Abstract
This study investigated the dynamics associated with prolonged ensiling and aerobic deterioration of whole crop corn (WCC) silages and total mixed ration (TMR) silages containing WCC (C-TMR silages) to clarify the differences that account for the enhanced aerobic stability of TMR silages. Laboratory-scale barrel silos were randomly opened after 7, 14, 28, and 56 d of ensiling and were subjected to analyses of fermentation quality, microbial and temperature dynamics during aerobic exposure. WCC and C-TMR silages were both well preserved and microorganisms were inhibited with prolonged ensiling, including lactic acid bacteria. Yeast were inhibited to below the detection limit of 500 cfu/g fresh matter within 28 d of ensiling. Aerobic stability of both silages was enhanced with prolonged ensiling, whereas C-TMR silages were more aerobically stable than WCC silages for the same ensiling period. Besides the high moisture content, the weak aerobic stability of WCC silage is likely attributable to the higher lactic acid content and yeast count, which result from the high water-soluble carbohydrates content in WCC. After silo opening, yeast were the first to propagate and the increase in yeast levels is greater than that of other microorganisms in silages before deterioration. Besides, increased levels of aerobic bacteria were also detected before heating of WCC silages. The temperature dynamics also indicated that yeast are closely associated with the onset of the aerobic deterioration of C-TMR silage, whereas for WCC silages, besides yeast, aerobic bacteria also function in the aerobic deterioration. Therefore, the inclusion of WCC might contribute to the survival of yeast during ensiling but not influence the role of yeast in deterioration of C-TMR silages.
Highlights
Aerobic deterioration is a critical problem affecting the nutritive value of feed and the health of animals and humans (Woolford, 1990)
Both the lactic and acetic acid levels were higher in whole crop corn (WCC) silage than the acid levels in C-total mixed ration (TMR) silage during the same ensiling period, whereas, high ratio of lactic acid to acetic acid was detected in C-TMR silage
The ratio decreased significantly (p
Summary
Aerobic deterioration is a critical problem affecting the nutritive value of feed and the health of animals and humans (Woolford, 1990). Numerous studies have been conducted on silages to date and have reached some consensus regarding aerobic stability. According to these studies, fermentation products such as organic acids (Filya, 2003) and antifungal products (Wilkinson and Davies, 2013), and yeast populations ( lactate-utilizing yeasts) observed at silo opening could influence the aerobic stability of silage (Woolford, 1990). Researches indicate the role of bacteria (likely acid-tolerant bacteria) in the initial deterioration of whole crop corn (WCC) silages (Spoelstra et al, 1988). There is evidence that enhanced aerobic stability could be detected with prolonged ensiling, and yeast seemed to play less role in aerobic deterioration of TMR silages formulated with peach pomace, which had a high WSC content of 25.9% on dry
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