霉菌毒素污染青贮的压实、曝气和添加改变了黑麦草青贮的发酵特征、霉菌毒素含量和有氧稳定性

IF 3.5 Q1 AGRONOMY
T. Snelling, D. Davies, J. Huntington, N. Adams, H. Warren, J. Taylor-Pickard, L. Sinclair
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引用次数: 0

摘要

本研究调查了压实、曝气和添加含有1803µg/kg DM青霉酸的天然真菌毒素污染的黑麦草青贮饲料(MCS)对青贮后营养价值和真菌毒素含量以及随后的有氧稳定性的影响。在2×2×2析因设计中,用差异压实(500 kg FW/m3和333 kg FW/m3)、通过注入空气充气(每48小时1升,持续30天,然后每7天1升)和添加多组分灭菌剂(1.5 g/kg FW青贮饲料)填充迷你筒仓(30 L)。在青贮期间,充气筒仓中的平均CO2%(kg FW)随着低压实度而增加。粗蛋白(CP)随曝气量的增加而增加,灰分减少。青贮发酵最终产物乙酸(AA)、乳酸(LA)和丙酸(PA)的平均浓度随MCS的增加而增加。PA浓度随着曝气/低压实度的增加而增加。LA降低,乙醇增加。开放时和在有氧条件下培养14天后,硅烷之间的真菌毒素谱不同,镰刀菌酮X和青霉酸消失,麦考酚酸和罗奎福汀C出现(318µg/kg DM和890µg/kg DM)。多组分灭菌剂的添加增加了开启时青霉酸的浓度,并与曝气相互作用(80.6µg/kg DM-MCS×曝气,40.0µg/kg DM/MCS×密封)。好氧稳定性受到曝气和低压实的影响,加热至环境温度以上+5°C和+10°C所需的时间减少,pH值增加速度加快,累积温度升高至第一个峰值温度。在有氧条件下,打开时霉菌毒素浓度越高,加热温度比环境温度高+5°C和+10°C的时间越长,效果也越相似。回归分析显示,青贮发酵最终产物浓度与好氧稳定性之间主要存在直接关系。这项研究揭示了青贮过程中发酵终产物和真菌毒素浓度以及随后的好氧腐败过程中青贮细菌和真菌活性之间的相互作用。研究结果支持了目前青贮饲料生产的最佳实践,促进了改善保存和有氧稳定性的条件。多组分灭菌剂的添加产生了意想不到的积极效果。然而,和MCS有益于有氧稳定性相关的因素并没有确定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Compaction, aeration and addition of mycotoxin contaminated silage alters the fermentation profile, mycotoxin content and aerobic stability of ryegrass (Lolium perenne) silage
This study investigated the effect of compaction, aeration and addition of a naturally mycotoxin contaminated ryegrass silage (MCS) containing 1803 µg/kg DM penicillic acid, on the nutritional value and mycotoxin content after ensiling and subsequent aerobic stability of ryegrass Lolium perenne silage (second-cut, June 2020, UK). Mini silos (30 L) were filled with differential compaction (500 kg FW/m3 and 333 kg FW/m3), aeration by injection of air (1L per 48h for 30d then 1L per 7d) and addition of MCS (1.5 g/kg FW ensiled forage) in a 2×2×2 factorial design. During ensilage, mean CO2% (kg FW) in the aerated silos increased with low compaction. Crude protein (CP) increased and ash decreased with aeration. Mean silage fermentation end products acetic (AA), lactic (LA) and propionic acid (PA) concentrations increased with MCS. PA concentration increased with aeration/low compaction. LA decreased and ethanol increased with low compaction. Mycotoxin profiles differed between the silages on opening and after 14-days incubation in aerobic conditions with disappearance of fusarenon X and penicillic acid and appearance of mycophenolic acid and roquefortine C (318 µg/kg DM and 890 µg/kg DM). Addition of MCS, increased the concentration of penicillic acid on opening with an interaction with aeration (80.6µg/kg DM MCS × aerated, 40.0 µg/kg DM in the MCS × sealed). Aerobic stability was affected by aeration and low compaction with reduced time taken to heat to +5°C and +10°C above ambient temperature, higher rate of increase in pH and higher cumulative temperatures to the first peak temperature. Higher mycotoxin concentration at opening had a similar effect increasing time to heat +5°C and +10°C above ambient temperatures in aerobic conditions. Regression analysis showed predominantly direct relationships between silage fermentation end-product concentrations and aerobic stability. This study revealed interactions between silage bacteria and fungi activity from the concentrations of fermentation end-products and mycotoxins during ensilage and subsequent aerobic spoilage. The results supported current best practice for silage making, promoting conditions for improved preservation and aerobic stability. The addition of MCS had unexpected positive effects. However, factors associated with the MCS benefiting aerobic stability were not determined.
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来源期刊
Frontiers in Agronomy
Frontiers in Agronomy Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
4.80
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123
审稿时长
13 weeks
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