Abstract
Biochar production via pyrolysis is a promising option for treating sewage sludge (SS). Here we investigated the uptake of potentially toxic elements (PTEs) from SS and its biochar (450 °C) into cherry tomato (Lycopersicon esculentum L.) plants and their fruits in pot experiments (2, 5 and 10%), to assess the health risks associated with fruit consumption. We further studied the ability of the PTE-rich amendments to immobilize PTEs already present in soil through spiking of soil (pH 7.4) with Cd, Cu and Zn. Our findings suggest that tomato consumption is not a human health risk when grown in soil amended with SS and its biochar; in most treatments PTE uptake into fruits was similar to the control. Vegetative plant growth was highest in SS-amended soils. Yet 5 and 10% biochar-amended soils significantly increased tomato fruit yield relative to untreated SS application (400–500% higher than 10% SS-amended soil) and significantly decreased fruit uptake of Cu and Zn. Importantly, biochar also significantly immobilized PTEs present in contaminated (spiked) soil. As expected, available (DTPA-extractable) PTE contents were typically lower in biochar-amended soil and sequential extraction indicated that the PTEs were predominantly bound in more recalcitrant soil fractions (organic matter associated and Fe–Mn oxides-bound). We conclude that pyrolysis can be a key technology for treatment of PTE-rich SS and subsequent use of the produced biochar in urban, and potentially even PTE-contaminated, horticultural sites.
Highlights
The amount of sewage sludge (SS) produced globally from urban and industrial sources is increasing with the world's population and industrialization [1]
We investigated the uptake of potentially toxic elements (PTEs) from sewage sludge and its biochar (450°C) into cherry tomato plants and its fruits in pot experiments (2, 5 and 10%) to assess the health risks associated with fruit consumption
Our findings suggest that tomato consumption is not a human health risk when grown in soil amended with sewage sludge and its biochar; in most treatments PTE uptake into fruits was similar to the control
Summary
The amount of sewage sludge (SS) produced globally from urban and industrial sources is increasing with the world's population and industrialization [1]. SS contains organic matter (OM), macro-nutrients (N, P and K), and micro-nutrients, and has been applied on agricultural land as soil amendment and fertilizer for decades [2, 3]. It contains contaminants, including potentially toxic elements (PTEs), pathogens and organic compounds, such as polycyclic aromatic hydrocarbons (PAHs) [4]. The application of SS biochar to agricultural land is of much less concern to the environment than the application of untreated SS [8, 9]. Modifications of biomass material, such as potassium doping, produce biochar with nutrient-release properties beneficial for plant growth enabling agronomic use of SS biochar [10]
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