ABOUT THE SPEAKER
Shimon Steinberg - Entomologist
Shimon Steinberg's biotech lab researches ways to harness the natural benefits of insects on a massive scale.

Why you should listen

Shimon Steinberg is chief scientist at Bio-Bee, a world leader in mass production of the world's best natural, biological control agents: bugs. (Beneficial bugs are replacing the use of chemical sprays in greenhouse vegetables and open field crops, producing pesticide-free food and eliminating hazardous exposure of millions of workers in third world countries.) These insects are shipped worldwide, where they go to work protecting thousands of hectares of greenhouses and open fields, in vegetables, field crops, fruit trees, ornamental plants and more.

More profile about the speaker
Shimon Steinberg | Speaker | TED.com
TEDxTelAviv 2010

Shimon Steinberg: Natural pest control ... using bugs!

Filmed:
437,077 views

What's the difference between a pest and a bug? Shimon Steinberg makes the case for using good bugs to fight bad bugs, avoiding chemicals in our quest for perfect produce.
- Entomologist
Shimon Steinberg's biotech lab researches ways to harness the natural benefits of insects on a massive scale. Full bio

Double-click the English transcript below to play the video.

00:15
I'm a bug lover, myself --
0
0
2000
00:17
not from childhood, by the way,
1
2000
2000
00:19
but rather late.
2
4000
2000
00:21
When I bachelored,
3
6000
2000
00:23
majoring in zoology in Tel Aviv University,
4
8000
3000
00:26
I kind of fell in love with bugs.
5
11000
2000
00:28
And then, within zoology,
6
13000
2000
00:30
I took the course or the discipline of entomology,
7
15000
3000
00:33
the science of insects.
8
18000
3000
00:36
And then I thought, myself, how can I be practical
9
21000
3000
00:39
or help in the science of entomology?
10
24000
3000
00:42
And then I moved to the world of plant protection --
11
27000
3000
00:45
plant protection from insects,
12
30000
3000
00:48
from bad bugs.
13
33000
2000
00:50
And then within plant protection,
14
35000
2000
00:52
I came into the discipline
15
37000
2000
00:54
of biological pest control
16
39000
2000
00:56
which we actually define
17
41000
2000
00:58
as the use of living organisms
18
43000
3000
01:01
to reduce populations
19
46000
2000
01:03
of noxious plant pests.
20
48000
3000
01:06
So it's a whole discipline in plant protection
21
51000
3000
01:09
that's aiming at the reduction of chemicals.
22
54000
3000
01:13
And biological pest control, by the way,
23
58000
2000
01:15
or these good bugs that we are talking about,
24
60000
3000
01:18
they've existed in the world for thousands and thousands of years,
25
63000
3000
01:21
for a long, long time.
26
66000
2000
01:23
But only in the last 120 years
27
68000
3000
01:26
people started,
28
71000
3000
01:29
or people knew more and more how to exploit, or how to use,
29
74000
3000
01:32
this biological control phenomenon,
30
77000
3000
01:35
or in fact, natural control phenomenon,
31
80000
3000
01:38
to their own needs.
32
83000
3000
01:41
Because biological control phenomenon,
33
86000
2000
01:43
you can see it in your backyard.
34
88000
2000
01:45
Just take a magnifying glass. You see what I have here?
35
90000
2000
01:47
That's a magnifier times 10.
36
92000
2000
01:49
Yeah, times 10.
37
94000
2000
01:51
Just open it.
38
96000
2000
01:53
You just twist leaves, and you see a whole new world
39
98000
3000
01:56
of minute insects,
40
101000
2000
01:58
or little spiders of one millimeter, one and a half,
41
103000
3000
02:01
two millimeters long,
42
106000
2000
02:03
and you can distinguish between the good ones and the bad ones.
43
108000
3000
02:06
So this phenomenon of natural control
44
111000
2000
02:08
exists literally everywhere.
45
113000
2000
02:10
Here, in front of this building, I'm sure.
46
115000
2000
02:12
Just have a look at the plants.
47
117000
2000
02:14
