Jurnal Sains Riset

Buffalo farming in remote areas such as Mount Sangiang, Bima Regency, West Nusa Tenggara, is still managed traditionally, with limited access to scientific information. This study aimed to analyze the quantitative traits of buffaloes raised in this volcanic environment, including body weight, body dimensions, and leg length. A descriptive observational study was conducted on 30 male and female buffaloes of various age groups. The results show morphometric differences influenced by genetic, hormonal, environmental, physical activity, and reproductive factors. Males exhibit faster skeletal growth, while adult females have greater body weight and chest girth. These findings support morphometric analysis for selection and conservation.

Firdaus, F., Atmoko, B. A., Baliarti, E., Widi, T. S. M., Maharani, D., & Panjono, P. (2023). The meta-analysis of beef cattle body weight prediction using body measurement approach with breed, sex, and age categories. Journal of Advanced Veterinary and Animal Research, 10(4), 630–638. https://doi.org/10.5455/javar.2023.j718

Lukuyu, M. N., Gibson, J. P., Savage, D. B., Duncan, A. J., Mujibi, F. D. N., & Okeyo, A. M. (2016). Use of body linear measurements to estimate liveweight of crossbred dairy cattle in smallholder farms in Kenya. SpringerPlus, 5, 63 Article number: 63. https://doi.org/10.1186/s40064-016-1698-3

Vanvanhossou, S. F. U., Scheper, C., Dossa, L. H., Yin, T., Brügemann, K., & König, S. (2020). A multi-breed GWAS for morphometric traits in four Beninese indigenous cattle breeds reveals loci associated with conformation, carcass and adaptive traits. BMC Genomics, 21, Article 783. https://doi.org/10.1186/s12864-020-07170-0

Hunde, D., Tadesse, Y., Tadesse, M., Abegaz, S., & Getachew, T. (2024). Community-based breeding programs can realize sustainable genetic gain and economic benefits in tropical dairy cattle systems. Frontiers in Genetics, 15. https://doi.org/10.3389/fgene.2024.1106709

An, Z., Luo, G., Gao, S., Zhang, X., Chen, C., Yao, Z., Zhao, J., Lv, H., Niu, K., Nie, P., & Yang, L. (2023). Evaluation of parity effect on characteristics and minerals in buffalo (Bubalus bubalis) colostrum and mature milk. Foods, 12(6), 1321. https://doi.org/10.3390/foods12061321

Tramunt, B., Smati, S., Grandgeorge, N., Lenfant, F., Arnal, J.-F., Montagner, A., & Gourdy, P. (2020). Sex differences in metabolic regulation and diabetes susceptibility. Diabetologia, 63, 453–461. https://doi.org/10.1007/s00125-019-05040-3

Gibson, M., Hickson, R., Back, P., Dittmer, K., Schreurs, N., & Rogers, C. (2021). The effect of sex and age on bone morphology and strength in the metacarpus and humerus in beef-cross-dairy cattle. Animals, 11(3), 694. https://doi.org/10.3390/ani11030694

Anzai, H., Oishi, K., Kumagai, H., Hosoi, E., Nakanishi, Y., & Hirooka, H. (2017). Interspecific comparison of allometry between body weight and chest girth in domestic bovids. Scientific Reports, 7(1), 4817. https://doi.org/10.1038/s41598-017-04976-z

Cruz-Tamayo, A. A., Ramírez-Bautista, M. A., Mota-Rojas, D., Escobar-España, J. C., García-Herrera, R., Gurgel, A. L. C., Dias-Silva, T. P., de Araújo, M. J., Santana, J. C. S., Aguiar, I. O. M., Ítavo, L. C. V., & Chay-Canul, A. J. (2024). Relationship between body weight and hip width in dairy buffaloes (Bubalus bubalis). Journal of Dairy Research, 91(2), 180–183. https://doi.org/10.1017/S002202992400031

Adinata, Y., Noor, R. R., Priyanto, R., Cyrilla, L., & Sudrajad, P. (2023). Morphometric and physical characteristics of Indonesian beef cattle. Archives Animal Breeding, 66(2), 153–161. https://doi.org/10.5194/aab-66-153-2023

Prusty, S., Kundu, S. S., Mondal, G., Sontakke, U., & Sharma, V. K. (2016). Effect of energy and protein levels on nutrient utilization and their requirements in growing Murrah buffaloes. Tropical Animal Health and Production, 48, 807–815. https://doi.org/10.1007/s11250-016-1033-6

Venken, K., Movérare-Skrtic, S., Kopchick, J. J., Coschigano, K. T., Ohlsson, C., Boonen, S., Bouillon, R., & Vanderschueren, D. (2007). Impact of androgens, growth hormone, and IGF-I on bone and muscle in male mice during puberty. Journal of Bone and Mineral Research, 22(1), 72–82. https://doi.org/10.1359/jbmr.060911

