Biosolids blended with edaphic supports mimic structural and biochemical features of natural soils and foster plant biomass growth

IF 3.7 2区农林科学 Q1 ECOLOGY

European Journal of Soil Biology Pub Date : 2025-01-24 DOI:10.1016/j.ejsobi.2025.103709

Filipe Behrends Kraemer , Diana P. Wehrendt , Anabella Tobler , Daiana Sainz , Lucas Barbieri Oliveri , Linda Jungwirth , Paula Fontana , Cristian Weigandt , Patricia L. Fernández , Melisa Altina , Leandro D. Guerrero , Rodrigo Pontiggia , Leonardo Erijman

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引用次数: 0

Abstract

Biosolids can be blended with edaphic components to formulate customized soil mixes (Technosols), where specific nutrient levels, moisture content, and other factors are tailored to support plant growth. The aim of this work was to evaluate constructed Technosols regarding specific physical, rheological, and biochemical characteristics, as well as for their ability to meet the growth requirements of rye grass. Soil horizons A and C, and quarry waste, were examined both individually as controls and in binary combinations with biosolids, maintaining a ratio of 70:30 in a replicated pot experiment. After 35 days, half of the pots were seeded with ryegrass (Lolium perenne ssp). After 3,5 months, the following physical, chemical, and rheological properties were measured: bulk density; plastic limit; liquid limit; saturated hydraulic conductivity; aggregate stability, organic matter and total Kjeldahl nitrogen. Enzyme activities were determined using fluorogenic substrates, whereas total bacterial and fungal composition was assessed through qPCR and amplicon sequencing using respectively 16S rRNA gene and ITS gene primers. Biosolids-based Technosols exhibited soil-like behavior across various examined variables, such as aggregate stability, microbial community composition and the yield of harvested plant biomass. Changes in the physical and chemical characteristics of mixtures containing biosolids were accompanied by corresponding changes in enzyme activities, as well as by shifts in absolute bacterial and fungal abundance. Biosolid-based Technosols possess the capability to establish sustainable and effective aggregation conditions, maintaining satisfactory water retention levels, and fostering favorable microbiological and biochemical conditions to fulfill essential soil functions, including biomass production.

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生物固体与土壤支撑物混合，模拟天然土壤的结构和生化特征，促进植物生物量的生长

生物固体可以与土壤成分混合，形成定制的土壤混合物（Technosols），其中特定的营养水平、水分含量和其他因素是量身定制的，以支持植物生长。本工作的目的是评价构建的技术溶胶在特定的物理、流变学和生化特性，以及它们满足黑麦草生长要求的能力。土壤层A和层C以及采石场废物分别作为对照和与生物固体的二元组合进行了研究，在重复盆栽试验中保持70:30的比例。35天后，一半的盆栽播种黑麦草（Lolium perenne ssp）。3、5个月后，测量以下物理、化学和流变性能：堆积密度；塑性极限;液限;饱和水力导率；团聚体稳定性、有机质和总凯氏定氮。使用荧光底物测定酶活性，而通过qPCR和扩增子测序分别使用16S rRNA基因和ITS基因引物评估细菌和真菌的总组成。基于生物固体的技术溶胶在各种检测变量中表现出类似土壤的行为，如团聚体稳定性、微生物群落组成和收获的植物生物量的产量。含有生物固体的混合物的物理和化学特性的变化伴随着相应的酶活性的变化，以及绝对细菌和真菌丰度的变化。基于生物固体的技术溶胶能够建立可持续和有效的聚集条件，保持令人满意的保水水平，并培养有利的微生物和生化条件，以实现基本的土壤功能，包括生物质生产。

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来源期刊

European Journal of Soil Biology 环境科学-生态学

CiteScore

6.90

自引率

0.00%

发文量

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.