Fontes proteicas alternativas oriundas da cadeia produtiva do biodiesel para alimentação de ruminantes / Alternative protein sources derived from the biodiesel production chain for feeding to ruminants

Objetivou-se avaliar a degradação e a produção de gás de diferentes fontes proteicas geradas na cadeia produtiva do biodiesel em substituição à silagem de milho. Os tratamentos foram: coprodutos de Gossyypium hirsutum, Ricinus communis, Moringa oleifera, Jatropha curcas, Helianthus annus. Os produtos foram analisados mediante a técnica semiautomática de produção de gases in vitro. O coproduto da moringa apresentou maior taxa de degradação, quando comparado aos demais alimentos, porém apresentou baixa produção de gás e se tornou mais eficiente, sendo, portanto, indicado como o melhor nível (27,06%) de substituição à silagem de milho. O coproduto da mamona e o do algodão produziram a maior quantidade de gás em 48h de incubação. Todos os coprodutos estudados podem ser utilizados na dieta de ruminantes como alimento proteico até 30% de substituição à silagem de milho.(AU)

This study aimed to assess the degradation and gas production of different protein sources generated in the biodiesel production chain replacing corn silage. The treatments were byproducts Gossyypium hirsutum, Ricinus communis, Moringa oleifeira, Jatrophacurcas, and Helianthusannus. The products were analyzed by semi-automated technique of gas production in vitro. The coproduct moringa showed higher degradation rate compared to other foods, but showed low gas production, making it more efficient, being nominated as the best level of 27.06% by replacing corn silage. The byproducts of castor oil and cottonseed produced the largest amount of gas in 48 h of incubation. All studied byproducts can be used in the diet of ruminants as a protein food up to 30% by substitution of corn silage.(AU)

Estimação por aproximação química dos teores de proteína indegradável insolúvel em detergente neutro em forragens tropicais / Estimation of undegradable neutral detergent insoluble protein in tropical forages by chemical approaching

A mathematical model was developed to predict the content of undegradable neutral detergent insoluble protein (UNDIP) from chemical characteristics of tropical forages. This study was based on a biological limitation of a previous model, which restricts the UNDIP estimates to values equals or higher than 1.34 percent of dry matter. The databank was formed by 540 samples of tropical forages used in cattle feeding (fresh forage and hay). The ratio of UNDIP on neutral detergent insoluble protein (NDIP) was chosen as response variable and the acid detergent insoluble protein (ADIP) as independent variable. The mathematical model was found to be exponential, assuming the formula: UNDIP = NDIP x e-(0,818+0.16764DIP) , in which all values are expressed on dry matter basis. It was observed that biological limitation of the previous model was eliminated, even though a low statistical improvement was obtained. The prediction of a biological parameter (UNDIP) from a chemical characteristic (ADIP) still have some restrictions and the estimates should be applied with caution in some situations. The main application of the model described above is estimate UNDIP contents when biological methods are not available.