Dissipation of DvSnf7 RNA from Late‐Season Maize Tissue in Aquatic Microcosms

Abstract: The commercialization of RNA‐based agricultural products requires robust ecological risk assessments. Ecological risk is operationally defined as a function of exposure and adverse effects. Information on the environmental fate of RNA‐based plant‐incorporated protectants is essential to define routes and duration of exposure to potentially sensitive nontarget organisms. Providing these details in problem formulation helps focus the ecological risk assessment on the relevant species of concern. Postharvest plan… Show more

“…These conservative estimates inform exposure levels of an organism, including detritivores and pollinators that feed directly on plant tissues. Plant dsRNA expression information can also estimate exposure to organisms in other environmental compartments, including soil and aquatic environments, using established models [163,175,176]. Soil and aquatic dissipation studies may be used if needed to refine exposure quantification and evaluate the potential for environmental persistence of dsRNA.…”

RNAi for Western Corn Rootworm Management: Lessons Learned, Challenges, and Future Directions

“…These conservative estimates inform exposure levels of an organism, including detritivores and pollinators that feed directly on plant tissues. Plant dsRNA expression information can also estimate exposure to organisms in other environmental compartments, including soil and aquatic environments, using established models [163,175,176]. Soil and aquatic dissipation studies may be used if needed to refine exposure quantification and evaluate the potential for environmental persistence of dsRNA.…”

RNAi for Western Corn Rootworm Management: Lessons Learned, Challenges, and Future Directions

A latest review on the application of microcosm model in environmental research

New insights into transmission pathways and possible off-target effects of insecticidal dsRNA released by treated plants