The effect of lactic acid bacteria inoculation, molasses, or wilting on the fermentation quality and nutritive value of amaranth (Amaranthus hypochondriaus) silage1.

This study assessed the influence of wilting, lactobacillus (LAB), and/or molasses on the chemical composition, phenolic compounds, in situ degradability, and in vitro ruminal fermentation parameters of amaranth (var. Maria) silage using a randomized complete block design with 6 replicates. Treatments were fresh amaranth forage (FAF), ensiled amaranth without additive (EA), EA inoculated with LAB (EAB), EA + 5% of molasses (EAM), EA inoculated with LAB + 5% of molasses (EABM), and 24-h wilted EA (WEA). The ensiled materials were stored anaerobically for a period of 45 d. Chemical composition, oxalic acid and nitrate levels, silage fermentation characteristics, DM disappearance (DMD), OM disappearance (OMD), in vitro ruminal ammonia-N, volatile fatty acids, cellulolytic bacteria and protozoa counts, and in situ DM and CP degradability were determined. Compared with FAF, EA had lesser values of water-soluble carbohydrates (P = 0.023), nitrate (P = 0.001), total phenolics (P = 0.04), total tannins (P = 0.01), DMD (P = 0.01), ruminal cellulolytic bacteria (P = 0.02), soluble and very rapidly degradable fraction (P = 0.014), and effective degradability (P = 0.01). The EA had lesser OMD and CP degradability compared with FAF (P < 0.05). Adding molasses to EA resulted in increased ash and lactate concentrations and decreased ammonia (P < 0.05), but had no effect on OMD. The WEA had lesser ammonia and greater lactate compared with EA (P < 0.05). Overall, fresh amaranth var. Maria can be preserved as a valuable silage to feed ruminants. Ensiling amaranth var. Maria decreased the antiquality compounds, and molasses addition improved the fermentation quality of the silage.