Biological Activities in Artificially Heavy-Metal-Contaminated Growing Substrates

IF 2.9 Q2 SOIL SCIENCE Soil Systems Pub Date : 2023-12-11 DOI:10.3390/soilsystems7040111
S. Papa, Marta Alvarez-Romero
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Abstract

The ingestion of vegetables grown in soils or in cultivation substrate contaminated with heavy metals (HMs) and irrigated with wastewater is a potential problem for human health and food quality. The increasing disappearance of fertile soils has led to an increase in the practice of soil-less cultivation and the use of growing substrates, but the choice of the right substrate and its sustainable management is essential to ensure the production of quality and safe vegetables for all while minimizing the impact on the environment and human health. The present study measures the combined effects of different HMs (V, Ni, Cd, Pb, Cu, Cr) on microbial biomass, respiration, and enzyme activities (EAs) in an artificially contaminated commercial growing substrate. The concentrations of HMs were estimated by Atomic Absorption Spectroscopy; enzyme activities via spectrophotometric assays; respiration via CO2 evolution; and microbial biomass C via the fumigation extraction method. The results showed a reduction in both respiration and all enzyme activities. The reduction in EAs highlighted a notable influence on microorganism-mediated C, N, S, and P cycles, strongly reducing substrate health. Microbial biomass did not show significant differences, but the increase in the metabolic quotient highlighted how the toxicity of HMs reduces the energy use efficiency of microbial metabolic processes.
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人工重金属污染生长基质中的生物活性
摄入在受重金属(HMs)污染的土壤或栽培基质中生长并用废水灌溉的蔬菜,对人类健康和食品质量都是一个潜在的问题。随着肥沃土壤的日益消失,无土栽培和使用种植基质的做法越来越多,但选择合适的基质并对其进行可持续管理,对于确保生产优质安全的蔬菜,同时最大限度地减少对环境和人类健康的影响至关重要。本研究测量了不同 HMs(钒、镍、镉、铅、铜、铬)对人工污染的商业种植基质中微生物生物量、呼吸作用和酶活性(EAs)的综合影响。原子吸收光谱法估算了 HMs 的浓度;分光光度法测定了酶活性;二氧化碳进化法测定了呼吸作用;熏蒸提取法测定了微生物生物量 C。结果表明,呼吸作用和所有酶活性都有所下降。EAs 的减少对微生物介导的 C、N、S 和 P 循环产生了显著影响,大大降低了底物的健康状况。微生物生物量没有出现显著差异,但代谢商数的增加突显了 HMs 的毒性如何降低微生物代谢过程的能量利用效率。
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来源期刊
Soil Systems
Soil Systems Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
5.30
自引率
5.70%
发文量
80
审稿时长
11 weeks
期刊最新文献
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