Abstract
The generalist entomopathogenic fungus, Metarhizium brunneum, has proved to have great potential as a versatile biological pest control agent. The gall midge Aphidoletes aphidimyza is a specialist predator that occurs naturally in Europe and has been successfully used for aphid suppression. However, the interaction between these two biological control organisms and how it may affect the biological control of aphids awaits further investigation. As part of the EU-supported project INBIOSOIL, this study was conducted in greenhouse conditions to assess the possible effects of combining both biological control agents. In a randomized complete block design, sweet corn (Zea mays var. saccharata) plants were grown in large pots filled with natural soil or natural soil inoculated with M. brunneum. At the third leaf stage, before being individually caged, plants were infested with Rhopalosiphum padi and A. aphidimyza pupae were introduced in the soil. Aphidoletes aphidimyza midge emergence, number of living midges and number of aphids were recorded daily. The presence of conidia in the soil and on leaves was assessed during the experiment. At the conclusion of the experiment, the number of live aphids and their developmental stage, consumed aphids, and A. aphidimyza eggs was assessed under stereomicroscope. This study’s findings showed that the presence of M. brunneum did not affect A. aphidimyza midge emergence. However, longevity was significantly affected. As the study progressed, significantly fewer predatory midges were found in cages treated with M. brunneum compared to untreated cages. Furthermore, by the end of the study, the number of predatory midges found in the Metarhizium-treated cages was four times lower than in the untreated cages. Both daily and final count of aphids were significantly affected by treatment. Aphidoletes aphidimyza applied alone suppressed the aphid population more effectively than M. brunneum applied alone. Additionally, the aphid population was most suppressed when both agents were combined, though the suppression was less than additive.
Highlights
Aphids (Hemiptera: Aphididae) are phloem-feeding insects that affect a variety of crops in agriculture including maize, sorghum, wheat and barley [1]
Significantly fewer predatory midges were found in cages treated with M. brunneum compared to untreated cages
The presence of M. brunneum was confirmed on the surface of 60% of printed leaves from plants grown in the fungal treated pots
Summary
Aphids (Hemiptera: Aphididae) are phloem-feeding insects that affect a variety of crops in agriculture including maize, sorghum, wheat and barley [1]. An extensive range of natural enemies, such as entomopathogenic fungi and aphidophagous predators, attacks the aphid community, and Insects 2017, 8, 44; doi:10.3390/insects8020044 www.mdpi.com/journal/insects. Insects 2017, 8, 44 interactions among these natural enemies can be expected [2]. Rhopalosiphum padi (L.) is one of the most important cereal pests in Denmark and Northern Europe; using biological control to suppress the aphid population could bring a decrease in pesticide use [3]. Several studies have demonstrated the ability of the entomopathogenic fungi from the genus. Metarhizium to suppress aphid populations [4,5,6]. Metarhizium has been found to cause mycoses in an important soil dwelling pest in maize, Diabrotica virgifera (Col., Chrysomelidae) [7], and it shows persistence in maize fields [8].
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