Comparison between an Innovative Solarization System and Dazomet-Based Fumigation

An innovative soil solarization system based on biochar was recently proposed. The difference with traditional solarization lies in the use, after soil irrigation, of a biodegradable black liquid sprayed on the soil surface in order to obtain a black body capable of drastically increasing the absorp...

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Bibliographic Details
Published inSoil systems Vol. 7; no. 1; p. 20
Main Authors Rippa, Massimo, Yan, Changrong, Liu, Qin, Tucci, Elia, Mormile, Pasquale
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.03.2023
Subjects
Agricultural production
Analysis
biochar
Biodegradability
Biodegradation
Blackbody
Charcoal
Chemical elements
Evaluation
Fumigation
Heat
High temperature
Incident radiation
innovative solarization
Methods
Nematodes
Pathogens
Pesticides
Radiation
Soil depth
Soil layers
Soil microorganisms
Soil surfaces
Soil temperature
Soil treatment
soil treatments
soil-borne pathogens
Soils
Solar energy
Solar radiation
Sustainable practices
Temperature measurement
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Summary:An innovative soil solarization system based on biochar was recently proposed. The difference with traditional solarization lies in the use, after soil irrigation, of a biodegradable black liquid sprayed on the soil surface in order to obtain a black body capable of drastically increasing the absorption of incident radiation and, as a consequence, increasing temperatures at different depths. Due to these higher temperatures, it is possible to eliminate pathogens in shorter times than with traditional solarization. In recent years, this practice has been tested in various contexts by comparing traditional solarization with this innovative new practice through temperature measurement at different soil depths for two months. The experimental data confirm the validity of this new approach for soil treatment: higher temperatures were registered with the innovative system, up to 10 °C more than the traditional method. In this work, we report a comparison between the new solarization system and a fumigation method. Our experimental results demonstrate that it is possible to obtain a satisfying soil treatment with a natural and sustainable practice based on solar energy, overcoming the major limitation of traditional solarization: application time. The black layer on the soil allows for the attainment of temperatures as high as necessary to eliminate most pathogens in a shorter time (just 30 days) than traditional solarization (2 months).
ISSN:2571-8789
2571-8789
DOI:10.3390/soilsystems7010020