Blood Biochemical Levels Based on Prolificacy Level in Batur Sheep of Indonesia

Authors

  • Nur Rohmat Faculty of Animal Science, Jenderal Soedirman University
  • Mas Yedi Sumaryadi Faculty of Animal Science, Jenderal Soedirman University
  • Agus Susanto Faculty of Animal Science, Jenderal Soedirman University https://orcid.org/0000-0002-2227-2635
  • Dadang Mulyadi Saleh Faculty of Animal Science, Jenderal Soedirman University
  • Agustinah Setyaningrum Faculty of Animal Science, Jenderal Soedirman University

DOI:

https://doi.org/10.55677/ijlsar/V03I3Y2024-11

Keywords:

Blood Biochemical, Prolification, Batur Sheep

Abstract

The aim of the research was to compare the blood biochemical levels of Batur sheep based on their proliferation rate. The research used 52 Batur ewes having 2 parities from a sheep farming group in Batur District, Banjarnegara, Central Java - Indonesia. This study was conducted based on a survey method designed into 3 groups of prolification. The sheep samples used in this study have adapted to the local environment fed with basal forage as grass and vegetable waste. Drinking water was given ad libitum. The observed variables include glucose, albumin, blood urea, creatinine, cholesterol and total protein levels in sheep. The data were analyzed using the Kluskal Wallis test. The results of the study showed significant (P<0.01) in albumin, blood urea and creatine levels, significant (P<0.05) in glucose and total protein levels and no significant (P>0.05) in cholesterol levels in the 3 prolificated groups. The highest levels were in glucose at 38.32 mg/dl, albumin 0.74 g/dl, blood urea 36.68 mg/dl, cholesterol 59.29 mg/dl, creatinine 0.083 mg/dl and total protein 14.37 g/dl. Based on the results of the study, it can be concluded that different levels of prolification in sheep have significant differences in blood biochemical levels.

References

Adjisoedarmo, S., B. Purnomo, E. A. Marmono, A. T. Ari Sudewo and S. A. Santosa. 1997. Creating superior quality local sheep breeds through selection. Research Report HB II/4. Faculty of Animal Husbandry, Unsoed. Purwokerto.

Andara, G., M. Y. Sumaryadi and D. M. Saleh. 2022. Effect of Prolification Level on Hematological Levels of Batur Sheep. Journal of Animal Science and Technology 4(1): 139-151

Astuti DA, Ekastuti DR, Marwah, Suryani. 2006. Nutrient status and blood picture of local sheep reared in Gunung Walat University Forest, Sukabumi. In: Livestock Research and Development Center. National seminar on animal husbandry and veterinary technology; 2010 Jan 14; Bogor, Indonesia.

Ballmer PE. 2001. Causes and Mechanisms Of Hypoalbuminaemia. J Clin Nut. 20:271-273.

Baratawidjaja, K. G. (2006). Cells of the Immune System. Basic Immunology. 3rd Edition. Jakarta.

Bradford, G. E., I. Inounu, L. C. Iniguez, B. Tiesnamurti and D. L. Thomas. 1991. The prolificacy gene of Javanese sheep. In: J.M. Elsen, L. Bodin and J. Thimonier (Ed.). Major Gene for Reproduction in Sheep. Proc. 2nd Int. Workshop, Tolouse, France.

Cunningham, J. G. 2002. Textbook of Veterinary Physiology. New York (USA): Saunders

Elsen, J.M., L. Bodin and J. Thimonier, 1991. Major Gene for Reproduction in Sheep. INRA Paris.

Gagah, H. W., M. Yamin, H. Nuraini and A. Esfandiari. 2016. Production Performance and Blood Metabolic Profile of Garut and Jonggol Sheep Fed with Bean Sprouts Waste and Omega-3. Veterinary Journal. 2 :246-256.

Ganong, W. F., M. D. Widjajakusumah and M. Jauhari. 1999. Review of Medical Physiology. Hardjopranjoto, H. S. 1995. The Science of Elegance in Livestock. Surabaya (ID): Airlangga University Pr.

Kaslow, J. E. 2010. Analysis of Serum Protein. Santa Ana (US): 720 North Tustin Avenue Suite 104.