De-Melo, B. A., de Melo Nascimento, I., Santos, L., de Lima, L. G., de Araújo, F. C. T., Rios, R., de Gusmão Couto, A., & Fraga, A. B. (2018). Body morphometric measurements in Murrah crossbred buffaloes (Bubalus bubalis). Journal of Applied Animal Research, 46(1), 1307–1312. https://doi.org/10.1080/09712119.2018.1502669

Polák, J., & Frynta, D. (2010). Patterns of sexual size dimorphism in cattle breeds support Rensch’s rule. Evolutionary Ecology, 24, 1255–1266. https://doi.org/10.1007/s10682-010-9354-9

Rabey, K. N., Green, D. J., Taylor, A. B., Begun, D. R., Richmond, B. G., & McFarlin, S. C. (2014). Locomotor activity influences muscle architecture and bone growth but not muscle attachment site morphology. Journal of Human Evolution, 78, 91–102. https://doi.org/10.1016/j.jhevol.2014.10.010

Cruz-Tamayo, A. A., Ramírez-Bautista, M. A., Mota-Rojas, D., Escobar-España, J. C., García-Herrera, R., Gurgel, A. L. C., Dias-Silva, T. P., de Araújo, M. J., Santos Santana, J. C., Aguiar, I. O. M., Ítavo, L. C. V., & Chay-Canul, A. J. (2024). Relationship between body weight and hip width in dairy buffaloes (Bubalus bubalis). Journal of Dairy Research, 91(2), 180–183. https://doi.org/10.1017/S0022029924000311

Deutscher, G. H. (1987). Pelvic measurements for reducing calving difficulty (G87-895). University of Nebraska-Lincoln Extension: Historical Materials. Retrieved from https://www.iowabeefcenter.org/bch/PelvicMeasurements.pdf

Gibson, M., Hickson, R., Back, P., Dittmer, K., Schreurs, N., & Rogers, C. (2021). The effect of sex and age on bone morphology and strength in the metacarpus and humerus in beef-cross-dairy cattle. Animals, 11(3), 694. https://doi.org/10.3390/ani11030694

Rodríguez-González, D., Minervino, A. H. H., Orihuela, A., Bertoni, A., Morales-Canela, D. A., Álvarez-Macías, A., José-Pérez, N., Domínguez-Oliva, A., & Mota-Rojas, D. (2022). Handling and physiological aspects of the dual-purpose water buffalo production system in the Mexican humid tropics. Animals, 12(5), 608. https://doi.org/10.3390/ani12050608

Pirondi, A. N., Teixeira, C. M. C., Lima, E. da S., Valente, T. N. P., Deminicis, B. B., Bezerra, F. de C., & Nery, V. L. H. (2019). Reproductive characteristics of buffaloes: A review. Journal of Agricultural Science, 11(13), 167. https://doi.org/10.5539/jas.v11n13p167

Fiore, E., Arfuso, F., Gianesella, M., Vecchio, D., Morgante, M., Mazzotta, E., Badon, T., Rossi, P., Bedin, S., & Piccione, G. (2018). Metabolic and hormonal adaptation in Bubalus bubalis around calving and early lactation. PLoS ONE, 13(4), e0193803. https://doi.org/10.1371/journal.pone.0193803

De-Melo, B. A., de Gusmão Couto, A., de Lima Silva, F., Hongyu, K., Teodózio de Araújo, F. C., da Silva, S. G. M., Rios, R. R. S., Dos Santos, M. T., & Fraga, A. B. (2020). Multivariate analysis of body morphometric traits in conjunction with performance of reproduction and milk traits in crossbred progeny of Murrah × Jafarabadi buffalo (Bubalus bubalis) in North-Eastern Brazil. PLoS ONE, 15(4), e0231407. https://doi.org/10.1371/journal.pone.0231407

Bayissa, H., Peñagaricano, F., Balehegn, M., Jones, C. S., Dahl, G. E., & Adesogan, A. T. (2023). Synergies of feed, management trainings, and genetics on milk production of dairy cows in the tropics: The case of Ethiopian smallholder farmers. Frontiers in Animal Science, 4, Article 1119786. https://doi.org/10.3389/fanim.2023.1119786

Wandira, I. A., Sadia, I. N., Dohi, M., Karni, I., Aminurrahman, A., Pertiwi, E. A., & Nurjanah, L. lailatun. (2025). Qualitative Traits and Body Condition Score (BCS) of Buffaloes in Mount Sangiang. Jurnal Biologi Tropis, 25(3), 4190–4196. https://doi.org/10.29303/jbt.v25i3.9636