So it's everywhere,
48
119000
2000
02:16
and we need to know how to exploit it.
49
121000
3000
02:19
Well let us go hand by hand
50
124000
2000
02:21
and browse through just a few examples.
51
126000
3000
02:24
What is a pest?
52
129000
2000
02:26
What damage [does] it actually inflict on the plant?
53
131000
3000
02:29
And what is the natural enemy,
54
134000
2000
02:31
the biologically controlled agent,
55
136000
2000
02:33
or the good bug, that we are talking about?
56
138000
2000
02:35
In general, I'm going to talk
57
140000
2000
02:37
about insects and spiders,
58
142000
3000
02:40
or mites, let us call them.
59
145000
3000
02:43
Insects, those six-legged organisms
60
148000
2000
02:45
and spiders or mites,
61
150000
2000
02:47
the eight-legged organisms.
62
152000
2000
02:49
Let's have a look at that.
63
154000
2000
02:51
Here is a pest, devastating pest, a spider mite,
64
156000
3000
02:54
because it does a lot of webbing like a spider.
65
159000
3000
02:57
You see the mother in between
66
162000
2000
02:59
and two daughters, probably on the left and right,
67
164000
2000
03:01
and a single egg on the right-hand side.
68
166000
3000
03:04
And then you see what kind of damage it can inflict.
69
169000
2000
03:06
On your right-hand side you can see a cucumber leaf,
70
171000
2000
03:08
and on the middle, cotton leaf,
71
173000
2000
03:10
and on the left a tomato leaf with these little stipplings.
72
175000
3000
03:13
They can literally turn from green to white
73
178000
3000
03:16
because of the sucking, piercing
74
181000
2000
03:18
mouthparts
75
183000
2000
03:20
of those spiders.
76
185000
2000
03:22
But here comes nature
77
187000
2000
03:24
that provides us with a good spider.
78
189000
2000
03:26
This is a predatory mite -- just as small as a spider mite, by the way,
79
191000
3000
03:29
one millimeter, two millimeters long, not more than that,
80
194000
3000
03:32
running quickly, hunting,
81
197000
3000
03:35
chasing the spider mites.
82
200000
2000
03:37
And here you can see this lady in action
83
202000
2000
03:39
on your left-hand side --
84
204000
2000
03:41
just pierces, sucks
85
206000
2000
03:43
the body fluids on the left-hand side of the pest mite.
86
208000
3000
03:46
And after five minutes, this is what you see:
87
211000
3000
03:49
just a typical dead corpse,
88
214000
2000
03:51
shriveled, sucked-out,
89
216000
2000
03:53
dead corpse of the spider mite,
90
218000
2000
03:55
and next to it, two satiated individuals
91
220000
2000
03:57
of predatory mites,
92
222000
2000
03:59
a mother on the left-hand side,
93
224000
2000
04:01
a young nymph on the right-hand side.
94
226000
2000
04:03
By the way, a meal for them for 24 hours
95
228000
3000
04:06
is about five individuals
96
231000
2000
04:08
of the spider mites, of the bad mites,
97
233000
3000
04:11
or 15 to 20 eggs
98
236000
2000
04:13
of the pest mites.
99
238000
2000
04:15
By the way, they are hungry always.
100
240000
3000
04:18
(Laughter)
101
243000
2000
04:20
And there is another example: aphids.
102
245000
2000
04:22
By the way, it's springtime now in Israel.
103
247000
2000
04:24
When temperature rises sharply,
104
249000
3000
04:27
you can see those bad ones, those aphids, all over the plants,
105
252000
3000
04:30
in your hibiscus, in your lantana,
106
255000
3000
04:33
in the young, fresh foliage
107
258000
2000
04:35
of the spring flush, so-called.
108
260000
2000
04:37
By the way, with aphids you have only females,
109
262000
2000
04:39
like Amazons.
110
264000
2000
04:41
Females giving rise to females giving rise to other females.
111
266000
3000
04:44
No males at all.
112
269000
2000
04:46
Parthenogenesis, [as it] was so called.
113
271000
2000
04:48
And they are very happy with that, apparently.
114
273000
3000
04:51
Here we can see the damage.
115
276000
2000
04:53
Those aphids secrete
116
278000
2000
04:55
some sticky, sugary liquid
