Effects of four short-chain fatty acids or salts on dynamics of fermentation and microbial characteristics of alfalfa silage

Abstract

The effect of four chemical compounds with antimicrobial properties on the fermentation and microbial dynamics of alfalfa silages were studied under laboratory conditions. Fresh alfalfa was treated with (1) no additive (control), (2) formic acid (FA, 4g/kg fresh weight), (3) potassium diformate (PD, 5.5g/kg fresh weight), (4) sodium diacetate (SD, 7g/kg fresh weight), and (5) calcium propionate (CAP, 10g/kg fresh weight). First cut alfalfa was harvested at about 10% bloom stage, chopped to approximately 1.5cm particle length, and ensiled into plastic laboratory silos (1-L capacity, 9.5cm diameter×18.7cm height). Six silos for each treatment were opened after 0.5, 1, 1.5, 2, 3, 5, 7, 14 and 30days of ensiling, respectively. The pH readings for FA and PD silages rapidly decreased during the first 5days of ensiling and remained the lowest two values among the treatments through the entire ensiling. The lactic acid fermentation in FA and PD silages were retarded from the d 0.5 of ensiling, indicated by consistently lower lactic acid concentrations than control over the entire ensiling process. During the first 3days of ensiling, SD and CAP silages showed lower (P<0.05) lactic acid concentrations than untreated silages, however, this trend was reversed after 14days of ensiling. Three short-chain fatty salts decreased the butyric acid content and dry matter loss, preserved more WSC in alfalfa silage. Of the chemical additives, potassium diformate was as effective as formic acid in immediately reducing pH, while the addition of sodium diacetate and calcium propionate did not reduce silage pH to the level that ensure good conservation of alfalfa silage after 30days of ensiling.