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Research article2017Peer reviewed

Separating the effects of forage source and field microbiota on silage fermentation quality and aerobic stability

Mogodiniyai Kasmaei, K; Dicksved, J; Spörndly, R; Udén, P

Abstract

This study attempted to separate the effects of forage source and field microbiota on silage fermentation quality and aerobic stability. Single samples of grass, red clover and maize were used. Field microbiota was obtained by centrifugation of microbial suspensions of the three samples. The intact forages were dried and sterilized by heating at 60 degrees C for 3h+103 degrees C for 15h, inoculated in a 3 (forage) x 3 (inoculum) design and reconstituted to a dry-matter level of 400gkg(-1) before ensiling. After ensiling for 71d, subsamples were subjected to an 8-d aerobic stability test, which included temperature and pH measurements. Bacterial community analysis was performed on samples before and after ensiling by 16S rRNA gene amplicon sequencing. Forage source had a marked effect on the levels of lactic acid, acetic acid, ammonia-N and 2,3-butanediol, but microbiota source only affected the acetic acid concentration. The forage and microbiota as well as their interactions affected silage stability variables. The maize microbiota improved silage stability, whereas silages made from the maize forage had the poorest stability. Bacterial community analysis revealed higher abundance of lactic acid bacteria on the maize forage, with Lactococcus and Leuconostoc being the dominant genera. These preliminary results suggested that fermentation quality is mainly affected by forage source, whereas the aerobic stability is affected by both forage and field microbiota.

Keywords

forage; field microbiota; silage; fermentation quality; aerobic stability

Published in

Grass and Forage Science
2017, Volume: 72, number: 2, pages: 281-289
Publisher: WILEY