Sequestration and Transfer of Cry Entomotoxin to the Eggs of a Predaceous Ladybird Beetle.

Peter Schausberger,Débora P Paula,David A Andow,Lucas M Souza

doi:10.1371/journal.pone.0144895

Peter Schausberger, Débora P Paula + Show 2 more

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https://doi.org/10.1371/journal.pone.0144895

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Abstract

In the past 10 years, sequestration of Cry toxins and transfer to offspring has been indicated in three insect species in laboratory studies. This work directly demonstrates the sequestration and intergenerational transfer of Cry1F by the parents of the aphidophagous coccinellid predator, Harmonia axyridis, to its offspring. Recently emerged adults (10 individual couples/cage/treatment) were exposed during 20 days to aphids (100 Myzus persicae each day) that fed on a holidic diet containing 20 μg/mL Cry1F (and a control-group). Egg batches and neonate larvae were monitored daily, and counted and weighed for immunodetection of Cry1F by ELISA. At the end of the bioassay, the parents were weighed and analyzed by ELISA. Cry1F was detected in the offspring, both eggs and neonate larvae, of exposed H. axyridis adults. On average the neonate larvae had 60% of the Cry1F concentration of the eggs from the same egg batch. The Cry1F concentration in the adults was positively correlated with the concentration in their eggs. These three results provided independent evidence of transfer to offspring. No detrimental effects of Cry1F were observed on the age of first reproduction, total number of eggs laid per female, age-specific fecundity, egg development time, hatching rate, or fertility rate. The occurrence and generality of intergenerational transfer of Cry toxins should be investigated in the field to determine its potential ecological implications.

Highlights

Cry toxins have been broadly used for agricultural insect pest control in genetically modified (GM) plants [1]
The detection of Cry1F in the eggs and larvae of H. axyridis after several days of parental exposure to the toxin confirmed that the adults are able to sequester Cry1F from their prey and transfer it to their offspring
Fathers could have transferred toxin to offspring via the spermatophore, this was not evaluated. It is not known if all the eggs or neonates in an egg batch had Cry1F from the parents, as they were not analyzed individually

Summary

Introduction

Cry toxins have been broadly used for agricultural insect pest control in genetically modified (GM) plants [1] They are one of the most common biopesticides studied for potential environmental effects, the potential effects of GM plants on beneficial insects such as biological control agents [2,3]. The predator can generate new routes of exposure and intergenerational effects that are being overlooked, even though there are some reports of uptake, sequestration and intergenerational transfer of Cry toxins in non-target insect species [4,5,6]. Uptake is the absorption and incorporation of a chemical into a living organism [15], and has been demonstrated in six non-target species by the continued presence of a Cry toxin after exposure has stopped and gut contents eliminated [4,5,6,16]

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