Natural pest control ... using bugs!

0:00 - 0:02

I'm a bug lover, myself --
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not from childhood, by the way,
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but rather late.
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When I bachelored,
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majoring in zoology
at Tel Aviv University,
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I kind of fell in love with bugs.
0:13 - 0:15

And then, within zoology,
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I took the course
or the discipline of entomology,
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the science of insects.
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And then I thought to myself,
how can I be practical
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or help in the science of entomology?
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And then I moved to the world
of plant protection --
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plant protection from insects,
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from bad bugs.
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And then within plant protection,
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I came into the discipline
of biological pest control,
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which we actually define
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as the use of living organisms
0:46 - 0:51

to reduce populations
of noxious plant pests.
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So it's a whole discipline
in plant protection
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aimed at the reduction of chemicals.
0:58 - 1:00

And biological pest control, by the way,
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or these "good bugs"
that we are talking about,
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they've existed in the world
for thousands and thousands of years,
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for a long, long time.
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But only in the last 120 years,
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people started, or people
knew more and more
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how to exploit, or how to use,
this biological control phenomenon,
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or in fact, natural control phenomenon,
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for their own needs.
1:26 - 1:30

Because biological control phenomenon --
you can see it in your backyard.
1:30 - 1:33

Just take a magnifying glass.
You see what I have here?
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That's a magnifier, times 10.
1:37 - 1:40

You just open it, twist leaves,
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and you see a whole new world
of minute insects,
1:43 - 1:48

or little spiders of one millimeter,
one-and-a-half, two millimeters long,
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and you can distinguish
between the good ones and the bad ones.
1:51 - 1:56

So this phenomenon of natural control
exists literally everywhere.
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Here, in front of this building, I'm sure.
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Just have a look at the plants.
2:00 - 2:04

So it's everywhere,
and we need to know how to exploit it.
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Well, let's go hand by hand
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and browse through just a few examples.
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What is a pest?
2:11 - 2:14

What damage does it actually
inflict on the plant?
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And what is the natural enemy,
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the biological control agent,
or the "good bug"
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that we're talking about?
2:21 - 2:26

In general, I'm going to talk
about insects and spiders,
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or mites, let us call them.
2:28 - 2:31

Insects, those six-legged organisms
2:31 - 2:35

and spiders or mites,
the eight-legged organisms.
2:35 - 2:36

Let's have a look at that.
2:36 - 2:40

Here is a devastating pest, a spider mite,
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because it does a lot
of webbing, like a spider.
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You see the mother in between,
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and two daughters, probably,
on the left and right,
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and a single egg on the right-hand side.
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And then you see
what kind of damage it can inflict.
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On your right-hand side,
you can see a cucumber leaf,
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in the middle, a cotton leaf,
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and on the left, a tomato leaf
with these little stipplings.
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They can literally turn
from green to white,
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because of the sucking, piercing
mouth parts of those spiders.
3:08 - 3:11

But here comes nature,
that provides us with a good spider.
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This is a predatory mite --
just as small as a spider mite;
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one, two millimeters long,
not more than that --
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running quickly, hunting,
chasing the spider mites.
3:22 - 3:26

And here, you can see this lady
in action on your left-hand side --
3:26 - 3:32

just pierces, sucks the body fluids
on the left-hand side of the pest mite.
3:32 - 3:34

And after five minutes,
this is what you see:
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just a typical dead corpse --
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the shriveled, sucked-out,
dead corpse of the spider mite,
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and next to it, two satiated
individuals, predatory mites,
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a mother on the left-hand side,
a young nymph on the right-hand side.
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By the way, a meal for them for 24 hours,
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is about five of the spider mites,
of the bad mites,
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and-or 15 to 20 eggs of the pest mites.
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By the way, they are always hungry.
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(Laughter)
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And here is another example: aphids.
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It's springtime now in Israel.
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When temperatures rise sharply,
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you can see those bad ones,
those aphids, all over the plants --
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in your hibiscus, in your lantana,
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in the young, fresh foliage
of the so-called spring flush.
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By the way, with aphids you have
only females, like Amazons.
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Females giving rise to females,
giving rise to other females.
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No males at all.
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Parthenogenesis, as it's so called.
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And they're very happy
with that, apparently.
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(Laughter)
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Here we can see the damage.
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Those aphids secrete a sticky,
sugary liquid called honeydew,
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and this just clogs
the upper parts of the plant.
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Here you see a typical cucumber leaf
that turned from green to black
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because of a black fungus, sooty mold,
which is covering it.
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And here comes the salvation,
through this parasitic wasp.
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Here we are not talking about a predator.
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Here we are talking a parasite --
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not a two-legged parasite,
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but an eight-legged parasite, of course.
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This is a parasitic wasp,
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again, two millimeters long, slender,
a very quick and sharp flier.
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And here you can see
this parasite in action,
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like in an acrobatic maneuver.
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She stands vis-à-vis
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in front of the victim
at the right-hand side,
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bending its abdomen
and inserting a single egg
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into the body fluids of the aphid.
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By the way, the aphid tries to escape.
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She kicks and bites
and secretes different liquids,
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but nothing will happen, in fact --
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only the egg of the parasitoid
will be inserted
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into the body fluids of the aphid.
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And after a few days,
depending upon temperature,
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the egg will hatch
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and the larva of this parasite
will eat the aphid from the inside.
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(Laughter)
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This is all natural. This is all natural.
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This is not fiction, nothing at all.
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Again -- in your backyard.
In your backyard.
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(Laughter)
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(Applause)
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But this is the end result: mummies.
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This is the visual result
of a dead aphid encompassing inside,
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a developing parasitoid that,
after a few minutes, you see halfway out.
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The birth is almost complete.
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You can see, by the way,
in different movies, etc.,
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it takes just a few minutes.
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And if this is a female,
she'll immediately mate with a male
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and off she goes,
because time is very short.
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This female can live
only three to four days,
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and she needs to give rise
to around 400 eggs.
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That means she has 400 bad aphids
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to put her eggs into their body fluids.
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This is, of course, not the end of it.
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There is a whole wealth
of other natural enemies
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and this is just the last example.
7:03 - 7:06

