Effect of plastic film and hemp canvas mulching on soil properties, microbial diversity and lettuce yield

TitleEffect of plastic film and hemp canvas mulching on soil properties, microbial diversity and lettuce yield
Publication TypeJournal Article
Year of Publication2024
AuthorsJacquiod S., Bouchard E., Beguet J., Roure F., Cheviron N., Mougin C., Coffin A., Blouin M., Martin-Laurent F.
JournalPlant and Soil
Pagination19
Date Published2024 Mar
Type of ArticleArticle; Early Access
ISBN Number0032-079X
Accession NumberWOS:001176698800001
KeywordsAgriculture, agroecology, bacterial, carbon, coleoptera, communities, germination, growth, Hemp mulching, loess plateau, microbiome, Mulching canvas, Pesticides, Plant Sciences, Plastic mulching, soil, Soil enzymatic activities, Soil relative, Soil temperature, temperature, water content, weed management
Abstract

AimsPlastic films efficiently control weed development in agriculture but may have environmental impacts, including alterations of the soil functioning and its microbiota. Canvases made of plant fibres are promising biodegradable alternatives showing uniform soil covering like plastic films, unlike straw mulching which is often laid unevenly on the ground. Hemp is particularly interesting for its resistance and possible effects on the soil microbiota. We tested the effect of several mulches differing in their biodegradability and homogeneity (uniform/uneven soil covering) on soil functioning and crop yield.MethodsIn greenhouse, we assessed the effects of different mulching on lettuce yields, soil properties (temperature, moisture, enzymatic activities) and the soil microbiota. We cropped lettuces either on bare soil (control), a homogeneous non-biodegradable mulch (plastic film), a biodegradable heterogeneous mulch (hemp straw) and a biodegradable and homogenous mulch (hemp canvas).ResultsPlastic film increased soil temperature, decreased most enzymatic activities, and altered the soil microbiota composition. The hemp canvas decreased fungal diversity, while increasing soil moisture, laccase activity, and the abundance of specific Ascomycota, Proteobacteria and Actinobacteria taxa. Plastic and hemp canvas gave similar lettuce yields.ConclusionsMulching with plastic films and hemp canvases changed soil functioning (C cycle enzymatic activities) and the soil microbiota. Although similar lettuce yields were obtained, effects of the plastic film were likely mediated by the increased soil temperature and accelerated organic matter degradation, while effects of the hemp canvas resulted from increased soil moisture and recalcitrant matter degradation, combined with the stimulation of potentially beneficial soil microorganisms.

Short TitlePlant SoilPlant Soil
Alternate JournalPlant Soil
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Cited Reference Count: 104
Jacquiod, Samuel Bouchard, Elodie Beguet, Jeremie Roure, Frederic Cheviron, Nathalie Mougin, Christian Coffin, Arnaud Blouin, Manuel Martin-Laurent, Fabrice
Jacquiod, Samuel/M-2259-2014; Mougin, Christian/K-1734-2016
Jacquiod, Samuel/0000-0002-0713-7996; Mougin, Christian/0000-0003-1333-9049
French "Programme d'Investissement d'Avenir" PIA3 via the "Mulch-Cat-alyse" project; University of Bourgogne Franche-Comte via an ISITE-BFC International Junior Fellowship award; [AAP3:RA19028.AEC.IS]
This study was supported by the French "Programme d'Investissement d'Avenir" PIA3 via the "Mulch-Cat-alyse" project and the University of Bourgogne Franche-Comte via an ISITE-BFC International Junior Fellowship award (grant number: AAP3:RA19028.AEC.IS).

18
Springer
Dordrecht
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Jacquiod, S (corresponding author), Univ Bourgogne, Univ Bourgogne Franche Comte, Inst Agro, INRAE,Agroecol, F-21000 Dijon, France.
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