Abstract
Simple SummaryBio-stimulants are showing growing success and are gradually replacing synthetic fertilizers in agriculture. Wood distillate (WD), also known as wood vinegar or pyroligneous acid, is a by-product of biomass pyrolysis and is increasingly used as a bio-stimulant for crop production. The purpose of this work was to test two types of WD utilizations: (i) pure WD (from BioDea®) and (ii) WD combined with 3% soy lecithin and 5% flavonoid-rich wood glycolic extract (BF; BioDea Flavor®), at concentrations of 0.25% and 0.50%. Our results indicate that foliar applications of both WD and BF increased chlorophyll content, biomass, and starch content in the treated lettuce, while WD, at a concentration of 0.50%, also increased glucose and fructose content. All the treatments were found to be safe, as neither of them showed a significant increase in the content of potentially toxic elements (PTEs) in lettuce.Bio-stimulants are showing growing success and are gradually replacing synthetic fertilizers in agriculture. Wood distillate (WD), also known as wood vinegar or pyroligneous acid, is a by-product of biomass pyrolysis and is increasingly used as a bio-stimulant for crop production. This study investigated whether weekly foliar applications of 0.25% and 0.50% WD have a differential effect on the chlorophyll and sugar content as well as biomass production in lettuce (Lactuca sativa L.). Moreover, the additional beneficial effect from the addition of corroborants of plant origin such as 3% soy lecithin and 5% flavonoid-rich wood glycolic extract to WD (BF) was investigated. Moreover, the possible toxicological concern from some potentially toxic elements (PTEs), namely Cd, Cu, Fe, Pb, and Zn, which may be abundant in WD was verified. After four weeks, we found that 0.25% WD not only increases lettuce biomass, which has an economic value, but also has beneficial effects on other qualitative parameters such as sugars and total sweetness. On the other hand, the use of 0.5% WD decreased the content of soluble sugars, suggesting a hormetic-type effect. We did not find evidence of further beneficial effects from the addition to WD of plant-derived corroborants, nor of any enrichment in the content of the investigated PTEs.
Highlights
The results of this study showed that Wood distillate (WD) has a positive effect on chlorophyll content (+54%) and biomass production (+39%) and that the addition of lecithin further increased biomass production (+51%)
Based on the indications of the producers, i.e., that WD can be applied at concentrations in the range of 0.2–0.5%, the first aim of this paper was to test whether different doses of WD have a differential effect on the chlorophyll and sugar content as well as the biomass production in lettuce
The potential toxicological concern regarding treatments with WD was investigated by checking the concentration of some potentially toxic elements (PTEs), namely Cd, Cu, Fe, Pb, and Zn, which may be abundant in WD [16]
Summary
Chemical fertilizers have played an important role in boosting crop productivity and enabling a growing population to be fed without using additional land [1]. Their long-term and excessive use has become a major environmental concern [2], and at present there is a growing interest in bio-based alternatives to chemical fertilizers [3]. Wood distillate (WD), known as pyroligneous acid, is a by-product of biomass pyrolysis for energy production [4,5] and is known to be very rich in different molecules, such as esters, alcohols, acids, sugars, and phenols [6,7]. An investigation of the safety profile of wood distillate excluded inflammatory and cytotoxic effects at low recommended doses and short-time applications at higher doses [17]
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