Bibliographic citations
Rodríguez, Y., (2018). Influencia de la alimentación en la composición de la leche en vacunos de crianza intensiva en la cuenca de Lima [Tesis, Universidad Nacional Agraria La Molina]. https://hdl.handle.net/20.500.12996/3352
Rodríguez, Y., Influencia de la alimentación en la composición de la leche en vacunos de crianza intensiva en la cuenca de Lima [Tesis]. : Universidad Nacional Agraria La Molina; 2018. https://hdl.handle.net/20.500.12996/3352
@misc{renati/246941,
title = "Influencia de la alimentación en la composición de la leche en vacunos de crianza intensiva en la cuenca de Lima",
author = "Rodríguez Arteaga, Yessica Liliana",
publisher = "Universidad Nacional Agraria La Molina",
year = "2018"
}
The objective of this work was to identify those nutritional aspects that influence the fat content, protein, ST, SNG, density and urea of milk in barns of the Lima basin (Cañete, Huaura, Huaral and Lima). Seventeen barns were analyzed in a random way and according to their population of cows in production, type of feeding that in two different visits were collected: a total of two samples of milk per day which the chemical composition and urea concentration were analyzed; and formulas of diets of the cows in production. The averages of the parameters of the composition and food consumption were: IMS = 26,67 ± 3,23 kg, EN1 = 39,51 ± 6,38 Mcal, PC = 3,45 ± 0,74 kg, fat = 0,97 ± 0,21kg and FDN = 9,56 ± 1,64 kg and feed intake = 61,26 ± 11,88 kg. The averages of Px. and chemical composition of the milk were: Px. of milk = 28,79 ± 6,81 kg, milk fat = 3,41 ± 0,22%, milk protein = 3,20 ± 0,08%, SNG = 9,18 ± 0,22%, ST = 12,66 ± 0,38%, urea = 24,17 ± 5,67 mg/dl and density = 1,028 ± 0,0007g/cm3. Using linear regression, the correlation coefficients were determined, being the most significant: food consumption and IMS (r = 0,817, P <0,01); food consumption and EN1 (r = 0,724, P <0,01); feed intake and FDN (r = 0,650, P <0,01); food consumption and Px. of milk (r = 0,582, P <0,05); IMS and EN1 (r = 0,880, P <0,01); IMS and PC (r = 0,755, P <0,01); IMS and fat (r = 0,490, P <0,05); IMS and FDN (r = 0,700, P <0,01); IMS and Px. of milk (r = 0,816, P <0,01); PC and EN1 (r = 0,861, P <0,01); PC and Px. of milk (r = 0,658, P <0,01); FDN and EN1 (r = 0,874, P <0,01); FDN and PC (r = 0,689, P <0,01); FDN and fat (r = 0,536, P <0,05); FDN and Px. of milk (r = 0,550, P <0,05); Fat and Px. of milk (0,560, P <0,05); fat and EN1 (r = 0,693, P <0,01); fat and PC (r = 0,845, P <0,01); EN1 and Px. of milk (r = 0,705, P <0,01); milk protein and milk fat (r = 0,605, P <0,05); milk protein and SNG (r = 0,992, P <0,01); milk protein and ST (r = 0,906, P <0,01); milk protein and density (r = 0,917, P <0,01); Milk fat and SNG (r = 0,594, P <0,05); milk fat and ST (r = 0,881, P <0,01); SNG and density (r = 0,949, P <0,01); SNG and ST (r = 0,904, P <0,01); ST and density (r = 0,768, P <0,01); and urea (r = 0). 9.
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