Abstract
BACKGROUND: The impact of different physical and/or chemical treatments in cereal grains on starch morphology and ruminal digestibility has been evaluated. AIMS: The effect of chemical and/or physical treatments on starch and protein molecular appearance and the ex-vivo digestibility of barley grain was studied. METHODS: Treatments were: steam-flaked barley grain (SFB), SFB treated with ammonium bicarbonate (A), urea (U), and malic acid (M) (SFB(AUM)), SFB treated with A, U, and lactic acid (L) (SFB(AUL)), steam-infrared heated-flaked barley grain (SIFB), SIFB treated with A, U, and M (SIFB(AUM)), and SIFB treated with A, U, and L (SIFB(AUL)). Chemicals including A, U, M, and L were used as 56, 8, 10, and 10 g/kg dry matter (DM), respectively. Chemical composition and molecular morphology were determined using scanning electron microscopy and Fourier-transform infrared spectroscopy (FTIR). In situ mobile bag technique and in vitro batch culture procedure were used to estimate ruminal and post-ruminal digestibility. RESULTS: Crude protein (CP) and starch concentrations in SFB(AUL) were higher than the others (P<0.05). Starch granule morphology and protein structure were altered in the chemically treated samples. The potentially digestible fraction of DM was the highest in the SFB(AUM) (P<0.05). Ruminal disappearance of DM, CP, and starch was improved in SFB(AUL) and SIFB(AUL) compared with other groups (P<0.05). The highest post-ruminal digestibility of starch and CP was observed in SIFB(AUL) and SIFB (P<0.05). CONCLUSION: Present results indicate that chemical processing with L and applied steam-infrared heated-flaked in barley grain may improve in vitro digestibility of starch and CP and increase granule sizes.