Assessing the Impact of Sustainable Biochar-Enriched Substrates on Safety and Quality of Tomato (Solanum lycopersicum L.) as Relevant Model Crop

IF 2.3 Q1 AGRICULTURE, MULTIDISCIPLINARY ACS agricultural science & technology Pub Date : 2024-04-24 DOI:10.1021/acsagscitech.3c00589
Lorenzo Bini, Lapo Renai, Michelangelo Fichera, William Antonio Petrucci, Anna Lenzi, Stefano Biricolti, Edgardo Giordani, Luca Rivoira, Maria Concetta Bruzzoniti, Dariusz Piesik and Massimo Del Bubba, 
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Abstract

Forestry-waste biochar was tested as a commercial substrate (peat:lapillus 1:1 v/v) amendment in growing tomatoes (Solanum lycopersicum L.). Substrates were 0% (control), 5%, 10%, 20%, and 40% (% v/v) biochar-enriched and were characterized for their textural and physicochemical properties. After harvesting, tomato production (i.e., plant and fruits), quality (e.g., nutrition and nutraceutics), and safety (i.e., biochar-related pollutants) were assessed according to the different growing media. 10-to-40% biochar-enriched substrates only exceeded the pH threshold set by L.D. 75/2010. Ni and Mn exhibited a similar trend between substrates and fruits, while Cr, Pb, and Cd were absent. Plant biomass increased (up to 11–29%) according to biochar content, which conversely diminished fruit production (∼25–60% reduction). Only acenaphthene exhibited an increasing profile (11–12 μg kg–1) according to the treatments, nevertheless complying with the European regulations. PLS-DA confirmed practice suitability by substrate–crop correlation, providing prediction models for quality and safety assessment.

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评估可持续生物炭富集基质对作为相关示范作物的番茄(Solanum lycopersicum L.)的安全性和质量的影响
在番茄(Solanum lycopersicum L.)的生长过程中,测试了将林业废弃物生物炭作为商业基质(泥炭:青霉 1:1 v/v)改良剂的效果。基质的生物炭含量分别为 0%(对照)、5%、10%、20% 和 40%(% v/v),并对其质地和理化特性进行了表征。收获后,根据不同的生长介质对番茄的产量(即植株和果实)、质量(如营养和营养学)和安全性(即与生物炭相关的污染物)进行了评估。富含 10% 至 40% 生物炭的基质仅超过了 L.D. 75/2010 规定的 pH 值阈值。基质和果实中的镍和锰呈现出相似的趋势,而没有铬、铅和镉。植物生物量随生物炭含量的增加而增加(高达 11-29%),相反,果实产量却减少(减少 25-60%)。根据不同的处理方法,只有苊的含量呈上升趋势(11-12 μg kg-1),但仍符合欧洲的规定。PLS-DA 通过基质与作物的相关性确认了实践的适用性,为质量和安全评估提供了预测模型。
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