Peran Makromineral pada Reproduksi Ruminansia

https://doi.org/10.22146/jsv.27541

Yanuartono Yanuartono(1*), Soedarmanto Indarjulianto(2), Alfarisa Nururrozi(3), Hary Purnamaningsih(4)

(1) Fakultas Kedokteran, Hewan Universitas Gadjah Mada
(2) Fakultas Kedokteran, Hewan Universitas Gadjah Mada
(3) Fakultas Kedokteran, Hewan Universitas Gadjah Mada
(4) Fakultas Kedokteran, Hewan Universitas Gadjah Mada,
(*) Corresponding Author

Abstract


Macromineral is one component of a nutrient that has an important role in the growth, health, production,reproduction and immune system of animals. Ruminants need makromineral such as Ca, P, Mg, K, Na , Cl and S. Mineral needs of ruminant affected by several factors such as their age, pregnancy and lactation status.
Mineral deficiency can cause disturbances in reproduction ruminant. Ca and P have direct influence while Mg, K, Na, Cl and S acted indirectly on reproductive function. A complete understanding of the role macromineral on ruminant reproductive function is indispensable for the prevention of their reproductive disorders due to
improper feeding minerals.


Keywords


macromineral; mineral deficiency; reproductive disorders

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References

Agricultural Research Council. (1980). The Nutrient

Requirements of Ruminant Livestock. Slough,

England: Commonwealth Agricultural Bureaux.

Ahlawat, A.R. and Derashri, H.J. (2010). Macro

mineral profile in cyclic and non-cyclic animals

vis a vis conceiving and non-conceiving animals.

Asian J. Animal Sci., Vol. 4 (2) : 723-747.

Akhtar, M.S., Farooq, A. A., Lodhi, L.A., Muhammad,

S.A., Ayaz, M. M., Lashari, M. H., Murtaza,

S., Hussain, I, Irshad, M., Maqbool Hussain,

M. and Raza, M.A. (2014). Studies on serum

macro and micro minerals status in repeat

breeder and normal cyclic Nili-Ravi buffaloes

and their treatment strategies. African Journal

of Biotechnology Vol. 13(10) : 1143-1146.

Alfaro, E., Neathery, M.W., Miller, W.J., Crowe,

C. T., Gentry, R.P., Fielding, A.S., Pugh, D.

G. and Blackmon, D.M. (1989). Influence

of a wider range of calcium intakes on

tissue distribution of macroelements and

microelements in dairy calves. Journal of

Dairy Science 71 : 1295-1300.

Ali, F., Lodhi, L.A., Hussain, R. and Sufyan, M. (2014).

Oxidative status and some serum macro minerals

during estrus, anestrous and repeat breeding in

Cholistani cattle. Pak Vet J, 34 (4): 532-534.

Amaral-Phillips, D. M. and Heersche, G. Jr. (1997).

Role of Nutrition on Reproductive Performance.

www.ca.uky.edu/agc/pubs/asc/asc138/asc138.

pp: 1-3. Diakses tanggal 23 Mei 2016.

Amer, H.A. (2008). Some diagnostic and treatment

considerations on aborted ewes. The Internet

Journal of Veterinary Medicine, 4, 2 : 4 – 8.

Anderson, D. E. and Rings M. (2009). Current

Veterinary Therapy: Food Animal Practice St.

Louis, MO: Saunders Elsevier. : 613 – 618.

Peran Makromineral pada Reproduksi Ruminansia

Anonim (1984). Nutrient Requirements of Beef

Cattle, Sixth Revised Ed. Washington, D.C. :

National Academic Press.

Armstrong, D.L. (1999). Phosphorus in Animal

Nutrition . Better Crops With Plant Food. A

Publication of the International Plant Nutrition

Institute (IPNI) LXXXIII (83), No. 1: 32-33

Aytekin, I. and Aypak, S. U. (2011). Levels of selected

minerals, nitric oxide, and vitamins in aborted

Sakis sheep raised under semitropical conditions

Trop Anim Health Prod 43 :511–514.

