Abstract
PurposeThe successful implementation of a plant protection product depends on its effectiveness against a target species and its safety for the environment. Risk assessment schemes have therefore been devised to facilitate classification and regulation. These guidelines, however, are directed towards chemical substances and are in many cases less suitable for the assessment of products employing microorganisms.MethodsIn this study, we developed a protocol for non-target testing of soil-applied entomopathogenic fungi for the biocontrol of insect pests. Using the predatory mite Gaeolaelaps (Hypoaspis) aculeifer as a non-target model organism, our protocol evaluates the lethal and sublethal effects of the fungus in recommended and ten-fold field concentrations.ResultsThe proposed protocol considers fungal biology when setting test duration, endpoints, and quality control measures. To assess its practicability, we performed a trial with Metarhizium brunneum ART2825 as a representative entomopathogenic fungus. The biocontrol agent was able to infect a susceptible host and reproduce, showing that potential hazards can be detected using our approach. No hazard was detected for the non-target species, with no statistically significant differences in 5-week survival and reproductive output between treated and untreated groups.ConclusionBased on our results, the protocol is deemed appropriate for the detection of non-target effects. Subject to further validation, our approach could thus provide the basis for standardized protocols for the evaluation of the environmental safety of biocontrol organisms.
Highlights
The environmental safety of chemical and microbial plant protection agents is of great importance (Brühl and Zaller 2019; Scheepmaker et al 2019)
We performed a trial with Metarhizium brunneum ART2825 as a representative entomopathogenic fungus
No hazard was detected for the non-target species, with no statistically significant differences in 5-week survival and reproductive output between treated and untreated groups
Summary
The environmental safety of chemical and microbial plant protection agents is of great importance (Brühl and Zaller 2019; Scheepmaker et al 2019). The goal of this study was to revise the existing protocols for chemical plant protection (Bakker et al 2003; OECD 2016a) using the predatory mite Gaeolaelaps (Hypoaspis) aculeifer (Laelapidae) to make them appropriate to the assessment of biocontrol agents based on EPF. G. aculeifer is classified as a relevant species for ecotoxicological testing (Huguier et al 2015) and is included in the regulatory scheme of the European Union for non-target testing (EC 2013). This arthropod species is frequently found in arable and grassland soils worldwide (Karg 1993), and its habitat puts it at a high risk of exposure to soil-applied plant protection products. In order to adapt the existing protocols to the specific characteristics of the fungal biology, we addressed (1) meaningful quality controls, (2) the test duration required, and (3) suitable endpoints
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