EFSA identifies risks to bees from neonicotinoids

EFSA scientists have identified a number of risks posed to bees by three neonicotinoid insecticides (attached). The Authority was asked by the European Commission to assess the risks associated with the use of clothianidin, imidacloprid and thiamethoxam as seed treatment or as granules, with particular regard to: their acute and chronic effects on bee colony survival and development; their effects on bee larvae and bee behaviour; and the risks posed by sub-lethal doses of the three substances. In some cases EFSA was unable to finalise the assessments due to shortcomings in the available data.The risk assessments focused on three main routes of exposure: exposure from residues in nectar and pollen in the flowers of treated plants; exposure from dust produced during the sowing of treated seeds or application of granules; and exposure from residues in guttation fluid produced by treated plants.

Where the risk assessments could be completed, EFSA, in cooperation with scientific experts from EU Member States, concluded the following for all three substances:
•Exposure from pollen and nectar. Only uses on crops not attractive to honey bees were considered acceptable.
•Exposure from dust. A risk to honey bees was indicated or could not be excluded, with some exceptions, such as use on sugar beet and crops planted in glasshouses, and for the use of some granules.
•Exposure from guttation. The only risk assessment that could be completed was for maize treated with thiamethoxam. In this case, field studies show an acute effect on honey bees exposed to the substance through guttation fluid.

EFSA’s conclusions contain tables listing all authorised uses for seed treatment and as granules of the three substances in the EU and indicating for each route of exposure: where a risk has been identified; where a low risk has been identified; or where an assessment could not be finalised because of a lack of data.

In reaching their conclusions, EFSA’s scientists evaluated data previously submitted for the approval of the active substances at EU level and in support of product authorisations at Member State level, as well as relevant literature and monitoring data. They also considered new developments in the assessment of risks to pollinators from plant protection products, in particular recommendations contained in the EFSA Scientific Opinion on the science behind the development of a guidance document on the risk assessment of plant protection products on bees, which was published in May 2012.

This opinion, published by EFSA’s Panel on Plant Protection Products and their Residues (PPR Panel), proposed a much more comprehensive risk assessment for bees and also introduced a higher level of scrutiny for interpretation of field studies. The proposed changes are aimed at improving the level of protection afforded to bees when assessing risks from pesticides.

Furthermore, as much of the data were generated before publication of the opinion, a number of shortcomings were identified. And, because the final guidance document for the risk assessment of plant protection products and bees is still under development, there is a high level of uncertainty in the latest evaluations.

All of these factors mean that EFSA’s scientists were unable to finalise risk assessments for some of the uses authorised in the EU, and identified a number of data gaps that would have to be filled to allow further evaluation of the potential risks to bees from clothianidin, imidacloprid and thiamethoxam. Finally, it is highlighted that limited information was available for pollinators other than honey bees; therefore the risk to these other pollinators should be further considered.

Source: EFSA Press Release, 16 January 2013
http://www.efsa.europa.eu/en/press/news/130116.htm?utm_source=homepage&u...

AnhangGröße
EFSA Imidacloprid.pdf737.89 KB
EFSA Clothianidin.pdf742.38 KB
EFSA Thiamethoxam.pdf830.51 KB

Buglife comments

In summary - http://www.efsa.europa.eu/en/press/news/130116.htm?utm_source=homepage&u...

A high acute risk to honey bees was identified from exposure via dust drift for the authorised uses in cereals and cotton (Imidacloprid & Thiamethoxam), maize and oilseed rape (Imidacloprid, Thiamethoxam and Clothianidin), cereals (Clothianidin) and sunflowers (Thiamethoxam- except for uses with the lowest application rate authorised in the EU). A high acute risk was also identified for exposure via residues in nectar and/or pollen for the authorised uses in cotton and sunflowers (Imidacloprid), oilseed rape (Imidacloprid and Clothianidin) and maize (Thiamethoxam).

Limited information was available for pollinators other than honey bees. The biology, behaviour and ecology of bumble bees and other pollinators differ from honey bees and therefore special consideration in a risk assessment is necessary. We have contacted Ladislav Miko from the EC to query what the next steps will be regarding the data gaps for wild pollinators.

Source: Vanessa Amaral-Rogers (Buglife), personal communication

THIAMETHOXAM: CRITICAL AREAS OF CONCERN

A high acute risk to honey bees was identified from exposure via dust drift for the authorised uses in cereals, cotton, oilseed rape (except for uses with the lowest application rate authorised in the EU), maize, and sunflowers (except for uses with the lowest application rate authorised in the EU). A high acute risk was also identified for exposure via guttation fluid for the authorised uses in maize.

CLOTHIANIDIN: CRITICAL AREAS OF CONCERN

A high acute risk to honey bees was identified from exposure via dust drift for the seed treatment uses in maize, oilseed rape and cereals. A high acute risk was also identified from exposure via residues in nectar and/or pollen for the uses in oilseed rape.

IMIDACLOPRID: CRITICAL AREAS OF CONCERN

A high acute risk to honey bees was identified from exposure via dust drift for the authorised uses in cereals, cotton, maize and oilseed rape. A high acute risk was also identified for exposure via residues in nectar and/or pollen for the authorised uses in cotton, oilseed rape and sunflowers.