Khotijah L., M.A. Setiadi, K. G. Wiryawan and D. A. Astuti .2015. Reproductive Performance, Cholesterol and Progesterone Status of Garut Ewes Fed Ration Containing Different Levels of Sun Flower Oil. Pakistan Journal of Nutrition 14(7): 388-391 DOI: 10.3923/pjn.2015.388.391

Khotijah, L., Nurmiasih and D. Diapari. 2020. Nutritional Intake, Blood Profile and Metabolites in Ewes Fed a Fat-Rich Diet of Vegetable Oils. JINTP 18(2): 38-42

Lendrawati, R. Priyanto, M. Yamin, A. Jayanegara, W. Manalu, and Desrial. 2019. Physiological Response and Body Weight Shrinkage of Male Local Sheep to Transportation with Different Positions in the Vehicle. Agripet Journal. 19: 2.

Marhaeniyanto, E. and S. Susanti. 2016. Use of Green Concentrate to Improve the Performance of Young Male Sheep. National Seminar on Research Results UNITRI 172-179

Murray R. K., D. K. Granner and V. W. Rodwell. 2003. Harper's Biochemistry. 25th ed. Hartono A, Bani AP, TMN Sikumbang, translators. Jakarta (ID): EGC.

Muryanto, H. Kurnianto, and A. Malik. 2020. Potential, Problems and Alternatives for the Preservation and Development of Batur Sheep. Proceedings of the National Seminar on Readiness of Agricultural Resources and Location-Specific Innovations Entering the Industrial Era 4.0, Center for Agricultural Technology Assessment, Central Java. p 359-365.

Pal K., A. K. Para, A. Sahoo, N. M. Soren. 2015. Nitrate and Fumarate in Tree Leaves Based Diets on Nutrient Utilization, Rumen Fermentation, Microbial Protein Supply and Blood Profile in Sheep. Livestock science. 172: 5-15.

Parakkasi, A. 1999. Nutrition and Feeding Science of Domesticated Livestock. University of Indonesia Publisher. Jakarta.

Prayitno, R. S. and N. Heni. 2021. The Effect of Allium Ascalonicum Leaves (Allium Ascalonicum L.) as an Alternative Forage on Blood Lipid Profile of Sheep. Journal of Animal Husbandry 18 (1): 19-24

Riis, P. M. 1983. Dynamic Biochemistry of Animal Production. New York (USA): Amsterdam Elsevier.

Schalm, O. W. 2010. Schalm's Veterinary Hematology. 6th ed. Weiss DJ and Wardrop KJ, editors. Iowa (US): WileyBlackwell

Suharti, S., A. Shofiyana and A. Sudarman. 2017. Blood Metabolites of Sheep Supplemented with HCN and Sulfur Degrading Bacteria on Feed Containing Bitter Cassava Leaf Flour (Manihot glaziovii). Animal Food Bulletin 104(4): 31-40

Sumaryadi, M. Y. (2021). Hematological and Immunological Responses in Relation to Exogenous Hormone-Induced Prolification of Batur Sheep. Proceedings of the National Seminar "Development of Sustainable Rural Resources and Local Wisdom XI" 11(1):36-41.

Tillman. A. D., H. Hartadi and S. Reksohadiprodjo. 1998. Basic Animal Food Science. Gadjah Mada University press, Yogyakarta.

Wahjuni, R. S. and R. Bijanti. (2006). Side Effect Test of Complete Feed Formula on Liver and Kidney Function of Friesian Holstein Calves. Veterinary Medicine Media.

Downloads

Published

2024-03-20

How to Cite

Rohmat, N., Sumaryadi, M. Y., Susanto, A., Saleh, D. M., & Setyaningrum, A. (2024). Blood Biochemical Levels Based on Prolificacy Level in Batur Sheep of Indonesia. International Journal of Life Science and Agriculture Research, 3(3), 195–203. https://doi.org/10.55677/ijlsar/V03I3Y2024-11

Issue

Vol. 3 No. 3 (2024): Volume 03 Issue 03 March 2024

Section

Articles

License

Copyright (c) 2024 International Journal of Life Science and Agriculture Research

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.