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1.
Front Plant Sci ; 13: 1009956, 2022.
Artigo em Inglês | MEDLINE | ID: mdl-36426148

RESUMO

Soil biosolarization (SBS) is an alternative technique for soil pest control to standard techniques such as soil fumigation and soil solarization (SS). By using both solar heating and fermentation of organic amendments, faster and more effective control of soilborne pathogens can be achieved. A circular economy may be created by using the residues of a given crop as organic amendments to biosolarize fields that produce that crop, which is termed circular soil biosolarization (CSBS). In this study, CSBS was employed by biosolarizing soil with amended tomato pomace (TP) residues and examining its impact on tomato cropping under conditions of abiotic stresses, specifically high salinity and nitrogen deficiency. The results showed that in the absence of abiotic stress, CSBS can benefit plant physiological performance, growth and yield relative to SS. Moreover, CSBS significantly mitigated the impacts of abiotic stress conditions. The results also showed that CSBS impacted the soil microbiome and plant metabolome. Mycoplana and Kaistobacter genera were found to be positively correlated with benefits to tomato plants health under abiotic stress conditions. Conversely, the relative abundance of the orders RB41, MND1, and the family Ellin6075 and were negatively correlated with tomato plants health. Moreover, several metabolites were significantly affected in plants grown in SS- and CSBS-treated soils under abiotic stress conditions. The metabolite xylonic acid isomer was found to be significantly negatively correlated with tomato plants health performance across all treatments. These findings improve understanding of the interactions between CSBS, soil ecology, and crop physiology under abiotic stress conditions.

2.
J Agric Food Chem ; 66(22): 5451-5461, 2018 Jun 06.
Artigo em Inglês | MEDLINE | ID: mdl-29763301

RESUMO

Conventional solarization and biosolarization with mature compost and tomato processing residue amendments were compared with respect to generation of pesticidal conditions and tomato ( Solanum lycopersicum L.) plant growth in treated soils. Soil oxygen depletion was examined as a response that has previously not been measured across multiple depths during biosolarization. For biosolarized soil, volatile fatty acids were found to accumulate concurrent with oxygen depletion, and the magnitude of these changes varied by soil depth. Two consecutive years of experimentation showed varying dissipation of volatile fatty acids from biosolarized soils post-treatment. When residual volatile fatty acids were detected in the biosolarized soil, fruit yield did not significantly differ from plants grown in solarized soil. However, when there was no residual volatile fatty acids in the soil at the time of planting, plants grown in biosolarized soil showed a significantly greater vegetation amount, fruit quantity, and fruit ripening than those of plants grown in solarized soil.


Assuntos
Resíduos Industriais/análise , Controle de Pragas/métodos , Solo/química , Solanum lycopersicum/crescimento & desenvolvimento , Resíduos/análise , Controle de Plantas Daninhas/métodos , Compostagem , Frutas/química , Frutas/crescimento & desenvolvimento , Frutas/metabolismo , Solanum lycopersicum/química , Solanum lycopersicum/parasitologia , Doenças das Plantas/parasitologia , Doenças das Plantas/prevenção & controle , Plantas Daninhas/crescimento & desenvolvimento , Plantas Daninhas/efeitos da radiação , Solo/parasitologia , Energia Solar
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