Bain, S.D. and Watkins, B.A. (1993). Local

modulation of skeletal growth and bone

modelling in poultry. Journal of Nutrition 123:

–322.

Berger, L.L. (1987). Salt and Trace Minerals for

Livestock, Poultry and Other Animals. www.

seaagri.com//salt_and_trace_elements_in_

animal_nutrition.: 5 – 20. Diakses tanggal 29

Mei 2016.

Bindari, Y.R., Shrestha, S., Shrestha, N. and

Gaire, N. T. (2013). Effects of nutrition on

reproduction- A review. Adv. Appl. Sci. Res.,

(1) :421-429.

Bisinotto, R.S., Greco, L.F., Ribeiro, E.S., Martinez,

N. , Lima, F.S., Staples, C.R.,. Thatcher,

W.W. and Santos J.E.P. (2012). Influences of

nutrition and metabolism on fertility of dairy

cows Anim Reprod, Vol. 9, No. 3:.260-272.

Boland, M. P. (2003). Trace minerals in production

and reproduction in dairy cows. Adv Dairy

Technol 15, 319–330.

Carafoli, E. (1991). Calcium pump of the plasma

membrane. Physiological Reviews 71 : 129 - 149.

Carson, R.L, Caudle, A.B., Riddle, H.E. (1978).

The relationship between narrow calcium

phosphorus ratio and reproductive problems

in a daitry herd: A case report. Theriogenology

Volume 9, Issue 6 : 505-507.

Ceylan, A., Serin, I., Aksit, H. And Seyrek K. (2008).

Concentrations Of Some Elements In Dairy

Cows With Reproductive Disorders Bull Vet

Inst Pulawy 52 : 109-112.

Chahal, U.S., Niranjan, P.S. and Kumar, S. (2008).

Handbook of General Animal Nutrition, India.

International Book Distributing Co.: 110 – 112.

Chaudhary, S and Singh, A. (2004). Role of Nutrition

in Reproduction: A review. Intas Polivet, Vol.

: 229-234.

Clark, J. H. (2001). Nutrient Requirement of Dairy

Cattle Seventh Edition. Washington D.C. :

National Academy Press.: 118, 120-123.

Daniel, R. C. W. (1983). Motility of the rumen and

abomasum during hypocalcaemia. Can. J.

Comp. Med., 47: 276-280.

Das, S., Bandopadhya, S.K,, Basu, S., Ghosh, B.B.

and Dattagupta, R. (2002). Blood mineral

profile of normal cyclic and repeat breeder

crossbred cows under rural condition. Ind.

J.Anim. Reprod. 23:167-169.

DeGaris, P.J. and Lean, I.J. (2008). Milk fever in

dairy cows: a review of patho-physiology and

control principles. Vet. J. 176(1): 58-69.

Dunn, T.G. and G.E. Moss. (1992). Effects of nutrient

deficiencies and excesses on reproductive

efficiency of livestock. J. Anim. Sci. 70:1580-

Ebel, H. and Gunther, T. (1980). Magnesium metabolism:

a review. Journal of Clinical Chemistry and

Clinical Biochemistry 18 : 257–270.

El-Samad, H., Goff, J.P. and Khammash, M.

(2002). Calcium Homeostasis and Parturient

Hypocalcemia : An Integral Feedback

Perspective. J. Theor. Biol. 214:17 – 29.

Goff, J. P. (1998). Phosphorus deficiency. in Current

Veterinary Therapy 4: Food Animal Practice. J.

L. Howard, and R. A. Smith, eds. Philadelphia:

W. B. Saunders, Co.: 218– 220.

Goff, J. P. (2006). Macromineral physiology and

application to the feeding of the dairy cow

for prevention of milk fever and other

periparturient mineral disorders. Animal Feed

Science and Technology, 126(3-4): 237-257.

