土壤类型和相关微生物群影响几丁质对莴苣生长的促进作用

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
M. Kaufmann, Leilei Li, Christof Van Poucke, Nicola Rhyner, C. De Tender, Mieke Uyttendaele, Marc Heyndrickx, Cyril Zipfel, Joël F. Pothier, Cottyn Bart
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引用次数: 0

摘要

在泥炭基质中添加甲壳素已被证明能有效促进莴苣的生长并增加莴苣幼苗中的酚类化合物。然而,甲壳素土壤改良剂对莴苣在矿质土壤中生长的影响仍有待探索。本研究首次研究了几丁质改良剂与几丁质改良泥炭基质相比,对矿质土壤中莴苣生长和代谢物变化的影响。我们的研究结果表明,在泥炭基质中添加甲壳素后,莴苣收获时的头重增加了约 50%,而在矿质土壤中添加甲壳素后,莴苣收获时的头重增加了 30%。靶向代谢组学分析表明,添加甲壳素会影响莴苣幼苗中的酚类化合物,但这种影响因土壤类型而异。此外,非靶向代谢组学分析表明,与添加甲壳素相比,使用泥炭基质或矿质土壤对莴苣代谢物产生的影响更大。根生物群分析表明,在泥炭基质中,甲壳素处理后,以降解甲壳素和促进植物生长而闻名的毛霉科细菌显著增加。在矿质土壤中,甲壳素处理后,3 个细菌属和 5 个真菌属(包括已知的促进植物生长的属种)的数量明显增加,但毛霉科植物的数量没有增加。我们认为,观察到的影响主要源于土壤理化特性和几丁质诱导的根瘤生物群组成的改变,特别是毛蕊花科成员的存在,从而促进了莴苣的生长。尽管存在变异,甲壳素仍然是生菜生产中合成肥料的一种环保替代品,但其有益效果取决于根瘤生物群的组成,在应用甲壳素之前应考虑到这一点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Soil type and associated microbiomes influences chitin’s growth-promotion effect in lettuce
Chitin amendment of peat substrate has been proven effective in promoting lettuce growth and increasing phenolic compounds in lettuce seedlings. However, the effect of chitin soil amendment on lettuce growth in mineral soil remains unexplored. The effect of chitin amendment of mineral soil on lettuce growth and metabolite changes was investigated for the first time in the present study in comparison to chitin amended peat substrate. Our findings showed that chitin addition in peat substrate increased lettuce head weight by approximately 50% at harvest, whereas this increase was 30% when added to mineral soil. Targeted metabolomics analysis indicated that chitin addition affected the phenolic compounds in lettuce seedlings, but this effect varied between soil types. Moreover, untargeted metabolomics analysis suggested that using peat substrate or mineral soil had a greater influence on produced lettuce metabolites than chitin addition. Rhizobiome analysis showed that specifically Mortierellaceae family members, known for chitin degradation and plant growth promotion, significantly increased in peat substrate upon chitin treatment. In mineral soil, three bacterial genera and five fungi, including known plant growth promoting genera, were significantly more abundant upon chitin treatment but not Mortierellaceae. We assume that the observed effects primarily stem from soil physiochemical characteristics and from chitin induced alterations in rhizobiome composition, particularly the presence of Mortierellaceae members, leading to promoted lettuce growth. Despite the variability, chitin remains an environmentally friendly alternative to synthetic fertilizers in lettuce production, but its beneficial effects are dependent on rhizobiome composition, which should be considered before chitin application.
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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