Scientists Discover Another Cause of Bee Deaths, and it’s Really Bad News
November 16, 2013
So what is with all the dying bees?
Scientists have been trying to discover this for years. Meanwhile, bees
keep dropping like… well, you know. Is it mites? Pesticides? Cell phone
towers? What is really at the root? Turns out the real issue really
scary, because it is more complex and pervasive than thought.
Quartz reports:
Scientists had struggled to find the
trigger for so-called Colony Collapse Disorder (CCD) that has wiped out
an estimated 10 million beehives, worth $2 billion, over the past six
years. Suspects have included pesticides, disease-bearing parasites and poor nutrition. But in a first-of-its-kind study published today in the journal PLOS ONE, scientists at the University of Maryland and the US Department of Agriculture
have identified a witch’s brew of pesticides and fungicides
contaminating pollen that bees collect to feed their hives. The findings
break new ground on why large numbers of bees are dying though they do
not identify the specific cause of CCD, where an entire beehive dies at
once.
The researchers behind that study in PLOS ONE –
Jeffery S. Pettis, Elinor M. Lichtenberg, Michael Andree, Jennie
Stitzinger, Robyn Rose, Dennis vanEngelsdorp — collected pollen from
hives on the east coast, including cranberry and watermelon crops, and
fed it to healthy bees. Those bees had a serious decline in their
ability to resist a parasite that causes Colony Collapse Disorder. The
pollen they were fed had an average of nine different pesticides and
fungicides, though one sample of
pollen contained a deadly brew of 21 different chemicals. Further, the
researchers discovered that bees that ate pollen with fungicides were
three times more likely to be infected by the parasite.
The discovery means that fungicides,
thought harmless to bees, is actually a significant part of Colony
Collapse Disorder. And that likely means farmers need a whole new set of
regulations about how to use fungicides. While neonicotinoids have been
linked to mass bee deaths — the same type of chemical at the heart of
the massive bumble bee die off in Oregon –
this study opens up an entirely new finding that it is more than one
group of pesticides, but a combination of many chemicals, which makes
the problem far more complex.
And it is not just the types of
chemicals used that need to be considered, but also spraying practices.
The bees sampled by the authors foraged not from crops, but almost
exclusively from weeds and wildflowers, which means bees are more widely
exposed to pesticides than thought.
The authors write, “More attention must be paid to how honey bees
are exposed to pesticides outside of the field in which they are
placed. We detected 35 different pesticides in the sampled pollen, and
found high fungicide loads. The insecticides esfenvalerate and phosmet were at a concentration higher than their median lethal dose in at least one pollen sample. While fungicides are typically seen as fairly safe for honey bees,
we found an increased probability of Nosema infection in bees that
consumed pollen with a higher fungicide load. Our results highlight a
need for research on sub-lethal effects of fungicides and other
chemicals that bees placed in an agricultural setting are exposed to.”
While the overarching issue is simple — chemicals used on crops kill bees — the details
of the problem are increasingly more complex, including what can be
sprayed, where, how, and when to minimize the negative effects on bees
and other pollinators while still assisting in crop production. Right
now, scientists are still working on discovering the degree to which
bees are affected and by what. It will still likely be a long time
before solutions are uncovered and put into place. When economics come
into play, an outright halt in spraying anything at all anywhere is
simply impossible.
Quartz notes, “Bee populations are so
low in the US that it now takes 60% of the country’s surviving colonies
just to pollinate one California crop, almonds. And that’s not just a
west coast problem—California supplies 80% of the world’s almonds, a
market worth $4 billion.”
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