It appears that this protocol is working well enough to seriously
suppress targeted mosquito populations. It is at least as effective
as a pesticide program that inevitably leaves gaps in coverage and
destroys no end of non targeted species.
In fact it is working well enough to be universally applied. The
present heat is motivated by the subclass of anti GM agitators who
have had ample success demonizing genetic modification and will not
quit over the bodies of millions of malaria victims.
This happens to be the one solution that is simply good enough. The
enemy will no go extinct so easy, but suppressed populations combined
with other standards of care means a huge lowering of disease
incidence. It is not yet perfect and that takes a magic bullet or
vaccine.
In the bigger picture, mosquito population suppression is to be
wished for along with certain other insects. In all these cases, the
predator population is unsuccessful in maintaining balance of any
kind.
Can
genetically modified mosquitoes prevent disease in the US?
By Martin Vennard
After a summer of record-high temperatures in the US in 2012,
health officials are still dealing with the repercussions of
mosquito-borne diseases. Could genetically-modified insects halt
their spread?
The year 2012 ended
with an ignoble distinction. According to the United States' Centers
for Disease Control and Prevention (CDCP), it was the worst year for
West Nile virus since 2003.
The CDCP says
record-high temperatures could well have helped the mosquitoes that
transmit the disease to thrive.
At the same time, new
outbreaks of dengue fever on the Mexican side of the Texas-Mexico
border had US officials worried that the virus would slowly spread
north.
And experts fear that
in 2013, it's only going to get worse.
A British company,
Oxitec, has come up with a plan to control the bugs and combat dengue
fever. Its scientists have designed genetically modified mosquitoes
that have one mission - to kill off the rest of their species.
But is the plan too
radical for its own good?
A growing problem
The World Health
Organization says dengue ranks as the most important mosquito-borne
viral disease in the world. In the last 50 years, incidence has
increased 30-fold.
It is now endemic in
Puerto Rico and in many popular tourist destinations in Latin America
and South East Asia.
West Nile virus was
first identified in Africa in the 1930s, before spreading out from
there and appearing in North America in 1999. It is now widely
established from Canada to Venezuela.
Climate change and globalisation could be major factors behind the
increase in mosquito-borne diseases in the US and elsewhere.
Walter Tabachnick,
director of the Florida Medical Entomology Laboratory at the
University of Florida, says warmer and wetter conditions can make it
easier for some mosquitoes to multiply and spread disease.
"Viruses
replicate more quickly in mosquitoes and are transmitted more easily
when average air temperatures rise and increased rainfall in normally
dry areas creates more water pools where mosquitoes can thrive,"
Mr Tabachnick adds.
At the same time, greater and faster movement of humans and cargo
allows more infected people and mosquitoes to come into contact with
previously unaffected populations and areas.
In the US the current
method of keeping mosquito populations under control is to spray
their larvae with pesticides.
This method is only
effective when the larvae can actually be found and reached by the
spray.
Unsprayed eggs can
survive for months before hatching. Meanwhile, resistance to the
pesticides among mosquitoes is rising.
Pest-control
authorities say spraying can therefore be highly labour intensive,
inefficient and expensive.
Enter Oxitec, and
their genetically modified mosquitoes.
'Suicide bombers'
These mosquitoes are
created by injecting mosquito eggs in the lab with a killer gene. It
produces a protein called tTA, which stops the mosquitoes' cells from
turning on other genes which are essential for the bugs to survive.
The resulting GM male
mosquitoes are then released into the wild to breed with non-GM
females, producing offspring genetically programmed to die well
before reproductive age.
The company says that
as the number of GM males introduced into an environment increases,
the lower the chances the non-GM males have of breeding with non-GM
females, until eventually the mosquito population can be effectively
eliminated.
Unintentional releases
Oxitec says it has done tests in Brazil, Malaysia and the
Cayman Islands, which show mosquito numbers can be greatly reduced in
a few months.
"You first
release a few thousand males to see if they will mate, then you move
to a control programme. In the Cayman Islands we released 3 million
over a few months over 16 hectares. We effectively brought the
overall mosquito population down by 80% in three months,"
Oxitec's CEO Haydn Parry told BBC World Service.
While only GM males
are intentionally released, critics point out and Oxitec acknowledges
that the release of a small number of GM females cannot be avoided.
The males are filtered out for release from the generally bigger
females, but some females slip through the net. It is only the female
mosquitoes which bite and spread disease.
However, Mr Parry says
the small number of GM females that do get released present no danger
even if they bite humans. "It's exactly the same as being bitten
by a wild one," he says. "The gene, or protein, that
prevents the next generation from surviving isn't toxic or allergenic
and isn't expressed by the saliva glands" and therefore is not
injected into humans when they are bitten.
Mila de Mier has
presented her petition to the federal authorities as well as the
governor of Florida
The released GM
mosquitoes can breed due to the presence in the lab of the antibiotic
tetracycline - which is used in agriculture and found in some meat -
which stops the protein from working.
Eric Hoffman, a
biotechnology campaigner for Friends of the Earth in the US, says
that if tetracycline is present in the wild the offspring of GM
mosquitoes could survive and breed.
Mr Parry says his
company's GM mosquitoes have been shown to be safe and that it would
not introduce them where tetracycline exists in the environment. "We
created this strain of mosquito more than 10 years ago now. You do a
lot of internal testing in labs in a contained environment even
before going to an outside environment," he says.
Coming to the US?
Oxitec wants to use
its technique on the Aedes aegypti mosquitoes in Key West to prevent
a recurrence of dengue fever in Florida. The state suffered its first
outbreaks of the disease in 75 years in 2009 and 2010 in Key West.
Oxitec has the backing of The Florida Keys Mosquito Control District,
which is in charge of mosquito control for the area.
However it has come up against opposition, in the form of a
petition started by local resident Mila de Mier and signed by nearly
120,000 people - more than four times Key West's permanent
population. It raises concerns about the effect the GM mosquitoes
will have on the local environment, animals and insects.
The Key West City
Commission has passed a non-binding resolution against the plan,
saying it wants to see further research, demonstrable and measurable
outcomes and federal approval before giving its backing.
The issue is now in
the hands of the federal Food and Drug Administration who have to
give their approval before the plan can go ahead.
It has set no date for
its decision. In the mean time, the problem of mosquito-born diseases
in the US continue.
WOW...Gotta protect the poor mosquito?
ReplyDeleteHow many people will needlessly suffer disease and death this year due to this attitude ?