Fatty acid profiles of milk and Minas frescal cheese from lactating grazed cows supplemented with peanut cake.

Milk and Minas frescal cheese were evaluated from crossbred Holstein × Gir cows that were fed diets enriched with 0, 33, 66 and 100% inclusion levels of palm kernel cake in a concentrated supplement in replace of soybean meal. Eight crossbred lactating cows were distributed (four animals × four treatments × four periods) in the experimental design of double 4 × 4 Latin squares. The capric (C : 10, P = 0.0270), undecylic (C : 11, P = 0.0134), and lauric (C : 12, P = 0.0342) saturated fatty acid concentrations and CLA (C18 : 2c9t11, P = 0.0164) of the milk fat decreased linearly with an increasing percentage of peanut cake in the diet. The increased peanut cake content (100%) in the diet was associated with a linear decrease in C : 10 (P = 0.0447), C : 12 (P = 0.0002), mirystic (C : 14, P 0.05) ratios were not influenced by the different peanut cake levels. The inclusion of up to 100% peanut cake as a substitution for soybean meal in the concentrate of grazing lactating cows resulted in changes in the nutritional quality of their milk products, as indicated by the increase in polyunsaturated fatty acids and the decrease of saturated fatty acids (lauric, myristic, and palmitic).

Morphological characteristics of maize plants in estimate the silage chemical composition / Características morfológicas de plantas de milho estimam a composição bromatológica da silagem

The aim of this study was to estimate the chemical composition of maize silage based on the morphological characteristics of maize plants and to evaluate the effect of nitrogen fertilization and the inclusion of a microbial inoculant during the ensiling process on the production of maize silage and its morphological, qualitative and fermentative characteristics. The experimental treatments consisted of four levels of nitrogen fertilization with urea (0, 100, 200 and 300 kg ha-1) and the inclusion or exclusion of the microbial inoculants during the ensiling process. A completely randomized design was used in a 4 × 2 factorial arrangement of treatments. The maize silage chemical composition was estimated by evaluating the plant height (PH) and ear characteristics (NRE= number of rows per ear; NKE= number of kernels per ear; ELS= ear length with straw; EL= ear length without straw) using the following equations:CP= -12.44 + 5.871 × PH + 0.01814 × NRE² (R²= 0.89; P < 0.0001); NDF= 587.93-0.78×NKE-11.67×ELS-0.47×EL+0.0000007×NKE³+0.006× EL³ (R²=0.92; P = 0.003); ADF= 41.48 -0.046 × NRE2 (R2 = 0.42; P = 0.02);TDN= 57.81 - 0.0319 × NRE2 (R2 = 0.42; P = 0.02);EDDM= 56.58 + 0.035 × NRE2 (R2 = 0.42; P = 0.02) andNEL= 1.31 + 0.000757 × NRE2 (R2 = 0.41; P = 0.02). In conclusion, nitrogen fertilization increases the silage energy and protein content; while the inclusion of microbial inoculants during the ensiling process does not alter the chemical and fermentative characteristics of the maize silage.

O objetivo do presente estudo foi estimar a composição bromatológica da silagem por meio de características morfoló- gicas das plantas de milho, e avaliar o efeito de níveis de adubação nitrogenada e da inclusão de inoculante microbiano na ensilagem sobre as características produtivas, morfológicas, bromatológicas e fermentativas de silagem de milho. Os tratamentos consistiram em quatro níveis de adubações com ureia: 0; 100; 200 e 300 Kg ha-1, e da inclusão ou não de inoculante microbiano. Foi utilizado um delineamento inteiramente casualizado, com arranjo fatorial de tratamentos 4 × 2. A composição bromatológica da silagem foi estimada pela altura das plantas (AP) de milho e pelas características da espiga (NLE = número de linhas de grãos por espiga; NGE = Número de grãos por espiga; CCP = comprimento da espiga com palha; CSP = comprimento da espiga sem palha) por meio das seguintes equações: PB = -12,44 + 5,871 × AP + 0,01814 × NLE² (R² = 0,89; P < 0,0001); FDN = 587,93 – 0,78 × NGE – 11,67 × CCP – 0,47 × CSP + 0,0000007 × NGE³ + 0,006 × CCP³ (R² = 0,92; P = 0,003); FDA = 41,48 - 0,046 × NLE2 (R2 = 0,42; P = 0,02); NDT = 57,81 – 0,0319 × NLE2 (R2 = 0,42; P = 0,02); DMSE = 56,58 + 0,035 × NLE2 (R2 = 0,42; P = 0,02) e ELL = 1,31 + 0,000757 × NLE2 (R2 = 0,41; P = 0,02). Pode-se concluir que a adubação nitrogenada aumenta o teor de energia e de proteína da silagem; enquanto a inclusão de inoculante microbiano não altera as características bromatológicas e fermentativas da silagem de milho.