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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

2021Scientific Reports22 citationsDOIOpen Access PDF

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.

Topics & Concepts

SilageLactic acidFood spoilageFood scienceChemistryAnimal scienceAnaerobic exerciseBiologyBacteriaPhysiologyGeneticsEffects of Environmental Stressors on LivestockRuminant Nutrition and Digestive PhysiologyAnimal Behavior and Welfare Studies
Dual sensor measurement shows that temperature outperforms pH as an early sign of aerobic deterioration in maize silage | Litcius