http://www.independent.co.uk/environment/nature/study-reveals-how-bees-reject-toxic-pesticides-2262451.html
Study reveals how bees reject
'toxic' pesticides
Tuesday,
5 April 2011
EPA
A honey bee on the flower of a cucumber plant
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ENLARGE
ENLARGE
Bees can detect pesticide residues in
the pollen they bring back to the hive and try to isolate it from the rest of
the colony, the American government's leading bee scientist revealed in London
They "entomb" the contaminated
pollen in cells which are sealed over, so they cannot be used for food, said Dr
Jeffrey Pettis, head of the Bee Research Laboratory of the US Department of
Agriculture.
Yet pesticides are not the only major
factor involved in the declining health of bees, Dr Pettis told MPs. He also
highlighted poor nutrition and disease, and how these interact. Great interest
has been shown in Dr Pettis's work on how a new generation of pesticides, the
neonicotinoids, which are increasingly used over enormous acreages of crops in
Britain and the US, and may be contributing to the worldwide decline in honey
bees by making them more susceptible to disease.
Dr Pettis has discovered that bees
infected with microscopic doses of imidacloprid, the best-selling neonicotinoid
made by the German agribusiness giant Bayer, are far more susceptible to
infection by the harmful nosema parasite.
Yet his study, which featured on the
front page of The Independent two months ago, remains unpublished two years
after it was completed.
In London
yesterday, Dr Pettis, who addressed the All-Party Parliamentary Group on
Science & Technology in Agriculture at Westminster
And he went on to stress how he felt
that, although pesticides were an important issue in bee health – for instance,
the recently-discovered case of bees "entombing"
pesticide-contaminated pollen – they were not "the dominant factor".
The context of his remarks is that a
growing number of beekeepers and environmentalists take the opposite view, and
feel that pesticides in general, and neonicotinoids in particular, may well be
the key reason for the alarming declines in pollinating insects being seen
around the world, with the worst examples being cases of the so-called
"colony collapse disorder" first recorded in the US.
The principal concern about
neonicotinoids is that they are "systemic" pesticides, which means
that they are taken up into every part of the plant treated with them,
including the pollen and nectar, so bees and other pollinating insects can
absorb them and carry them back to their hives or nests – even if they are not
the insecticide's target species.
But Dr Pettis said: "We can't just
point to any one single factor as being the dominant thing in the decline in
honey bee health. Of late, it seems that this has been the dominant issue, that
pesticides are driving everything in bee health.
"I think there's more of what I
call the 3-P principle – poor nutrition, pesticides and pathogens. Those three
things are interacting greatly. Nutrition is the foundation of good bee health,
and certainly there's some pesticide exposure going on, but it varies widely
over time and space. And the pathogens in my opinion are often acting
secondarily. But it's the interaction of these three [that matters]. You get
three of them lined up and surely you'll have bees in poor health. Even the
combination of any two could be problematic."
Asked if he thought a precautionary
approach – meaning perhaps a ban – should be taken with some of the new
pesticides, he said: "I'm not a regulatory person so I hate to speak to
'what should be done'. My own view is that pesticides are one of the issues
confronting pollinators, but not the driving issue."
Dr Pettis discovered the ability of bees
to sense the presence of pesticide in pollen, and to isolate it in the colony,
in a study with another leading US
bee researcher, Dennis van Engelsdorp, of Penn State University
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