Giannakis Ioannis, Emmanouil Christina, Mitrakas Manassis, Manakou Vasiliki, Kungolos Athanasios
School of Civil Engineering, Aristotle University of Thessaloniki, 54124, Thessaloniki, Greece.
School of Spatial Planning and Development, Aristotle University of Thessaloniki, 54124, Thessaloniki, Greece.
Environ Sci Pollut Res Int. 2021 Jan;28(4):3797-3809. doi: 10.1007/s11356-020-09165-6. Epub 2020 May 18.
Sludge-based biosolids can be used for crop fertilization and for soil enrichment with organic matter. The prerequisites for their application are laid out in 86/278/EEC which sets limits for metals of toxicological concern in the biosolid and in the recipient soil. In this context, three kinds of sludge-based biosolids from a municipal wastewater treatment plant were submitted to the leaching tests EN 12457-2 and ΝΕΝ 7341. The leachates were examined for their physicochemical, chemical, and ecotoxicological characteristics four times within a year. Even in the more aggressive metal leaching method (ΝΕΝ 7341), results were much lower than the limits set in Council Directive 86/278/EEC. Correlations were noted between numerous parameters and principal component analysis grouped them in 3 components explaining 76% of total variation. These leaching tests were also performed on soil-biosolid samples from another investigative research in which two of the three kinds of biosolids had been incorporated in corn fields at doses 0, 20, and 40 tn/ha. EN 12457-2 leaching tests indicated that Ni and Cd leaching was affected by biosolid incorporation in soil, in relation to the type of the receiving soil (clay or sand). The leachates from the soil-biosolid mixtures were practically not toxic for the organisms tested (D. magna, V. fischeri, higher plants). In summary the biosolids were considered of low environmental risk when utilized in the field. A detailed risk assessment encompassing both chemical and ecotoxicological analysis is necessary for integrated evaluation of biosolids.
基于污泥的生物固体可用于作物施肥和土壤有机质富集。其应用的前提条件在86/278/EEC中列出,该指令对生物固体和接收土壤中具有毒理学关注的金属设定了限值。在此背景下,对来自城市污水处理厂的三种基于污泥的生物固体进行了EN 12457-2和ΝΕΝ 7341浸出试验。在一年中对浸出液的物理化学、化学和生态毒理学特性进行了四次检测。即使在更具侵蚀性的金属浸出方法(ΝΕΝ 7341)中,结果也远低于理事会指令86/278/EEC设定的限值。注意到众多参数之间的相关性,主成分分析将它们分为三个成分,解释了总变异的76%。这些浸出试验也在来自另一项调查研究的土壤-生物固体样品上进行,在该研究中,三种生物固体中的两种已以0、20和40吨/公顷的剂量施用于玉米田。EN 12457-2浸出试验表明,镍和镉的浸出受生物固体在土壤中的掺入影响,这与接收土壤的类型(粘土或沙子)有关。土壤-生物固体混合物的浸出液对受试生物(大型溞、费氏弧菌、高等植物)实际上没有毒性。总之,这些生物固体在田间使用时被认为环境风险较低。对生物固体进行综合评估需要进行包括化学和生态毒理学分析在内的详细风险评估。