117
280000
3000
04:58
called honeydew,
118
283000
2000
05:00
and this just globs
119
285000
2000
05:02
the upper parts of the plant.
120
287000
2000
05:04
Here you see a typical cucumber leaf
121
289000
2000
05:06
that turned actually from green to black
122
291000
2000
05:08
because of a black fungus, sooty mold,
123
293000
2000
05:10
which is covering it.
124
295000
2000
05:12
And here comes the salvation
125
297000
3000
05:15
through this parasitic wasp.
126
300000
3000
05:18
Here we are not talking about a predator.
127
303000
2000
05:20
Here we are talking a parasite --
128
305000
2000
05:22
not a two-legged parasite,
129
307000
2000
05:24
but an eight-legged parasite, of course.
130
309000
3000
05:27
This is a parasitic wasp,
131
312000
2000
05:29
again, two millimeters long, slender,
132
314000
2000
05:31
a very quick
133
316000
2000
05:33
and sharp flier.
134
318000
2000
05:35
And here you can see this parasite in action,
135
320000
2000
05:37
like in an acrobatic maneuver.
136
322000
3000
05:40
She stands vis-a-vis
137
325000
2000
05:42
in front of the victim at the right-hand side,
138
327000
2000
05:44
bending its abdomen
139
329000
2000
05:46
and inserting a single egg,
140
331000
2000
05:48
a single egg into the body fluids
141
333000
2000
05:50
of the aphid.
142
335000
2000
05:52
By the way, the aphid tries to escape.
143
337000
3000
05:55
She kicks and bites
144
340000
2000
05:57
and secretes different liquids,
145
342000
2000
05:59
but nothing will happen, in fact.
146
344000
2000
06:01
Only the egg of the parasite
147
346000
2000
06:03
will be inserted into the body fluids of the aphid.
148
348000
3000
06:06
And after a few days, depending upon temperature,
149
351000
3000
06:09
the egg will hatch
150
354000
2000
06:11
and the larva of this parasite
151
356000
2000
06:13
will eat the aphid from the inside.
152
358000
3000
06:16
This is all natural. This is all natural.
153
361000
3000
06:19
This is not fiction, nothing at all.
154
364000
2000
06:21
Again, in your backyard,
155
366000
2000
06:23
in your backyard.
156
368000
3000
06:26
But this is the end result.
157
371000
2000
06:28
This is the end result:
158
373000
2000
06:30
Mummies --
159
375000
2000
06:32
M-U-M-M-Y.
160
377000
2000
06:34
This is the visual result of a dead aphid
161
379000
3000
06:37
encompassing inside,
162
382000
2000
06:39
in fact, a developing parasitoid
163
384000
3000
06:42
that after a few minutes you see halfway out.
164
387000
3000
06:45
The birth is almost complete.
165
390000
2000
06:47
You can see, by the way, in different movies, etc.,
166
392000
3000
06:50
it takes just a few minutes.
167
395000
2000
06:52
And if this is a female, she'll immediately mate with a male
168
397000
3000
06:55
and off she goes because time is very short.
169
400000
3000
06:58
This female can live only three to four days,
170
403000
3000
07:01
and she needs to give rise
171
406000
2000
07:03
to around 400 eggs.
172
408000
2000
07:05
That means she has 400 bad aphids
173
410000
3000
07:08
to put her eggs
174
413000
2000
07:10
into their body fluids.
175
415000
2000
07:12
And this is of course not the end of it.
176
417000
2000
07:14
There is a whole wealth of other natural enemies
177
419000
2000
07:16
and this is just the last example.
178
421000
2000
07:18
Again, we'll start first with the pest:
179
423000
2000
07:20
the thrips.
180
425000
2000
07:22
By the way, all these weird names --
181
427000
2000
07:24
I didn't bother you with the Latin names of these creatures,
182
429000
3000
07:27
okay, just the popular names.
183
432000
2000
07:29
But this is a nice, slender,
184
434000
2000
07:31
very bad pest.
185
436000
2000
07:33
If you can see this, sweet peppers.
186
438000
2000
07:35
This is not just an exotic, ornamental sweet pepper.
187
440000
3000
07:38
This is a sweet pepper which is not consumable
188
443000
3000
07:41
because it is suffering from a viral disease