Goff, J.P. and Horst, R.L. (1997). Physiological

Changes at Parturition and their Relationship

Yanuartono et al.

to Metabolic Disorders. Journal of Dairy

Science, Vol.80, No.7: 1260-1268.

Greisert, B.G., Erickson, G.E., Klopfeinstein, T.J.,

Macken, C.N., Luebbe, M.K. and McDonald,

J.C. (2010). Phosporous Requirement and

Excretion of Finishing Beef Cattle Feed

Different Concentrations of Phosporous. J.

Anim. Sci. 88 : 2393 – 2402.

Gupta, S., Gupta, H.K. and Soni, J. (2005). Effect

of vitamin E and selenium supplementation

on concentrations of plasma cortisol and

erythrocyte lipid peroxides and the incidence

of retained foetal membranes in crossbred

dairy cattle. Theriogenology, 64: 1273-1286.

Habib, G., Hameed, A. and Akmal, M. (2007). Current

feeding management of peri-urban dairy

buffaloes and scope for improvement. Pakistan

Veterinary Journal. 27 (1): 35-41.

Hadiya, K.K., Derashri, H.J., Devalia, B.R. and

Jani, R.G. (2010). Effect of supplementation

of minerals and enzymes on service period

and postpartum plasma minerals profile in

crossbred cows. Vet. World 3: 173-76.

Hadzimusic, N. And Krnic, J. (2012). Values of Calcium,

Phosporus and Magnesium Concentrations in

Blood Plasma of Cows in Dependence on the

Reproductive Cycle and Season. J. Fac. Vet.

Med. Istanbul Univ. 38 (1): 1 – 8.

Hagsten, I. and Perry, T. W. (1976). Evaluation of

Dietary Salt Levels for Swine. II. Effect of Blood

and Excretory Patterns. J. An. Sci. 42:1191.

Hale, C. and Olson, K.C. (2001). Mineral Supplements

for Beef Cattle. MU Guide, Published by MU

Extension, University of Missouri-Columbia.

http://extension.missouri.edu/p/G2081.

Hess, S.Y. and Zimmermann M. B. (2004). The

effect of micronutrient deficiencies on iodine

nutrition and thyroid metabolism. Inter. J.Vit.

Nutr. Res. 74: 103-115.

Hess, B.W., Lake, S. L., Scholljegerdes, E. J.,

Weston, T. R., Nayigihugu, V., Molle, J. D. C.

and Moss. G. E. (2005). Nutritional controls

of beef cow reproduction. J. Anim. Sci. 83(E.

Suppl.): E90–E106.

Hollum, J. R. (1998). Fundamentals of general organic

and biological chemistry. 6th ed. John Wiley &

Sons, Inc, Torornto. Canada.: 23-95.

Jansson, A. and Dahlborn, K. 1999. Effects of feeding

frequency and voluntary salt intake on fluid

and electrolyte regulation in athletic horses. J

Appl Physiol, 86 : 1610-1616.

Johansson, K. 2008. Salt to ruminants and horses stud.

epsilon.slu.se/2898/1/Johansson_a_110622.

pp: 3 - 7.

Kaneko, J.J. (2008). Carbohydrate Metabolism and

Its Diseases. In: Kaneko, J.J., Harvey, J.W.and

Bruss, M.L. (Eds.), Clinical biochemistry

of domestic animals. 6th edition. Academic

Press, New York. : 64.

Kılıc, N., Ceylan, A., Serin, I. and Gokbulut, C.

(2007). Possible Interaction between lameness,

fertility some minerals, and vitamin E in dairy

cows. Bull Vet Inst Pulawy, 51:425–429.

Kimura, K., Goff, J.P., Kehrli, M.E. Jr. and Reinhardt,

T.A. (2002). Decreased neutrophil function as

a cause of retained placenta in dairy cattle. J

Dairy Sci, 85:544- 550.

