A New Method for in Situ Measurement of Bt-Maize Pollen Deposition on Host-Plant Leaves.

Frieder Hofmann,Steffi Ober,Rudolph Vögel,Ulrike Kuhn,Mathias Otto,Ulrich Schlechtriemen

doi:10.3390/insects2010012

Frieder Hofmann, Steffi Ober + Show 4 more

Open Access

https://doi.org/10.3390/insects2010012

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Journal: Insects	Publication Date: Feb 21, 2011
Citations: 23	License type: CC BY 3.0

Affiliation: OHB (Germany), Federal Agency for Nature Conservation

Abstract

Maize is wind pollinated and produces huge amounts of pollen. In consequence, the Cry toxins expressed in the pollen of Bt maize will be dispersed by wind in the surrounding vegetation leading to exposure of non-target organisms (NTO). NTO like lepidopteran larvae may be affected by the uptake of Bt-pollen deposited on their host plants. Although some information is available to estimate pollen deposition on host plants, recorded data are based on indirect measurements such as shaking or washing off pollen, or removing pollen with adhesive tapes. These methods often lack precision and they do not include the necessary information such as the spatial and temporal variation of pollen deposition on the leaves. Here, we present a new method for recording in situ the amount and the distribution of Bt-maize pollen deposited on host plant leaves. The method is based on the use of a mobile digital microscope (Dino-Lite Pro, including DinoCapture software), which can be used in combination with a notebook in the field. The method was evaluated during experiments in 2008 to 2010. Maize pollen could be correctly identified and pollen deposition as well as the spatial heterogeneity of maize pollen deposition was recorded on maize and different lepidopteran host plants (Centaurea scabiosa, Chenopodium album, Rumex spp., Succina pratensis and Urtica dioica) growing adjacent to maize fields.

Highlights

Insect resistance is one of the main traits introduced in genetically modified plants (GMP)worldwide and Bt plants account for approximately 15% or 22 million hectares of the total area cultivated with GMP [1]
We found that the method can be applied well in situ for identifying maize pollen
The presented method of in situ digital microscopy is especially suitable for the analysis of temporal and spatial variation of pollen on receptor surfaces such as plant leaves on a micro scale

Summary

Introduction

Insect resistance is one of the main traits introduced in genetically modified plants (GMP). Because the Bt proteins are usually expressed in all plant parts, pollen containing the protein will be dispersed by the wind into ecosystems adjacent to the field As this pollen is deposited on the vegetation it may cause exposure and possible toxic effects to non-target herbivores. The assessment of possible harmful effects of Bt proteins on non-target organisms (NTO) has a high priority in the environmental risk assessment (ERA). Such an assessment is mandatory as the cultivation of GMP is regulated. Even if pollen concentration and flow in the air are constant, pollen deposition on the leaves may vary between different host plants depending on the respective leaf conditions. Due to the importance of the maximum amount and the variability of pollen deposition on plant leaves for the risk assessment, special focus has been given to these aspects

Experimental Section

Results and Discussion

Conclusions