Department of Soil, Plant and Food Sciences, University of Bari "Aldo Moro", Via Amendola 165/A, 70126, Bari, Italy.
C.N.R.-National Research Council, Institute of Sciences of Food Production, Via Amendola 122/O, 70126, Bari, Italy.
Environ Sci Pollut Res Int. 2017 Nov;24(32):25406-25415. doi: 10.1007/s11356-017-0103-2. Epub 2017 Sep 20.
Compost has been recently suggested as an alternative to peat for the preparation of growing substrates in soilless cultivation systems. However, some physico-chemical properties of compost may reduce plant performance and endanger the quality of productions, in particular for possible heavy metal accumulation in edible parts. This study aims at evaluating the suitability of a municipal solid waste compost (MSWC) and a sewage sludge compost (SSC) as components of growing media for the soilless cultivation of lettuce (Lactuca sativa L.). Heavy metal content of SSC complied with legislation limits but, in MSWC, it exceeded (Cu, Pb) or was very close (Cd, Zn) to safe limits. A greenhouse experiment was carried out by cultivating four lettuce cultivars ("Maximus," "Murai," "Patagonia," and "Aleppo") in pots containing a mixture of MSWC and perlite (MSWC + P), SSC and perlite (SSC + P), or peat and perlite (peat + P), the latter used as control. Plant biometric parameters measured after 72 days of growth revealed that the yield of plants cultivated on SSC + P was similar to control plants, independently of the cultivar. Conversely, MSWC + P suppressed in general the biomass production, especially for Murai and Patagonia cultivars. Compared to peat + P, both compost-based substrates reduced the leaf accumulation of heavy metals, with a major effect in Maximus plants. The levels of Cd and Pb in the edible part were always below the safe limits imposed by European regulation. Therefore, risks of heavy metal intake in food chain associated with the replacement of peat with compost in the growing media are negligible, even when a compost with a significant amount of heavy metals is used. Besides compost quality monitoring, also an appropriate varietal choice is crucial to obtain good yields and safe products.
堆肥最近被提议作为无土栽培系统中制备生长基质的替代物,替代泥炭。然而,堆肥的一些物理化学性质可能会降低植物的性能,并危及产品的质量,特别是对于食用部分可能存在重金属积累的情况。本研究旨在评估城市固体废物堆肥(MSWC)和污水污泥堆肥(SSC)作为无土栽培生菜(Lactuca sativa L.)生长介质成分的适宜性。SSC 的重金属含量符合法规限制,但在 MSWC 中,它超过(Cu、Pb)或非常接近(Cd、Zn)安全限制。通过在含有 MSWC 和珍珠岩(MSWC + P)、SSC 和珍珠岩(SSC + P)或泥炭和珍珠岩(peat + P)的花盆中种植四种生菜品种(“Maximus”、“Murai”、“Patagonia”和“Aleppo”)进行温室实验,后者用作对照。生长 72 天后测量的植物生物计量参数表明,在 SSC + P 上种植的植物的产量与对照植物相似,与品种无关。相反,MSWC + P 通常抑制生物量的产生,特别是对于 Murai 和 Patagonia 品种。与 peat + P 相比,两种基于堆肥的基质都减少了叶片中重金属的积累,对 Maximus 植物的影响更大。可食用部分的 Cd 和 Pb 含量始终低于欧洲法规规定的安全限值。因此,即使使用含有大量重金属的堆肥,用堆肥替代栽培基质中的泥炭也不会导致食物链中重金属摄入的风险,是可以忽略不计的。除了堆肥质量监测外,还需要适当的品种选择,以获得良好的产量和安全的产品。