Again, we'll start first with the pest:
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the thrips.
7:07 - 7:10

By the way, all these weird names --
7:10 - 7:13

I didn't bother you with the Latin
names of these creatures,
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just the popular names.
7:14 - 7:19

But this is a nice,
slender, very bad pest.
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If you can see this: sweet peppers.
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This is not just an exotic,
ornamental sweet pepper.
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This is a sweet pepper
which is not consumable
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because it is suffering
from a viral disease
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transmitted by those thrip adults.
7:33 - 7:36

And here comes the natural enemy,
minute pirate bug --
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"minute," because it is rather small.
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Here you can see the adult,
black, and two young ones.
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And again, in action.
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This adult pierces the thrips,
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sucking it within just several minutes,
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going to the other prey,
continuing all over the place.
7:53 - 7:57

And if we spread those minute
pirate bugs, the good ones,
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for example, in a sweet pepper plot,
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they go to the flowers.
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And look -- this flower is flooded
with predatory bugs, with the good ones,
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after wiping out the bad ones, the thrips.
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So this is a very positive situation.
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No harm to the developing fruit.
No harm to the fruit set.
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Everything is just fine
under these circumstances.
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But again, the question is,
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here you saw them on a one-to-one basis --
the pest, the natural enemy.
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What we do is actually this.
8:30 - 8:33

In Northeast Israel,
in Kibbutz Sde Eliyahu,
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there is a facility that mass-produces
those natural enemies.
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In other words, what we do there
is amplify the natural control,
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or the biological control phenomenon.
8:46 - 8:51

And in 30,000 square meters
of state-of-the-art greenhouses,
8:51 - 8:54

there, we are mass-producing
those predatory mites,
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those minute pirate bugs,
8:56 - 8:59

those parasitic wasps, etc.
8:59 - 9:00

Many different parts.
9:00 - 9:03

By the way, they have
a very nice landscape --
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you see the Jordanian Mountains
on the one hand,
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and the Jordan Valley on the other hand,
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and a good, mild winter
and a nice, hot summer,
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which is an excellent condition
to mass-produce those creatures.
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And by the way, mass-production --
it is not genetic manipulation.
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There are no GMOs -- genetically
modified organisms -- whatsoever.
9:24 - 9:25

We take them from nature,
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and the only thing that we do
is give them the optimal conditions,
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under the greenhouses
or in the climate rooms,
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in order to proliferate,
multiply and reproduce.
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And that's what we get.
9:38 - 9:40

You see under a microscope.
9:40 - 9:43

You see in the upper left corner?
You see a single predatory mite.
9:43 - 9:47

And this is the whole bunch
of predatory mites.
9:47 - 9:49

You see this ampul. You see this one.
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I have one gram of those predatory mites.
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One gram is 80,000 individuals.
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80,000 individuals are good enough
to control one acre,
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4,000 square meters,
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of a strawberry plot
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against spider mites for the whole season
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of almost one year.
10:11 - 10:15

And we can produce
from this, believe you me,
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several dozens of kilograms
on an annual basis.
10:19 - 10:23

So this is what I call
amplification of the phenomenon.
10:23 - 10:27

And no, we do not disrupt the balance.
10:27 - 10:28

On the contrary,
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because we bring it to every cultural plot
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where the balance was already disrupted
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by the chemicals.
10:35 - 10:37

Here we come with those natural enemies
10:37 - 10:40

in order to reverse
a little bit of the wheel
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and to bring more natural balance
to the agricultural plot
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by reducing those chemicals.
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That's the whole idea.
10:48 - 10:49

And what is the impact?
10:49 - 10:52

In this table, you can
actually see what is an impact
10:52 - 10:56

of a successful biological
control by good bugs.
10:57 - 11:03

For example, in Israel, where we employ
more than 1,000 hectares --
11:03 - 11:06

