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J Environ Manage
Title: | Hydrochar and hydrochar co-compost from OFMSW digestate for soil application: 2. agro-environmental properties |
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Author(s): | Bona D; Scrinzi D; Tonon G; Ventura M; Nardin T; Zottele F; Andreis D; Andreottola G; Fiori L; Silvestri S; |
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Address: | "Technology Transfer Centre, Fondazione Edmund Mach, Via E. Mach, 1, 38010, San Michele a/A, Italy. Department of Civil, Environmental and Mechanical Engineering, University of Trento, Trento, Italy. Faculty of Science and Technology, Free University of Bozen-Bolzano, Piazza Universita, 5, 39100, Bozen-Bolzano, Italy. Department of Civil, Environmental and Mechanical Engineering, University of Trento, Trento, Italy; Center Agriculture Food Environment (C3A), University of Trento, Trento, Italy. Electronic address: luca.fiori@unitn.it" |
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Journal Title: | J Environ Manage |
Year: | 2022 |
Volume: | 20220322 |
Issue: | |
Page Number: | 114894 - |
DOI: | 10.1016/j.jenvman.2022.114894 |
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ISSN/ISBN: | 1095-8630 (Electronic) 0301-4797 (Linking) |
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Abstract: | "The work concerns the study of the hydrochar from digestate and hydrochar co-compost characterization as amendments. The processes for hydrochar and co-compost production were described in Part 1 of this work (Scrinzi et al., 2022). The amendment properties of hydrochar (produced at 180-200-220 degrees C for 3 h) and co-composts (25%, 50%, and 75% hydrochar percentage of digestate substitution) were assessed by phytotoxicity, plant growth bioassay, and soil effect. Different seeds species (Lepidium sativum, Cucumis sativus, and Sorghum bicolor sp.) were dosed at increased concentrations using both wet raw amendments and their water extracts. The chemical characterization showed phytotoxic compounds content depending on both the initial feedstock (digestate) and the HTC process; at the same time, the analysis highlighted the reduction of these compounds by composting (organic acid, polyphenols, salt concentration). The dose-response was analyzed by the Cedergreen-Streibig-Ritz model and the half-maximal effective concentration (EC50) was calculated based on this equation. The soil properties and GHG emissions measurements (CH(4), CO(2), N(2)O, and NH(3)) highlighted the effect on N dynamics and on soil respiration induced by substrates. The HC200 soil application determined a significant impact on CO(2) and N(2)O emission and NH(3) volatilization (10.82 mol CO(2)/m(2); 51.45 mmol N(2)O/m(2); 112 mol NH(3)/m(2)) and a significant reduction of total N and TOC (46% of TKN and 49% of TOC). The co-compost (75%) showed specific effects after soil application compared to other samples an increase of available P (48%), a greater content of nitrogen (1626 mg/kg dry basis), and a reduction of organic carbon (17%). Our results demonstrate the good quality of co-compost and at the same time the validity of this post-treatment for addressing many issues related to hydrochar use in the soil as an amendment, confirming the suitability of HTC process integration for digestate treatment in anaerobic digestion plants" |
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Keywords: | Carbon Carbon Dioxide/analysis *Composting Nitrogen/analysis Soil/chemistry Co-compost GHG emissions Hydrochar Phytotoxicity Plant growth bioassay Soil effect; |
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Notes: | "MedlineBona, Daniela Scrinzi, Donato Tonon, Giustino Ventura, Maurizio Nardin, Tiziana Zottele, Fabio Andreis, Daniele Andreottola, Gianni Fiori, Luca Silvestri, Silvia eng England 2022/03/26 J Environ Manage. 2022 Jun 15; 312:114894. doi: 10.1016/j.jenvman.2022.114894. Epub 2022 Mar 22" |
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Citation: El-Sayed AM 2024. The Pherobase: Database of Pheromones and Semiochemicals. <http://www.pherobase.com>.
© 2003-2024 The Pherobase - Extensive Database of Pheromones and Semiochemicals. Ashraf M. El-Sayed.
Page created on 26-12-2024
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