189
446000
3000
07:44
transmitted by those thrip adults.
190
449000
3000
07:47
And here comes the natural enemy,
191
452000
2000
07:49
minute pirate bug,
192
454000
2000
07:51
"minute" because it is rather small.
193
456000
3000
07:54
Here you can see the adult, black, and two young ones.
194
459000
3000
07:57
And again, in action.
195
462000
2000
07:59
This adult pierces the thrips,
196
464000
3000
08:02
sucking it within just several minutes,
197
467000
2000
08:04
just going to the other prey,
198
469000
2000
08:06
continuing all over the place.
199
471000
2000
08:08
And if we spread those minute pirate bugs, the good ones,
200
473000
4000
08:12
for example, in a sweet pepper plot,
201
477000
2000
08:14
they go to the flowers.
202
479000
3000
08:17
And look, this flower is flooded
203
482000
2000
08:19
with predatory bugs, with the good ones
204
484000
3000
08:22
after wiping out the bad ones, the thrips.
205
487000
3000
08:25
So this is a very positive situation, by the way.
206
490000
3000
08:28
No harm to the developing fruit. No harm to the fruit set.
207
493000
3000
08:31
Everything is just fine under these circumstances.
208
496000
3000
08:34
But again, the question is,
209
499000
2000
08:36
here you saw them on a one-to-one basis --
210
501000
2000
08:38
the pest, the natural enemy.
211
503000
3000
08:41
What we do is actually this.
212
506000
3000
08:44
In Northeast Israel,
213
509000
2000
08:46
in Kibbutz Sde Eliyahu,
214
511000
2000
08:48
there is a facility
215
513000
2000
08:50
that mass-produces those natural enemies.
216
515000
2000
08:52
In other words, what we do there,
217
517000
2000
08:54
we amplify,
218
519000
2000
08:56
we amplify the natural control,
219
521000
3000
08:59
or the biological control phenomenon.
220
524000
2000
09:01
And in 30,000 square meters
221
526000
3000
09:04
of state-of-the-art greenhouses,
222
529000
2000
09:06
there, we are mass-producing those predatory mites,
223
531000
3000
09:09
those minute pirate bugs,
224
534000
2000
09:11
those parasitic wasps, etc., etc.
225
536000
2000
09:13
Many different parts.
226
538000
2000
09:15
By the way, they have a very nice landscape --
227
540000
2000
09:17
you see the Jordanian Mountains on the one hand
228
542000
3000
09:20
and the Jordan Valley on the other hand,
229
545000
2000
09:22
and a good, mild winter
230
547000
2000
09:24
and a nice, hot summer,
231
549000
2000
09:26
which is an excellent condition
232
551000
2000
09:28
to mass-produce those creatures.
233
553000
2000
09:30
And by the way, mass-production --
234
555000
2000
09:32
it is not genetic manipulation.
235
557000
2000
09:34
There are no GMOs --
236
559000
2000
09:36
Genetically Modified Organisms -- whatsoever.
237
561000
2000
09:38
We take them from nature,
238
563000
2000
09:40
and the only thing that we do,
239
565000
2000
09:42
we give them the optimal conditions,
240
567000
2000
09:44
under the greenhouses or in the climate rooms,
241
569000
3000
09:47
in order to proliferate,
242
572000
2000
09:49
multiply and reproduce.
243
574000
2000
09:51
And that's what we get, in fact.
244
576000
2000
09:53
You see under a microscope.
245
578000
2000
09:55
You see in the upper left corner, you see a single predatory mite.
246
580000
3000
09:58
And this is the whole bunch of predatory mites.
247
583000
3000
10:01
You see this ampoule. You see this one.
248
586000
3000
10:04
I have one gram of those predatory mites.
249
589000
3000
10:07
One gram's 80,000 individuals,
250
592000
3000
10:10
80,000 individuals
251
595000
3000
10:13
are good enough
252
598000
2000
10:15
to control one acre, 4,000 square meters,
253
600000
3000
10:18
of a strawberry plot
254
603000
2000
10:20
against spider mites for the whole season
255
605000
3000
10:23
of almost one year.
256
608000
3000
10:26
And we can produce from this, believe you me,
257
611000
3000
10:29
several dozens of kilograms