Kincaid, R. (2008). Changes in the Concentrations of

Minerals in Blood of Peripartum Cows. Mid-

South Ruminant Nutrition Conference. : 1 – 8.

Kronqvist, C., Emanuelson, U., Spörndly, R. and

Holtenius, K. (2011). Effects of prepartum

dietary calcium level on calcium and

magnesium metabolism in periparturient dairy

cows. J Dairy Sci.94(3) :1365-73.

Kumar, S., Sasxena, A.and Ramsagar, (2010).

Comparative studies on metabolic profile of

anestrous and normal cyclic Murrah buffaloes.

Buff Bull, 29: 7-11.

Kumar, A.S. (2014). Blood biochemical profile in

repeat breeding crossbred dairy cows. Inter. J.

Vet. Sci. 3(4): 172-173.

Kumar, S. (2003). Management of infertility due to mineral

deficiency in dairy animals. In: Proceedings of

ICAR summer school on “Advance diagnostic

techniques and therapeutic approaches to

metabolic and deficiency diseases in dairy

Peran Makromineral pada Reproduksi Ruminansia

animals”. Held at IVRI, Izatnagar, UP (15th July

to 4th Aug.). : 128-137.

Lawton, S. (2013). Mineral Supplements for Beef Cattle,

B895, University of Georgia. UGACooperative

Extension Bulletin 895:1– 4. http://www.caes.uga.

edu/ publications/pubDetail.cfm?pk _ID=7650.

Lean, I. J., De Garis, P. J., McNeil, D. M. and Block,

E. (2006). Hypocalcaemia in dairy cows: metaanalysis

and dietary cation anion difference

theory revisited. J. Dairy Sci., 89: 669-684.

Leeson, S., de Lange, C.F.M. and Buchanan, J. S.

(1998) Potassium in Animal Nutrition. Better

Crops Vol. 82 No. 3 : 32 – 36.

Lewis, RS. (2001). Calcium signaling mechanisms in

T lymphocytes. Annu Rev Immunol, 19 : 497-

Martinez, N., Risco, C.A., Lima, F.S., Bisinotto, R.S.,

Greco, L.F., Ribeiro, E.S., Maunsell, F., Galvão,

K.N. and Santos, J.E.P. (2012). Evaluation of

peripartal calcium status, energetic profile and

neutrophil function in dairy cows at low or high

risk of developing uterine disease. J Dairy Sci,

:7158-7172.

Mayland, H. 1988. Grass tetany. in The Ruminant

Animal: Digestive Physiology and Nutrition,

Church, ed. Prospect Heights, Illinois: Waveland

Press, Inc. : 511 D.

McDonald, P., Edward, R.A., Greenhalg, J.F.D. Morgan,

C.A., Sinclair, L.A. and Wilkinson, R.G. (2010).

Animal Nutrition. Seventh Edition. United

Kingdom, Pearson.

Merck. (2003) . Merck veterinary manual. 8th ed.,

Merck Co., Inc Whitehause Station, NJ, USA.:

– 314.

Moellers, J. and Riese, R. (1988) “Nutritional Causes

of Infertility in Dairy Cows,” Iowa State

University Veterinarian: Vol. 50: Iss. 2, Article

: 89 – 94. Available at: http://lib.dr.iastate.

edu/iowastate_veterinarian/vol50/iss2/5.

Morrow, D.A. (1980). The Role of Nutrition in

Dairy Cattle Reproduction. Cun-ent Therapy

in Theriogenology, W.B. Saunders Company :

-455.

Mulligan, F., Grady, L.O., Rice, D. and Doherty, M.

(2006). Production diseases of the transition

cow: Milk fever and subclinical hypocalcemia.

Irish Veterinary Journal. 59 (12): 697-702.

Murphy, A. M. and Dobson, H. (2002). Predisposition,

subsequent fertility and mortality of cows with

uterine prolapse Vet. Rec. 151 : 733-735.

