Whole-plant soybean ensiling with chitosan and homolactic microbial inoculant: fermentative profile, aerobic stability, and sheep intake and digestibility

Jefferson Rodrigues Gandra,Cibeli Almeida Pedrini,Kelly Mari Pires De Oliveira,Alzira Gabriela Da Silva Pause,Anderson Acosta,Rafael Henrique De Tonissi E Buschinelli De Goes Goes,Giovani Antonio,Isabelle Zocolaro Noia,Tiago Antônio Del Valle,Euclides Reuter De Oliveira,Jamille Débora De Oliveira Batista

doi:10.1590/s1519-99402220502022

Abstract

ABSTRACT This study aimed to evaluate the effects of chitosan and homolactic microbial inoculant on fermentative losses, chemical composition, fermentative profile, and aerobic stability of whole-plant soybean silage (WPSS). Additionally, it was evaluated nutrients intake and digestibility of sheep fed increasing levels of WPSS. Thirty experimental silos were randomly allocated to one of the following treatments: 1) CON: control, WPSS without additives; 2) LPPA: WPSS with Lactobacillus plantarum and Pediococcus acidilactici; and 3) CHI: chitosan, WPSS with 5 g/kg of chitosan. Ten male sheep were used to evaluate increasing dietary levels of WPSS: 0, 200, 400, 600, and 800 g/kg of diet dry matter (DM). Additives increased silage lactic acid bacteria and decreased the count of mold and yeast, gas, and total losses. Silages treated with additives had lower pH, NH3-N, and ethanol concentrations and higher lactic and propionic acids relative to CON. LPPA-treated silos showed higher organic matter and non-fiber carbohydrates content than CHI-ones. Additives increased the aerobic stability of WPSS. The addition of WPSS in sheep diets linearly increased nutrients intake and digestibility. Chitosan and LPPA improve WPSS fermentation, aerobic stability, and nutritional value. The WPSS in substitution to Cynodon hay increases sheep feed intake and nutrients digestibility.

Highlights

Whole-plant soybean is rich in protein and vitamin and a promising green fodder source to feed ruminants (JAHANZAD et al, 2014)
Whole-plant soybeans have a low level of dry matter (DM) and water-soluble carbohydrate (WSC), resulting in an unpleasant fermentation (NI et al, 2017)
The present study aimed to evaluate the effects of chitosan and homolactic microbial inoculant effects on fermentative losses, chemical composition, fermentative profile, and aerobic stability of whole-plant soybean silage (WPSS)

Summary

Introduction

Whole-plant soybean is rich in protein and vitamin and a promising green fodder source to feed ruminants (JAHANZAD et al, 2014). The soybean harvest is seasonal, highlighting the importance of conservation (NI et al, 2017). Ensiling is one of the most traditional conservation practices based on lactic acid fermentation under anaerobic conditions (MCDONALD et al, 1991). Lactic acid is produced during ensiling, using water-soluble carbohydrate (WSC) as the primary substrate (MUCK, 2010). Whole-plant soybeans have a low level of dry matter (DM) and WSC, resulting in an unpleasant fermentation (NI et al., 2017). Driehuis et al (2001) evaluated microbial inoculants in ryegrass silage containing different bacteria

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