Education is
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Daniel J. Boorstin
Daniel J. Boorstin
According
to the Peninsula Daily News, “State
agriculture officials will decide soon whether to propose spraying a biological
pesticide over 10,500 acres across seven sites in Western Washington to kill
leaf-eating gypsy moths. Washington and Oregon States will be doing a spray
program this year (2016). The proposed Washington sites are Kent, N.E. Tacoma,
Port of Tacoma, Fife, Milton, Vancouver, Port of Vancouver, Nisqually, Lacey,
Gig Harbor and Seattle’s Capitol Hill neighborhood. Washington would conduct
three aerial sprayings, seven to 10 days apart, in April. In Oregon, state
officials propose spraying in mid-April by helicopter over targeted areas of
Forest Park, north Portland and Hayden Island with three treatments.“
There
is much talk in my community about government aerial spraying for gypsy moth this
year. And there’s a lot of fear about aerial spraying of any kind, especially
in the beekeeping circles. We beekeepers have enough trouble with neighbors
spraying insecticides, combatting known and unknown bee diseases, raising
healthy bees with organic methods and winter die off. Now add the element of
overhead spraying…aargh! ENOUGH CHEMICALS ALREADY!!
But
wait…we’re talking about Bt here. What is it really?
According to Rodale’s All New Encyclopedia of Organic
Gardening (1992) “Microbial insecticides such as Bt and it’s varieties are
effective, slow acting pesticides with virtually no harmful side effects and
considered non-toxic to mammals.”
In Garden Insects (2004) Whitney Cranshaw writes “Bt is the best known bacterium…and is
commonly used as a microbial
insecticide. Several strains exist, each of which affects only certain types of
insects that ingest the bacteria or the toxic protein crystal it produces”.
On the subject of organic beekeeping, Ross Conrad is my go to guy for my
beekeeping questions. He is an author and organic beekeeper. For cases of
preventing wax moths in bee hive equipment, in his book “Natural Beekeeping”
(2007) he touched on the use of Bt for control of wax moth, a highly
destructive insect in bee hives. He
writes “Bt has been used safely by the
organic farming community for decades… is a bacterium that, when ingested by
certain insect larvae, will kill the host…it becomes toxic only when exposed to
the unique digestive environment found within the wax worm’s gut. There are no
harmful side effects like with chemical (synthetic) pesticides. Bt is sprayed directly onto the plant’s leaf.
The toxin is not produced until the pests eats a leaf upon which the Bt microbe
rests, it is safe and non-toxic to animals, humans, and beneficial insects, and
it may be used right up until harvest. Also used by organic beekeepers as a
safe alternative to moth balls for preventing wax moth infestations in empty
hive equipment.” In this case Bt can be sprayed on frames and hive bodies
that will be stored for later use. The presence of the bacterium will kill any
larvae that hatches and feeds on the wax.
Gypsy
moth, today’s subject, is a major pest known to defoliate millions of acres of
hardwood forests annually and perpetually defoliated trees means death. WSDA
claims gypsy moth control is often necessary to prevent damage in backyards and
many urban areas to help stop the spread into neighboring forested areas. Bacillus thuringiensis subspecies kurstaki (Btk) is the variety of
insecticide of choice for this insect. Btk is a natural soil born bacteria
which biodegrades in sunlight within
about 10 days, hence the multiple applications and it will likely be done at
night, minimizing exposure to people and animals and for sure honey bees who
don’t fly at night or eat leaves. What about the leaf cutter bees, our native
pollinators...they wrap their nests with leaves but they do not eat the leaves
so this poses no harm to them either. And I don’t see their activity in my
garden that early in the spring.
mindfully.org
writes “However, in their natural form, acute toxicity of commonly-used Bt
varieties is limited to caterpillars, mosquito larvae, and beetle larvae. Bt var. kurstaki which cause disease in moth
and butterfly caterpillars.”
Yes,
Btk would mean death to butterfly larvae too. However the spray applications
will be in April. I don’t know if our native butterflies breed in temps that
cold here in the Pacific Northwest, and those that migrate from warmer climates
to our south don’t arrive till June. I did some research on temperatures
necessary for butterfly breeding but couldn’t find a definitive answer. If you
know, please drop a line in the comments section. The cooperative extension in
Wisconsin suggests “If you are concerned
about your butterfly garden plants being sprayed (with Btk), place a tarp over
them the night before a spray is scheduled. Then, remove it after spraying is
completed.”
Part
of the controversy also lies in the fact that caterpillars, larvae and even
moths are a food source for birds. While the infected larvae won’t be harmful
to birds, the lack of their populations could represent a decline in a food
source for birds.
The
gypsy moths found in Washington and Oregon are two non-native species (European
and Asian) of insects that have the potential to devastate our forested lands.
They have been brought here inadvertently by international trade. In cases like
this we must pick the lesser of two evils and I think a timely and occasional
spray with an organic control as deemed necessary when populations show
sustained increase is prudent. Yes, you will find extreme cases of human
illness due to overexposure if you dig deep enough online but I think by and
large it’s a safe choice considering the other alternatives. The cases I found
were due to overexposure by splashing large quantities of the liquid on
themselves as opposed to a focused spray or drift. Naturally if you are highly
sensitive, it is suggested that you stay indoors during the spraying. Maps of proposed spray areas are published
online in states that I found using this method, but do keep in mind drift can
enlarge targeted areas.
My
personal opinion? I am not a chemist or a scientist. I’m an organic gardener
and beekeeper. I use integrated pest management (IPM) practices. I’m sick to
death of all the synthetic chemicals in the world and I use natural, organic
methods that include biological controls when I have an infestation that the
birds and other predators are not controlling. Bt is one biological control
that I have used many times. I’ve been using Bt to combat cabbage moth for
years. And I think I’m safe to say, most if not all organic farmers have been
using Bt to control leaf eating worms and larvae for eons. The way it works is
topically. The bacteria adheres to the outside of the leaf and when the larvae
eats the leaf it ingests the bacteria. Bt does not penetrate the leaf so will
not be effective on leaf miners. Nor is it effective on adult moths. The larvae
must be young. It does break down and does not stay of the leaf, so in the case
of my cabbage moths, who lay eggs all summer on all brassicas, I spray weekly,
in the evenings all summer.
The
method of Btk is proven effective and the least toxic available, so is prudent
and organically approved. After all, the
goal of organic farming is to use the least toxic method to control pests and
disease. Btk is far less toxic than the synthetic chemical choices out there.
In Bloom In
My Garden Today: crocus, Erysimum ‘Rysi Moon’, Heath (Erica carnea ‘springwood
white’), Sarcococca confusa, Hellebore, Galanthus elwesii (snowdrops), viola,
pansies
Author’s
photo of my bees
