6):1179-87.

Sprecher DJ, Hostetler DE and Kaneene JB (1997b). A lameness scoring system that uses posture and gait to predict dairy cattle reproductive performance. Theriogenology 47:1179-1187.

Washburn SP, Silvia WJ, Brown CH, McDaniel BT and McAllister  A J  (2002).  Trends in  reproductive performance in southeastern Holstein and Jersey DHI herds. Journal of Dairy Science 85:244-251

Wildman EE, Jones GM, Wagner PE, Boman RL,Troutt Jr HF and Lesch TN (1982). A dairy cow body condition scoring system and its relationship to selected production characteristics. Journal of Dairy Science 65:495-501.

Wright IA, Rhind SM, Russel AJF, Whyte TK, McBean AJ and McMillen SR (1987). Effects of body condition, food intake and temporary calf separation on the duration of the post-partum anoestrus period and associated LH, FSH and prolactin concentrations in beef cows. Animal Production 45:395-402.