Effects of Neonicotinoid Seed Treatments on Soil Microbial Gene Expression Vary with Time in an Agricultural Ecosystem

Parizadeh, Mona; Mimee, Benjamin; Kembel, Steven W.

doi:10.1101/2022.01.20.477174

Cited by 2 publications

(2 citation statements)

References 72 publications

(81 reference statements)

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“…Finally, we greatly thank Golrokh Kiani (CERMO-UQAM) and Joël Lafond-Lapalme (AAFC) for their suggestions in data processing, and Geneviève Labrie (CRAM) and Annie-Ève Gagnon (AAFC) for their valuable scientific advice and suggestions. This paper has been released as a pre-print at bioRxiv [78].…”

Section: Acknowledgementsmentioning

confidence: 99%

Soil microbial gene expression in an agricultural ecosystem varies with time and neonicotinoid seed treatments

2023

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Neonicotinoids, a class of systemic insecticides, have been widely used for decades against various insect pests. Previous studies have reported non-target effects of neonicotinoids on some beneficial macro- and micro-organisms. Considering the crucial role the soil microbiota plays in sustaining soil fertility, it is critical to understand how neonicotinoid exposure affects the microbial taxonomic composition and gene expression. However, most studies to date have evaluated soil microbial taxonomic compositions or assessed microbial functions based on soil biochemical analysis. In this study, we have applied a metatranscriptomic approach to quantify the variability in soil microbial gene expression in a 2 year soybean/corn crop rotation in Quebec, Canada. We identified weak and temporally inconsistent effects of neonicotinoid application on soil microbial gene expression, as well as a strong temporal variation in soil microbial gene expression among months and years. Neonicotinoid seed treatment altered the expression of a small number of microbial genes, including genes associated with heat shock proteins, regulatory functions, metabolic processes and DNA repair. These changes in gene expression varied during the growing season and between years. Overall, the composition of soil microbial expressed genes seems to be more resilient and less affected by neonicotinoid application than soil microbial taxonomic composition. Our study is among the first to document the effects of neonicotinoid seed treatment on microbial gene expression and highlights the strong temporal variability of soil microbial gene expression and its responses to neonicotinoid seed treatments.

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Section: Acknowledgementsmentioning

confidence: 99%

Soil microbial gene expression in an agricultural ecosystem varies with time and neonicotinoid seed treatments

2023

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“…Applying insecticides against subterranean pests could alter the chemical and biological properties of the soil. Neonicotinoids, which are one of the most commonly used seed treatments in small grains, are known to alter the structure, genetic diversity, and bioactivity of the soil microbial communities, at least in the short-term [32,[256][257][258]. Applying a higher dosage of the neonicotinoid imidacloprid can result in long-term changes in the soil's microbial composition and metabolic activity [256].…”

Section: Insecticidesmentioning

confidence: 99%

Integrated Pest Management of Wireworms (Coleoptera: Elateridae) and the Rhizosphere in Agroecosystems

Nikoukar

Rashed

2022

Insects

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The rhizosphere is where plant roots, physical soil, and subterranean organisms interact to contribute to soil fertility and plant growth. In agroecosystems, the nature of the ecological interactions within the rhizosphere is highly dynamic due to constant disruptions from agricultural practices. The concept of integrated pest management (IPM) was developed in order to promote an approach which is complementary to the environment and non-target organisms, including natural enemies, by reducing the sole reliance on synthetic pesticides to control pests. However, some of the implemented integrated cultural and biological control practices may impact the rhizosphere, especially when targeting subterranean pests. Wireworms, the larval stage of click beetles (Coleoptera: Elateridae), are generalist herbivores and a voracious group of pests that are difficult to control. This paper introduces some existing challenges in wireworm IPM, and discusses the potential impacts of various control methods on the rhizosphere. The awareness of the potential implications of different pest management approaches on the rhizosphere will assist in decision-making and the selection of the control tactics with the least long-term adverse effects on the rhizosphere.

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Effects of Neonicotinoid Seed Treatments on Soil Microbial Gene Expression Vary with Time in an Agricultural Ecosystem

Cited by 2 publications

References 72 publications

Soil microbial gene expression in an agricultural ecosystem varies with time and neonicotinoid seed treatments

Soil microbial gene expression in an agricultural ecosystem varies with time and neonicotinoid seed treatments

Integrated Pest Management of Wireworms (Coleoptera: Elateridae) and the Rhizosphere in Agroecosystems

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