National Research Council, (2001). Nutrient Requirement

of Dairy Cattle. 7th Revised Edition.

National Research Council. (1989). Nutrient

requirements of dairy cattle. 6th rev. ed. Natl.

Acad. Sci. Washington, DC.

NRC. (2007) Nutrient Requirements of Small

Ruminants: Sheep, Goats, Cervids, and New

World Camelids. National Academy Press,

Washington, DC.

Oetzel, G.R. (1988). Parturient Paresis and

Hypocalcaemia in Ruminant Livestock.

Veterinary Clinics of North America: Food

Animal Practice, Vol.4, No.2 : 351-564.

Ogren, G. (2013). Phosphorus to Horses and

Cows. Department of Animal Nutrition

and Management Swedish University of

Agricultural Science. Uppsala. : 10 – 22.

Pandey, A.K., Shukla S.P. and. Nema, S.P (2007).

Certain haemato-biochemical alterations during

post-partum uterine prolapse in buffaloes (Bubalus

Bubalis). Buffalo Bulletin. 26(1): 20-22.

Pradhan, R. and Nakagoshi, N. (2008). Reproductive

Disorders in Cattle due to Nutritional Status.

Journal of International Development and

Cooperation. Vol. 14 No 1 : 45 – 66.

Radostits, O.M., Blood, D.C. and Gay, C.C. (2000).

Veterinary Medicine. A textbook of the diseases of

cattle, sheep, goats and horses. 8th ed., London.

Robbins, C. T. (1993). Wildlife Feeding and Nutrition.

nd ed. New York: Academic Press. : 44-52.

Roberts, S. J. (2004). Injuries and diseases of the

puerperal period. In: Veterinary Obstetrics

and Genital Diseases (Theriogenology).

nd ed. [Indian reprint]. CBS Publishers and

Distributors, New Delhi, India : 300-335.

Yanuartono et al.

Robinson, D.L., Kappel, L.C. and Boling, J.A.

(1989). Management Practices to Overcome

the Incidence of Grass Tetany. Journal of

Animal Science, Vol.67, No.12 : 3470-3484.

Roche, J.F. (2006). The effect of nutritional management

of the dairy cow on reproductive efficiency.

Animal Reproduction Science. 96(3-4) : 282-296.

Salt Institute (2007). History of salt. [http://www.

saltinstitute.org/38.html] :12-11.

Santos, J.E.P., Bisinotto, R.S., Ribeiro, E.S., Lima, F.S.,

Greco, L.F., Staples, C.R. and Thatcher, W.W.

(2010). Applying nutrition and physiology to

improve reproduction in dairy cattle. Soc Reprod

Fertil Suppl, 67 : 387-403.

Sattler, N. and Fecteau, G. (2014). Hypokalemia

Syndrome in Cattle. Veterinary Clinics of North

America: Food Animal Practice, 30(2): 351-357.

Schaefer, T. J. and Wolford, R. W. (2005). Disorders of

potassium. Emerg Med Clin North Am. 3(3):723-

Schauff, D. (2014). The Importance of Macro-Minerals:

Magnesium. The Agri-King Advantage Vol.5

Issue 3 : 1 - 4

Schroeder, J.W. (2012). Use of Minerals in Dairy Cattle.

NDSU Extension Service. : 1 – 2. https://www.

ag.ndsu.edu/pubs/ansci/dairy/as1271.

Sentruk, S. and Cihan, H. (2004). Salt poisoning in

beef cattle - Response. Veterinary and Human

Toxicology, 46 (2): 104.

Sharma, B.L., Bhatt, V.K., Jain, S.K., Shukla, S.N.

and Shukla, M.K. (2015). Peri-Parturient

Metabolic Profile in Murrah Buffaloes with

Cervico-Vaginal Prolapse. Indian Journal Of

Animal Research Volume 49 Issue 6 : 770 – 773.

Sharma, M. C., Chinmay, J. and Sarkar T. K. (2002).