258
614000
2000
10:31
on an annual basis.
259
616000
3000
10:34
So this is what I call
260
619000
2000
10:36
amplification of the phenomenon.
261
621000
2000
10:38
And no, we do not disrupt the balance.
262
623000
3000
10:41
On the contrary,
263
626000
2000
10:43
because we bring it to every cultural plot
264
628000
3000
10:46
where the balance was already disrupted
265
631000
2000
10:48
by the chemicals.
266
633000
2000
10:50
Here we come with those natural enemies
267
635000
2000
10:52
in order to reverse a little bit of the wheel
268
637000
3000
10:55
and to bring more natural balance
269
640000
2000
10:57
to the agricultural plot by reducing those chemicals.
270
642000
3000
11:00
That's the whole idea.
271
645000
2000
11:02
And what is the impact?
272
647000
2000
11:04
In this table, you can actually see what is an impact
273
649000
3000
11:07
of a successful biological control
274
652000
2000
11:09
by good bugs.
275
654000
2000
11:11
For example, in Israel,
276
656000
2000
11:13
where we employ
277
658000
2000
11:15
more than 1,000 hectares --
278
660000
3000
11:18
10,000 dunams in Israeli terms --
279
663000
2000
11:20
of biological pest controlling sweet pepper
280
665000
3000
11:23
under protection,
281
668000
2000
11:25
75 percent of the pesticides
282
670000
2000
11:27
were actually reduced.
283
672000
2000
11:29
And Israeli strawberries, even more --
284
674000
2000
11:31
80 percent of the pesticides,
285
676000
2000
11:33
especially those aimed against pest mites in strawberries.
286
678000
4000
11:37
So the impact is very strong.
287
682000
3000
11:40
And there goes the question,
288
685000
3000
11:43
especially if you ask growers, agriculturists:
289
688000
3000
11:46
Why biological control?
290
691000
2000
11:48
Why good bugs?
291
693000
2000
11:50
By the way, the number of answers you get
292
695000
2000
11:52
equals the number of people you ask.
293
697000
3000
11:56
But if we go, for example, to this place,
294
701000
2000
11:58
Southeast Israel,
295
703000
2000
12:00
the Arava area above the Great Rift Valley,
296
705000
3000
12:03
where the really top-notch --
297
708000
2000
12:05
the pearl of the Israeli agriculture
298
710000
2000
12:07
is located,
299
712000
2000
12:09
especially under greenhouse conditions, or under screenhouse conditions --
300
714000
3000
12:12
if you drive all the way to Eilat, you see this
301
717000
3000
12:15
just in the middle of the desert.
302
720000
2000
12:17
And if you zoom in,
303
722000
2000
12:19
you can definitely watch this,
304
724000
2000
12:21
grandparents with their grandchildren,
305
726000
2000
12:23
distributing the natural enemies, the good bugs,
306
728000
3000
12:26
instead of wearing special clothes
307
731000
2000
12:28
and gas masks and applying chemicals.
308
733000
3000
12:31
So safety, with respect to the application,
309
736000
3000
12:34
this is the number one answer that we get from growers,
310
739000
3000
12:37
why biological control.
311
742000
3000
12:40
Number two, many growers
312
745000
2000
12:42
are in fact petrified
313
747000
2000
12:44
from the idea of resistance,
314
749000
3000
12:47
that the pests will become resistant
315
752000
3000
12:50
to the chemicals,
316
755000
2000
12:52
just in our case that bacteria
317
757000
2000
12:54
becomes resistant to antibiotics.
318
759000
2000
12:56
It's the same, and it can happen very quickly.
319
761000
3000
13:00
Fortunately, in either biological control
320
765000
2000
13:02
or even natural control,
321
767000
2000
13:04
resistance is extremely rare.
322
769000
3000
13:07
It hardly happens.
323
772000
2000
13:09
Because this is evolution,
324
774000
2000
13:11
this is the natural ratio,
325
776000
2000
13:13
unlike resistance,
326
778000
2000
13:15
which happens in the case of chemicals.
327
780000
2000
13:17
And thirdly, public demand.
328
782000
3000
13:20
Public demand -- the more the public
