Dual sensor measurement shows that temperature outperforms pH as an early sign of aerobic deterioration in maize silage
Guilin Shan, Wolfgang Buescher, Christian Maack, André Lipski, Ismail-Hakkı Acır, Manfred Trimborn, Fabian Kuellmer, Ye Wang, David A. Grantz, Yurui Sun
Abstract
Abstract High quality silage containing abundant lactic acid is a critical component of ruminant diets in many parts of the world. Silage deterioration, a result of aerobic metabolism (including utilization of lactic acid) during storage and feed-out, reduces the nutritional quality of the silage, and its acceptance by animals. In this study, we introduce a novel non-disruptive dual-sensor method that provides near real-time information on silage aerobic stability, and demonstrates for the first time that in situ silage temperature (T si ) and pH are both associated with preservation of lactic acid. Aerobic deterioration was evaluated using two sources of maize silage, one treated with a biological additive, at incubation temperatures of 23 and 33 °C. Results showed a time delay between the rise of T si and that of pH following aerobic exposure at both incubation temperatures. A 11 to 25% loss of lactic acid occurred when T si reached 2 °C above ambient. In contrast, by the time the silage pH had exceeded its initial value by 0.5 units, over 60% of the lactic acid had been metabolized. Although pH is often used as a primary indicator of aerobic deterioration of maize silage, it is clear that T si was a more sensitive early indicator. However, the extent of the pH increase was an effective indicator of advanced spoilage and loss of lactic acid due to aerobic metabolism for maize silage.