Skip to main navigation menu Skip to main content Skip to site footer

Vol. 33 No. 4 (2015)

Articles

Genetic variability and possible directions in the use of Water Buffalo (Bubalus bubalis) in Poland

Submitted: July 29, 2019
Published: 2015-12-02

Abstract

Buffalo is a species used for many purposes. Buffalo milk, which constitutes 13 % of the global market milk share, has a higher content of lactose, protein and minerals while containing less water than cow's milk. It is used for the production of butter, high-quality cheese and other dairy products. Meat, the production of which in 2013 amounted to 3.72 million tons, can be described as lean due to lower amounts of fat and cholesterol. Buffaloes are also used as draught animals, which satisfies 20% to 30 % of the demand for labor force in agriculture in Asia. In Poland buffalo breeding started in 2006 in one of the farms from Puszcza Notecka, where slaughter bulls are at present sold to the German market while heifers go to further breeding. Buffaloes may be used for ecologically valuable landscape areas due to their lower requirements for food, feeding preferences and the ability to acclimatize to the new environmental conditions. Buffalo can also create a wider choice in rural tourism services through meat and dairy products. The material for the study was collected from 35 females of water buffaloes from the ”Olchowy Młyn” farm in 2012, to determine genetic variability of the population. 5 DNA microsatellite sequences were use for analysis: BM2113, SPS115, INRA23, ETH3 and BM1824. Based on the results the number and frequency of identified alleles in individual microsatellite loci and the observed and expected heterozygosity were determined.

References

Ahmad S., Anjum F.M., Huma N., Sameen A., Zahoor T., 2013. Composition and physicochemical characteristics of Buffalo milk with particular emphasis on lipids, proteins, minerals, enzymes and vitamins. J. Anim. Plant Sci. 23 (1 Suppl.), 62–74.

Amano T., 1983. Genetic differences between swamp and river buffaloes in biochemical and immunological characteristics. Proceedings of the Preconference Symposium of the 5th World Conference on Animal Production, 131–135.

Barker J.S.F., Moore S.S., Hetzel D.J.S., Evans D., Tan S.G., Byrne K., 1997. Genetic diversity of Asian water buffalo (Bubalus bubalis): microsatellite variation and a comparison with protein-coding loci. Anim. Genet. 28, 103–115.

Barłowska J., Szwajkowska M., Litwińczuk Z., Król J., 2011. Nutritional value and technological suitability of milk from various animal species used for dairy production. Food Sci. Food Safe. 10, 291–302.

Borghese A., 2011. Situation and perspectives of Buffalo in the world, Europe and Macedonia. Maced. J. Anim. Sci. 2, 281–296.

Borghese A. i Mazzi M., 2005. Buffalo population and strategies in the world. Buffalo production and research. FAO, Italy, 1–39.

Campanile G., Di Palo R., Gasparrini B., D‟Occhio M.J., Zicarelli L., 2001. Effects of early management system and subsequent diet on growth and conception in maiden buffalo heifers. Livest. Prod. Sci. 71(2), 183–191.

Cutrignelli M.I., Calabrò S., Laudadio P., Grasso F., Di Lella T., 1996. Chemical nutritional characteristics of meat produced by young buffalo bulls. In: Food and health: role of animal products. Elsevier, 101–105.

Di Luccia A., Satriani A., Barone C.M.A., Colatruglio P., Gigli S., Occidente M., Trivellone E., Zullo A., Matassino D., 2003. Effect of dietary energy content on the intramuscular fat depots and triglyceride composition of river buffalo meat. Meat Sci. 65, 1379–1389.

FAOSTAT, 2014. Food and Agriculture Organization of the United Nations, http://faostat.fao.org/site/3/default.aspx.

Flamand, J.R.B., Vankan, D., Gairhe, K.P., Duong, H. and Barker, J.S.F., 2003. Genetic identification of wild water buffalo in Nepal. Anim. Coserv. 6, 265–270.

Ganguli, N.C., 1981. Buffalo as a candidate for milk production, International Dairy Federation Bulletin, 137.

Infascelli F., 2004. Invited lecture: Buffalo nutrition and meat quality. Proc. 2nd Buffalo Symposium of the Americas, 22–24 April, Corrientes, Argentyna.

Infascelli F., Cutrignelli M.I., Bovera F., Tudisco R., Calabrò S., Zicarelli F., D‟Urso S., Piccolo V., 2005. Cholesterol and fatty acid profile of meat from Marchigiana and buffalo bull. Proc. 1st Buffalo 1st Buffalo Symposium of Europe and the Americas, Paestum, 12–15 ottobre, 146–157.

Jainudeen M.R., Hafez E.S.E., 1993. Cattle and buffalo. In: Reproduction in Farm Animals (red. Hafez E.S.E.). Lea and Febiger, Filadelfia, 315–329.

Kantanen J., Olsaker I., Holm L.-E., Lien S., Vilkki J., Brusgaard K., Eythorsdottir E., Danell B., Adallsteinsson S., 2000. Genetic diversity and population structure of 20 North European cattle breeds. J. Hered. 91 (6), 446–457.

Lemke, B., 1994. Water buffalo farming in southern Australia. Agnote 610, J62, Department of Primary Industries, Northern Territory Government.

MacGregor R., 1939. The domestic buffalo. Thesis presented to the Royal College of Veterinary Surgeons.

Nanda, A. S., Nakao, T., 2003. Role of buffalo in the socioeconomic development of rural Asia: Current status and future prospectus. J. Anim. Sci. 74, 443–455.

Perera B.M.A.O., 2011. Reproductive cycles of buffalo. Anim. Reprod. Sci. 124, 194–199.

Rao K.K., Nagarcenkar R., 1977. Potentialities of the buffalo. World Rev. Anim. Prod. 13, 53–62. Rocznik Statystyczny Rolnictwa, 2012. GUS, Warszawa.

Roth J., 2004. Bubalus Bubalis, Animal Diversity Web, www.animaldiversity.ummz.umich.edu/accounts/Bubalus_bubalis/

Sebastian L., Mudgal V.D., Nair P.G., 1970. Comparative efficiency of milk production by Sahiwal cattle and Murrah buffalo. J. Anim. Sci. 30, 253–256.

Songsri S., Ramirez D.A., 2004. The cytology of swamp and river types of water buffaloes and their hybrids. Philipp. Agriculturist. 62 (4), 262–275.

Soysal M.J., Tuna Y.T., Gurcan E.K., Ozkan E., Kok S., Castellano N., Cabanogh O., Barone C.M.A., 2007. Anatolian water buffaloes husbandry in Turkey: preliminary results on somatic characterization. Ital. J. Anim. Sci. 6 (Suppl. 2), 1302–1307.

Thomas C.S., 2004. Milking management of dairy buffaloes. Doctoral thesis, Acta Universitatis Agriculture Sueciae, Agraria, 455.

Thomas C.S., 2008. Efficient dairy buffalo production. DeLaval International AB, Tumba, Szwecja.

Ulbrich F., Fisher H., 1967. The chromosomes of the Asiatic buffalo (Bubalus bubalis) and the African buffalo (Cyncerus caffer). Zeitschrift für Tierzüchtung und Züchtungsbiologie, 83, 219–223.

Walstra P., Geurts T.J., Noomen A., Jellema A., van Boekel M.A.J.S., 1999. Dairy technology: principles of milk properties and processes. Marcel Dekker, Nowy Jork.

Downloads

Download data is not yet available.

Most read articles by the same author(s)

1 2 > >> 

Similar Articles

<< < 2 3 4 5 6 7 8 9 > >> 

You may also start an advanced similarity search for this article.