329
785000
3000
13:23
demands the reduction of chemicals,
330
788000
2000
13:25
the more growers become aware of the fact
331
790000
3000
13:28
they should, wherever they can and wherever possible,
332
793000
3000
13:31
replace the chemical control
333
796000
2000
13:33
with biological control.
334
798000
2000
13:35
Even here, there is another grower,
335
800000
2000
13:37
you see, very interested in the bugs,
336
802000
2000
13:39
the bad ones and the good ones,
337
804000
2000
13:41
wearing this magnifier already on her head,
338
806000
2000
13:43
just walking safely
339
808000
2000
13:45
in her crop.
340
810000
2000
13:47
Finally, I want to get actually to my vision,
341
812000
3000
13:50
or in fact, to my dream.
342
815000
2000
13:52
Because, you see, this is the reality.
343
817000
2000
13:54
Have a look at the gap.
344
819000
2000
13:56
If we take the overall turnover
345
821000
2000
13:58
of the biocontrol industry worldwide,
346
823000
2000
14:00
it's 250 million dollars.
347
825000
3000
14:03
And look at the overall pesticide industry
348
828000
3000
14:06
in all the crops throughout the world.
349
831000
3000
14:09
I think it's times 100 or something like that.
350
834000
3000
14:12
Twenty-five billion.
351
837000
2000
14:14
So there is a huge gap to bridge.
352
839000
3000
14:17
So actually, how can we do it?
353
842000
2000
14:19
How can we bridge, or let's say, narrow, this gap
354
844000
3000
14:22
in the course of the years?
355
847000
2000
14:24
First of all, we need to find more robust,
356
849000
3000
14:27
good and reliable biological solutions,
357
852000
3000
14:30
more good bugs
358
855000
2000
14:32
that we can either mass-produce
359
857000
3000
14:35
or actually conserve in the field.
360
860000
3000
14:38
Secondly, to create even more
361
863000
2000
14:40
intensive and strict public demand
362
865000
2000
14:42
to reduction of chemicals
363
867000
2000
14:44
in the agricultural fresh produce.
364
869000
3000
14:47
And thirdly, also to increase awareness by the growers
365
872000
3000
14:50
to the potential of this industry.
366
875000
3000
14:53
And this gap really narrows.
367
878000
2000
14:55
Step by step, it does narrow.
368
880000
3000
14:59
So I think my last slide is:
369
884000
2000
15:01
All we are saying, we can actually sing it:
370
886000
3000
15:04
Give nature a chance.
371
889000
2000
15:06
So I'm saying it on behalf of all the biocontrol
372
891000
2000
15:08
petitioners and implementers,
373
893000
2000
15:10
in Israel and abroad,
374
895000
2000
15:12
really give nature a chance.
375
897000
2000
15:14
Thank you.
376
899000
2000
15:16
(Applause)
377
901000
2000

▲Back to top

ABOUT THE SPEAKER
Shimon Steinberg - Entomologist
Shimon Steinberg's biotech lab researches ways to harness the natural benefits of insects on a massive scale.

Why you should listen

Shimon Steinberg is chief scientist at Bio-Bee, a world leader in mass production of the world's best natural, biological control agents: bugs. (Beneficial bugs are replacing the use of chemical sprays in greenhouse vegetables and open field crops, producing pesticide-free food and eliminating hazardous exposure of millions of workers in third world countries.) These insects are shipped worldwide, where they go to work protecting thousands of hectares of greenhouses and open fields, in vegetables, field crops, fruit trees, ornamental plants and more.

More profile about the speaker
Shimon Steinberg | Speaker | TED.com

Data provided by TED.

This site was created in May 2015 and the last update was on January 12, 2020. It will no longer be updated.

We are currently creating a new site called "eng.lish.video" and would be grateful if you could access it.

If you have any questions or suggestions, please feel free to write comments in your language on the contact form.

Privacy Policy

Developer's Blog

Buy Me A Coffee