Therapeutic Efficacy of Minerals Supplement

in Macro-minerals Deficient Buffaloes and

its Effect on Haematobiochemical Profile and

Production. Asian-Aust. J. Anim. Sci. Vol 15,

No. 9 : 1278-1287.

Sharma, M.C., Joshi, C., Das, G. and Hussain, K.

(2007). Mineral nutrition and reproductive

performance of the dairy animals: a review.

Indian J. Anim. Sci. 77: 599-608.

Sheetal, S. K., Choudhary, S. K. and Sengupta,

D. (2014). Mineral deficiency predisposes

occurrence of retention of placenta in

crossbred. Veterinary World 7(12) : 1140-1143.

Shils, M.E. (1997). Magnesium. In: O’Dell, B.L. and

Sunde, R.A. (eds) Handbook of Nutritionally

Essential Mineral Elements. Marcel Dekker,

New York, : 117–152.

Smith, B.P. (2009). Large animal internal medicine.

Fifth edition. Missouri:Mosby : 1374-1375.

Spears, J.W. (2011). Importance Of Salt In Digestion

And Absorption Of Nutrients : 1 – 4. www.

saltinstitute.org/.../Second-QTR-copy-ofdigest-

absorption.

Sudhir, K., Anil, K. P., Waquar, A.R. and Dinesh,

K. D. (2011). Importance of micro minerals

in reproductive performance of livestock

Veterinary World, 4(5) : 230-233.

Suttle, N.F. (2010). Mineral Nutrition of Livestock:

th Edition. CABI, United Kingdom.

Thompson, C. and Hoorn, E. J. (2012).

Hyponatraemia: an overview of frequency,

clinical presentation and complications. Best

Practice & Research Clinical Endocrinology &

Metabolism. 26: S1-S6.

Tiecke, T. G. (2010). Properties of potassium. PhD

thesis, Waals-Zeeman Institute, University of

Amsterdam

Underwood, E. J. (1981). The Mineral Nutrition of

Livestock. 2nd ed. Slough, UK: Commonwealth

Agricultural Bureaux. : 54 - 70

Underwood, E. J. and Suttle, N. F. (2001). The

Mineral Nutrition of Livestock. CABI Publ.,

New York, NY. 67 – 149.

Underwood, E.J. and Suttle, N. F. (1999). The

Mineral Nutrition of Livestock, 3rd edn. CAB

International, Wallingford, UK. 105 – 185.

Upadhyay, S.R., Singh, A.K., Sharma, N., Kumar, P.,

Hussain, K. and Soodan, J.S. (2006). ImpactOf Minerals Upon Reproduction In Farm

Animals. The Indian Cow Oct-Dec : 38 – 41.

Velladurai, C., Selvaraju, M. and Napolean R. E.

(2016). Effects of Macro and Micro Minerals

on Reproduction in Dairy Cattle A Review.

International Journal of Scientific Research in

Science and Technology. Volume 2 | Issue 1 |

: 68 – 70.

Whiteford, L. C. and Sheldon, I. M. (2005).

Association between clinical hypocalcaemia

and postpartum endometritis. Vet. Rec.

:202-203.

Yamaguchi, S., Miura, C., Kikuchi, K., Celino,

F.T., Agusa, T., Tanabe, S. and Miura, T.

(2009). Zinc an essential trace element for

spermatogenesis. Proceedings of the National

Academy of Sciences of United States of

America. 106: 10859–10864.

Yasothai, R. (2014). Review Article: Importance Of

Minerals On Reproduction In Dairy Cattle.

International Journal of Science, Environment

and Technology, Vol. 3, No 6: 2051 – 2057.

Yokus, B., Cakir, D., Icen, H., Durak, H. and

Bademkiran, S. (2010). Prepartum and

Postpartum Serum Mineral and Steroid

Hormone Concentrations in Cows with

Dystocia. Veteriner Fakultesi Dergisi. 21 (3):

– 190.



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