10,000 dunams in Israeli terms --
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of biological pests
controlling sweet pepper
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under protection,
11:10 - 11:14

75 percent of the pesticides
were actually reduced.
11:14 - 11:16

And Israeli strawberries, even more --
11:16 - 11:18

80 percent of the pesticides,
11:18 - 11:22

especially those aimed
against pest mites in strawberries.
11:23 - 11:25

So the impact is very strong.
11:26 - 11:28

And there goes the question,
11:28 - 11:31

especially if you ask
growers, agriculturists:
11:31 - 11:33

Why biological control?
11:33 - 11:35

Why good bugs?
11:35 - 11:37

By the way, the number of answers you get
11:37 - 11:40

equals the number of people you ask.
11:41 - 11:46

But if we go, for example,
to this place, Southeast Israel,
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the Arava area
above the Great Rift Valley,
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where the pearl of Israeli
agriculture is located,
11:54 - 11:58

especially under greenhouse conditions,
or under screenhouse conditions --
11:58 - 12:01

if you drive all the way
to Eilat, you see this
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just in the middle of the desert.
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And if you zoom in,
12:04 - 12:06

you can definitely watch this:
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grandparents with their grandchildren,
12:08 - 12:11

distributing the natural
enemies, the good bugs,
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instead of wearing special clothes
12:14 - 12:16

and gas masks and applying chemicals.
12:16 - 12:19

So safety, with respect
to the application,
12:19 - 12:23

is the number one answer
that we get from growers,
12:23 - 12:25

for "Why biological control?"
12:26 - 12:30

Number two, many growers
are, in fact, petrified
12:30 - 12:33

by the idea of resistance,
12:33 - 12:37

that the pests will become
resistant to the chemicals,
12:37 - 12:41

just like in our case, that bacteria
becomes resistant to antibiotics.
12:41 - 12:44

It's the same, and it can
happen very quickly.
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Fortunately, in either biological control
or even natural control,
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resistance is extremely rare.
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It hardly happens.
12:55 - 12:58

Because this is evolution,
this is the natural ratio,
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unlike resistance, which happens
in the case of chemicals.
13:02 - 13:05

And thirdly, public demand.
13:05 - 13:10

The more the public demands
the reduction of chemicals,
13:10 - 13:14

the more growers become aware of the fact
13:14 - 13:17

that they should, wherever they can
and wherever possible,
13:17 - 13:21

replace the chemical control
with biological control.
13:21 - 13:23

Even here, there is another grower,
13:23 - 13:27

you see, very interested in the bugs,
the bad ones and the good ones,
13:27 - 13:29

wearing this magnifier
already on her head,
13:29 - 13:31

just walking safely in her crop.
13:32 - 13:35

Finally, I want to get to my vision,
13:35 - 13:37

or, in fact, to my dream.
13:38 - 13:40

Because, you see, this is the reality.
13:40 - 13:41

Have a look at the gap.
13:41 - 13:43

If we take the overall turnover
13:43 - 13:46

of the biocontrol industry worldwide,
13:46 - 13:48

it's 250 million dollars.
13:49 - 13:52

And look at the overall pesticide industry
13:52 - 13:54

in all the crops throughout the world.
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I think it's times 100
or something like that.
13:57 - 13:59

Twenty-five billion.
13:59 - 14:01

So there is a huge gap to bridge.
14:02 - 14:04

So actually, how can we do it?
14:04 - 14:09

How can we bridge, or let's say,
narrow, this gap over the years?
14:09 - 14:13

First of all, we need to find more robust,
14:13 - 14:15

good and reliable biological solutions,
14:15 - 14:20

more good bugs that we can
either mass-produce
14:20 - 14:22

or actually conserve in the field.
14:23 - 14:28

Secondly, to create even more intensive
and strict public demand
14:28 - 14:31

for the reduction of chemicals
in agricultural fresh produce.
14:32 - 14:35

And thirdly, also to increase
awareness by the growers
14:35 - 14:38

to the potential of this industry.
14:38 - 14:41

And this gap really narrows.
14:41 - 14:43

Step by step, it does narrow.
14:45 - 14:47

So I think my last slide is:
14:47 - 14:49

All we are saying --
we can actually sing it --
14:49 - 14:51

Give nature a chance.
14:51 - 14:54

I'm saying it on behalf
of all the biocontrol practitioners
14:54 - 14:55

and implementers,
14:55 - 14:58

in Israel and abroad,
14:58 - 15:00

really give nature a chance.
15:00 - 15:01

Thank you.
15:01 - 15:03

(Applause)

Title:: Natural pest control ... using bugs!
Speaker:: Shimon Steinberg
Description:: At TEDxTelAviv, Shimon Steinberg looks at the difference between pests and bugs -- and makes the case for using good bugs to fight bad bugs, avoiding chemicals in our quest for perfect produce.

more » « less
Video Language:: English
Team:: closed TED
Project:: TEDTalks
Duration:: 15:03

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The English transcript was updated on 12/12/2016.

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Natural pest control ... using bugs!

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