Effect of growth stage on Italian ryegrass silage fermentation from microbiological perspective

Abstract

Abstract Background Italian ryegrass is a temperate crop, which is widely cultivated in the winter fallow paddy fields of subtropical China. The utilization efficiency of Italian ryegrass depends greatly on its growth stage at harvest. Previous studies have reported the optimum stage for harvesting various forage to balance their quality and quantity. However, considering the practice condition, such as rainy or unavailability of harvest equipment, the harvest stage of forage cannot always be implemented according to the production schedules. Thus, to characterize the effect of growth stage on the silage fermentation profile, bacterial community and metabolism, Italian ryegrass harvested at the filling stage and the milk stage were naturally ensiled (FSN and DSN), respectively. Results After ensiling for 1, 3, 7, 15, 30 and 60 days, triplicate silos were opened for sampling. The growth of Italian ryegrass increased the pH, dry matter, neutral and acid detergent fiber contents, but decreased buffering capacity, crude protein and water-soluble carbohydrates contents, and the epiphytic microbiota of Italian ryegrass harvested at the filling stage was simpler than that harvested at the dough stage. During ensiling, FSN had lower pH and higher organic acid content than DSN. The bacterial succession rate in FSN was also faster than DSN, which showed that Lactobacillus becomes the dominant genus in the early stage of ensiling. The predicted metabolisms revealed that carbohydrate and amino acid metabolisms were the two main metabolisms in silage fermentation. Compared to epiphytic microbiota, ensiling enhanced carbohydrate metabolism and diminished amino acid metabolism. The difference of these two metabolisms between FSN and DSN was obvious at the early stage of ensiling. Conclusions Growth stage affected the chemical and microbial composition of Italian ryegrass, so as to the fermentation profile, bacterial community and its metabolisms. Italian ryegrass harvested at the filling stage was prone to fermentation. The complexity of epiphytic microbiota made DSN more difficult to ferment.