Effect of Lactobacillus buchneri and sodium benzoate on the fermentative profile, bacterial taxonomic diversity, and aerobic stability of sorghum silages at different fermentation times

IF 1.5 4区 农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY
Maria Evelaine de L.Nascimento, Ricardo L. Edvan, Edson Mauro Santos, Juliana S. de Oliveira, Rafael de S.Miranda, Romilda R. do Nascimento, Lucas de S.Barros, Celso José B. de Oliveira, Francisco Naysson de S.Santos, Danillo M. Pereira, Mateus Lacerda P. Lemos, Liliane P. Santana, Guilherme M. Leite, Daiane G. dos Santos
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Abstract

The combined use of a microbial additive and a chemical additive in sorghum (Sorghum bicolor (L.) Moench) silages would reduce fermentation losses, favoring aerobic stability by modulating a favorable microbiome to control those losses. The purpose of this study was to evaluate the action of Lactobacillus buchneri and sodium benzoate on the fermentative profile, bacterial taxonomic diversity and aerobic stability of sorghum silages at different fermentation times. A completely randomized experimental design was adopted in a 4 × 4 factorial scheme, in order to evaluate four additives in sorghum silage (Control treatment, L. buchneri, sodium benzoate and L. buchneri combined with sodium benzoate) and four opening times (30, 60, 90 and 120 d fermentation), in five replicates. Silages inoculated with sodium benzoate showed higher pH values (3.70) at 90 d of fermentation, not differing (P > 0.05) from control (CTR) silage and the other silages. The largest lactic acid bacteria populations were observed at 120 d of fermentation in the silages inoculated with L. buchneri (9.06) followed by the silages inoculated with sodium benzoate and with the combination L. buchneri + sodium benzoate (8.37 and 8.85 log CFU, respectively) at 90 d of fermentation. For gas losses, in which silage treated with sodium benzoate showed lower values, with an average of 0.72% DM. The silages presenting a high DMR standard, ranging from 94.6% to 98.0%, with the exception of the CTR silages. Silages treated with L. buchneri showed higher values (98%) for the occurrence of the genus Lactobacillus in both fermentation times. The combined action of L. buchneri and sodium benzoate kept the Lactobacillus population stable at 30 and 120 d of fermentation. The combination of L. buchneri and sodium benzoate improved the fermentative profile and chemical composition of sorghum silages, reducing losses and increasing aerobic stability after 120 d of fermentation.
布氏乳杆菌和苯甲酸钠对不同发酵时间高粱青贮发酵特性、细菌分类多样性和有氧稳定性的影响
微生物添加剂和化学添加剂在高粱(sorghum bicolor (L.))中的联合使用青贮将减少发酵损失,通过调节有利的微生物群来控制这些损失,从而有利于有氧稳定性。本试验旨在研究布氏乳杆菌和苯甲酸钠在不同发酵时间对高粱青贮发酵特性、细菌分类多样性和有氧稳定性的影响。采用4 ×4因子试验设计,对高粱青贮中的4种添加剂(对照处理、布氏乳杆菌、苯甲酸钠和布氏乳杆菌与苯甲酸钠联合)和4个发酵时间(发酵30、60、90和120 d)进行了5个重复的试验评价。在发酵90 d时,接种苯甲酸钠的青贮pH值(3.70)高于对照(CTR)青贮和其他青贮(P > 0.05)。在发酵120 d时,布氏乳杆菌接种的青贮乳酸菌数量最多(9.06),其次是苯甲酸钠和布氏乳杆菌+苯甲酸钠联合接种的青贮乳酸菌数量(分别为8.37和8.85 log CFU)。对于气体损失率,经苯甲酸钠处理的青贮较低,平均为0.72% DM。除CTR青贮外,其余青贮的DMR标准较高,为94.6% ~ 98.0%。布氏乳杆菌处理的青贮在两个发酵时期均显示出较高的乳酸杆菌属的发生率(98%)。布氏乳杆菌和苯甲酸钠的共同作用使发酵30 d和120 d的乳杆菌数量保持稳定。在发酵120 d后,布氏乳杆菌与苯甲酸钠的组合改善了高粱青贮的发酵特性和化学组成,减少了损失,提高了好氧稳定性。
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来源期刊
Chilean Journal of Agricultural Research
Chilean Journal of Agricultural Research AGRICULTURE, MULTIDISCIPLINARY-AGRONOMY
CiteScore
3.10
自引率
11.80%
发文量
60
审稿时长
6-12 weeks
期刊介绍: ChileanJAR publishes original Research Articles, Scientific Notes and Reviews of agriculture, multidisciplinary and agronomy: plant production, plant protection, genetic resources and biotechnology, water management, soil sciences, environment, agricultural economics, and animal production (focused in ruminant feeding). The editorial process is a double-blind peer reviewing, Editorial Office checks format, composition, and completeness, which is a requirement to continue the editorial process. Editorial Committee and Reviewers evaluate relevance and scientific merit of manuscript.
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