Effects of different soil organic amendments (OAs) on extracellular polymeric substances (EPS)

IF 3.7 2区 农林科学 Q1 ECOLOGY
Yujia Luo , Juan Bautista Gonzalez Lopez , H. Pieter J. van Veelen , Dirk-Jan Daniel Kok , Romke Postma , Dirk Thijssen , Valentina Sechi , Annemiek ter Heijne , T. Martijn Bezemer , Cees J.N. Buisman
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引用次数: 0

Abstract

Extracellular polymeric substances (EPS) synthesized by soil microorganisms play a crucial role in maintaining soil structure by acting as binding agents of soil aggregates. Microbial EPS production is governed by C sources, soil nutrient availability, pH, and other local environmental factors. Another important factor is soil management, and particularly, the addition of organic amendments (OAs), has the potential to influence soil EPS as it can change the biotic and abiotic properties of the soil. Yet the response of soil EPS to the addition of OAs, especially in field trials, and its subsequent impact on soil aggregation remains unclear. This study aimed to elucidate the influence of OAs (including compost from organic residues, mown grass from roadsides and parks, and cattle manure) on soil EPS content and aggregate stability in a three-year field experiment with annual OA application. We further investigated factors that govern EPS production in the soil by exploring the relationship between soil EPS (i.e., polysaccharide and protein content), soil physicochemical properties (i.e., pH, dissolved organic carbon, available and total amount of nutrients), and the soil microbial community (i.e., microbial abundance and taxonomic structure). We found that the addition of grass, manure, and the combination of grass and manure led to an increase in soil EPS content compared to unamended and compost-amended soils. EPS content was correlated with soil variables; in particular, a significant positive correlation was observed between EPS concentration and available N in the soil. Furthermore, bacterial and fungal biomass contributed to soil EPS. Specific bacteria (e.g., members of Proteobacteria, Bacteroidetes, and Chloroflexi) and fungi (e.g., members of Ascomycota and Basidiomycota) demonstrated strong and significant correlations with EPS in the soil. The direction of correlation, whether positive or negative, varied at the order level. In addition, our study revealed significant positive correlations between EPS concentration and soil aggregate stability. These findings offer insights into designing sustainable agricultural management practices, and whether the application of appropriate OAs can enhance soil EPS content and, consequently, soil aggregate stability.

不同土壤有机改良剂(OA)对胞外聚合物质(EPS)的影响
土壤微生物合成的胞外聚合物质(EPS)作为土壤团聚体的结合剂,在维持土壤结构方面发挥着至关重要的作用。微生物 EPS 的产生受 C 来源、土壤养分供应、pH 值和其他当地环境因素的制约。另一个重要因素是土壤管理,特别是添加有机添加剂(OA),有可能影响土壤 EPS,因为它可以改变土壤的生物和非生物特性。然而,土壤 EPS 对添加有机添加剂的反应(尤其是在田间试验中)及其对土壤团聚的后续影响仍不清楚。本研究旨在通过一项为期三年、每年施用 OA 的田间试验,阐明 OA(包括有机残留物堆肥、路边和公园的刈草以及牛粪)对土壤 EPS 含量和聚合稳定性的影响。通过探讨土壤 EPS(即多糖和蛋白质含量)、土壤理化性质(即 pH 值、溶解有机碳、可利用养分和养分总量)和土壤微生物群落(即微生物丰度和分类结构)之间的关系,我们进一步研究了土壤中 EPS 的产生因素。我们发现,与未加改良剂和堆肥改良剂的土壤相比,添加草料、粪肥以及草料和粪肥的组合会导致土壤中 EPS 含量的增加。EPS 含量与土壤变量相关,特别是 EPS 浓度与土壤中的可利用氮之间存在显著的正相关。此外,细菌和真菌的生物量也对土壤 EPS 有贡献。特定的细菌(如蛋白细菌、类杆菌和绿僵菌)和真菌(如子囊菌目和担子菌目)与土壤中的 EPS 呈显著的强相关性。相关性的方向,无论是正相关还是负相关,在阶次水平上都有所不同。此外,我们的研究还揭示了 EPS 浓度与土壤聚合稳定性之间的显著正相关关系。这些发现为设计可持续的农业管理方法,以及应用适当的 OA 是否能提高土壤中 EPS 的含量,进而提高土壤团聚体的稳定性提供了启示。
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来源期刊
European Journal of Soil Biology
European Journal of Soil Biology 环境科学-生态学
CiteScore
6.90
自引率
0.00%
发文量
51
审稿时长
27 days
期刊介绍: The European Journal of Soil Biology covers all aspects of soil biology which deal with microbial and faunal ecology and activity in soils, as well as natural ecosystems or biomes connected to ecological interests: biodiversity, biological conservation, adaptation, impact of global changes on soil biodiversity and ecosystem functioning and effects and fate of pollutants as influenced by soil organisms. Different levels in ecosystem structure are taken into account: individuals, populations, communities and ecosystems themselves. At each level, different disciplinary approaches are welcomed: molecular biology, genetics, ecophysiology, ecology, biogeography and landscape ecology.
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