In recent decades there has been a number of high-profile innovations in farming based on scientific research, most notably the use of chemical insecticides
and the genetic modification of crops. Without doubt these have led to some very positive outcomes. For example, researchers have been able to identify which pests cause problems for a particular plant and to create a means of destroying them. In some areas of the world this has transformed farmers’ ability
to grow food for their own consumption as well as to sell it to generate income. Equally, in recent years the ability to manipulate the genetic make-up of plants has made it possible to create strains of crops naturally resistant to pests and diseases. In fact, some of these new scientific developments are reducing the need for the innovations of the previous generation.
However, there can be serious drawbacks to these scientific developments in agriculture. For instance, it is now becoming clear that pesticides may be damaging beneficial organisms as well as pests. For example, it is widely agreed that the world’s bee population is being aff ected by chemicals; this means fewer plants are being pollinated, which aff ects food supplies. It is
possible, also, that a range of human diseases which are
becoming increasingly common, for example asthma, may be exacerbated by these chemicals. My own view is that it would be wrong to deny the
potential of science to improve agriculture – as it has done throughout history, from the development of the plough to the refinement of livestock breeding. However, we must be sure we understand as much as possible about the eff ects of innovations before it is too late to reverse any negative consequences.
In recent decades there has been a number of high-profile innovations in farming based on scientific research, most
notably
the
use
of chemical insecticides
and the genetic modification of crops. Without doubt these have led to
some
very
positive
outcomes.
For example
, researchers have been able to identify which pests cause problems for a particular plant and to create a means of destroying them. In
some
areas of the world this has transformed farmers’ ability
to grow food for their
own
consumption
as well
as to sell it to generate income.
Equally
, in recent years the ability to manipulate the genetic
make
-up of plants has made it possible to create strains of crops
naturally
resistant to pests and diseases. In fact,
some
of these new scientific developments are reducing the need for the innovations of the previous generation.
However
, there can be serious drawbacks to these scientific developments in agriculture.
For instance
, it is
now
becoming
clear
that pesticides may be damaging beneficial organisms
as well
as pests.
For example
, it is
widely
agreed
that the world’s bee population is being
aff ected
by chemicals; this means fewer plants are
being pollinated
, which
aff ects
food supplies. It is
possible,
also
, that a range of human diseases which are
becoming
increasingly
common,
for example
asthma, may
be exacerbated
by these chemicals. My
own
view is that it would be
wrong
to deny the
potential of science to
improve
agriculture
–
as it has done throughout history, from the development of the
plough
to the refinement of livestock breeding.
However
, we
must
be sure we understand as much as possible about
the eff
ects of innovations
before
it is too late to reverse any
negative
consequences.
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