Pukalchik Maria, Mercl Filip, Panova Maria, Břendová Kateřina, Terekhova Vera A, Tlustoš Pavel
Department of Land Resources, Faculty of Soil Science, Lomonosov Moscow State University, Moscow, Russia.
Department of Agro-Environmental Chemistry and Plant Nutrition, Faculty of Agrobiology, Food and Natural Resources, Czech University of Life Sciences, Prague, Czech Republic.
Environ Pollut. 2017 Oct;229:516-524. doi: 10.1016/j.envpol.2017.06.021. Epub 2017 Jun 30.
Nowadays trace metal contamination of soils represents an important environmental hazard. Nevertheless, the use of some secondary waste products as amendments may restore the common soil functions. This paper focuses on the chemical and biological influence of wood biochar (BC), wood ash (WA) and humic substances (HS), alone and in the mixtures, on a heavily multi-contaminated sandy loam soil. The soil was amended by above-mentioned materials to follow a pH-increasing design (pH from 6.0 to 6.5, 7.0 and 7.5); soil samples were analyzed after 3, 30, and 60 days using a set of variables, namely the plant-available trace element concentrations (Cu, Cd, and Zn), microbial biomass carbon (Cmic), and microbial quotient (qCO), as well as toxicity to Sinapis alba and Daphnia magna. Wood ash and WA + HS were the most efficient treatments to decrease mobile Cd and Zn concentrations in the soil, while HS, BC, and BC + HS combinations were the most effective in reducing the Cu mobility. The effect of BC and WA on the Cmic and qCO was mostly negative, whereas adding HS markedly increased Cmic and reduced qCO in soil. After amendment applications, the root elongation of mustard was significantly increased in HS and combined treatments (BC + HS, WA + HS). Additionally, BC + HS, WA + HS and WA 8.4% significantly decreased the toxicity of leachates to D. magna to the low-, or non-toxic levels. Our results suggest that the combination of amendments with HS can be a suitable remediation strategy for heavily contaminated soils.
如今,土壤中的微量金属污染是一个重要的环境危害。然而,使用一些二次废弃物作为改良剂可能会恢复土壤的常见功能。本文重点研究了木生物炭(BC)、木灰(WA)和腐殖质(HS)单独及混合使用时,对重度多污染砂壤土的化学和生物学影响。通过上述材料对土壤进行改良,以遵循pH值升高的设计(pH值从6.0提高到6.5、7.0和7.5);在3天、30天和60天后,使用一组变量对土壤样品进行分析,这些变量包括植物有效微量元素浓度(铜、镉和锌)、微生物生物量碳(Cmic)和微生物商(qCO),以及对白芥子和大型溞的毒性。木灰以及木灰+腐殖质是降低土壤中可移动镉和锌浓度最有效的处理方法,而腐殖质、生物炭以及生物炭+腐殖质组合在降低铜的移动性方面最为有效。生物炭和木灰对微生物生物量碳和微生物商的影响大多为负面,而添加腐殖质则显著增加了土壤中的微生物生物量碳并降低了微生物商。施用改良剂后,腐殖质处理组以及组合处理组(生物炭+腐殖质、木灰+腐殖质)中芥菜的根伸长显著增加。此外,生物炭+腐殖质、木灰+腐殖质和8.4%木灰显著降低了渗滤液对大型溞的毒性,使其达到低毒或无毒水平。我们的结果表明,改良剂与腐殖质的组合可能是重度污染土壤的一种合适修复策略。
