Wireworm research update 2014 - PEI Potato · Wireworm research update 2014 Christine Noronha Crops and Livestock Research Centre Charlottetown , PEI Wireworm research update and

Wireworm research update 2014

Christine Noronha

Crops and Livestock Research Centre

Charlottetown , PEI

Wireworm research update and extension day, March 24, 2015

INSECTICIDE TRIALS

3

Seven insecticides with four replicates per insecticide, 2014

4

Removing Holes and scars

Method for Evaluating Tubers

If the tuber loses greater than

5% of its weight it is considered

unmarketable for the processing

industry

Figure 1: Mean number of blemishes (holes +scars) per tuber

following an in-furrow insecticide application at planting in

Russet Burbank potatoes. 2014

6

0

5

10

15

20

25

30

35

Check Thimet Capture Exp 1 Exp 2 Exp 3 Exp 4 Exp 5

Yie

ld m

t/h

a

Insecticides

Figure 2: Efficacy of 7 insecticides applied in-furrow on

marketable yield for the processing market in Russet Burbank

potatoes, 2014

1mt =22.05cwt

1mt =22.05cwt

Figure 3: Efficacy of 7 insecticides applied in-furrow on tuber yield

with no-damage in Russet Burbank potatoes, 2014

Figure 4: Efficacy of 7 insecticides applied in-furrow on

unmarketable yield for the processing market in Russet Burbank

potatoes, 2014

1mt =22.05cwt

9

Does the insecticide Capture kill

wireworms?

10

LABORATORY STUDIES

Treatments • Untreated Check

• Capture @ 200gai/ha

• Capture @ 300gai/ha

• Thimet @ 215 g/100 m row

• Mocap @ rate of 1.4

lb/1000ft row

Four replicates per

treatment

Figure 1: Percent mortality of wireworms exposed to

different insecticides

Figure 2: Percent wireworm mortality over time when

exposoed to different insecticides in the laboratory

Will wireworms move into soil

treated with Capture

13

14

Capture treated soil (300gai/ha)

Untreated soil

Untreated soil (Control)

Laboratory Insecticide Trials

Laboratory Insecticide Trials

Control

Capture treatment

Laboratory Insecticide Trials

Figure 1: Percent of wireworms moving into capture treated

soil towards a potato bait.

18

Farmer field trials

19

Figure 1. Mean number of blemishes (hole +scars) in tubers

grown

20

Figure 1: Mean number of blemishes (holes+scars) in tubers

following a fall planting of four different rotation crop.

21

POTATO VARIETRY TRIAL

22

Twenty varieties and six replicates per variety

23

Doing on Farm research

24

Figure 1. Mean number of holes per tuber in different potato

varieties grown without an insecticide application to protect against

wireworm damage.

25

Figure 2. Mean number of blemishes (holes+scars) in different potato

varieties grown without an insecticide application to protect against

wireworm damage

50

60

50

75

100

100

Insecticide A Insecticide B

40

80

30

25

35

40

30 20

50

60

50

75

100

100

Insecticide A Insecticide B

40

80

30

25

35

40

30 20

6 rows 30 rows

Insecticide A Insecticide B Check

12+ rows 12 + rows 12+ rows

29

Wireworm Research Across Canada Areas of research

1. Insecticide trials

2. Insecticide treated Wheat trials

3. Rotation Crops

4. Monitoring

5. Biological Control

6. Canadian Click Beetle Survey

Cluster project with the Canadian Horticulture Council

– funding is a combination of industry and matched by

AAFC - 2014-18.

0

1

2

3

4

5

ble

m/t

ub

er

Insecticide Efficacy Trials at PARC, Agassiz, 2013

Mean wireworm blemishes per market-sized tuber

Harvest 1 (100

DAP)

0

1

2

3

4

5

ble

m/t

ub

er

Harvest 2 (120

DAP)

Untr

eate

d

Thim

et 1

5G

Cap

t 30

0

Cap

t 200

Cap

t 100

Tit

an 1

2.5

EX

P 1

EX

P 2

EX

P 3

EX

P 4

EX

P 5

EX

P 6

EX

P 7

EX

P 8

EX

P 9

EX

P 1

0

EX

P 1

1

EX

P 1

2

EX

P 1

3

EX

P 1

4

Tit

an 6

.3 +

Cap

t 200

Wireworm Efficacy Trials (Agassiz: 2003-2013)

0

20

40

60

80

100

Blemishes Large wws Small wws

% o

f C

on

tro

l

Control Thimet 15G

(phorate)

Pyrinex 480EC

(chlorpyrifos)

Capture 2EC

(bifenthrin) (300g)

N = 13 N = 13 N = 9 N = 5

% o

f C

ontr

ol

Control Thimet 15G Pyrinex 480EC +

Titan ST (6.3g)

Capture 2EC (200g) +

Titan ST (6.3g)

N = 13 N = 13 N = 9 N = 4

0

20

40

60

80

100

Blemishes Large wws Small wws

Wireworm Efficacy Trials (Agassiz: 2003-2013)

Click Beetle BioControl

Most beetles attracted in as few as 6 hours!

Percent mortality of click beetles

(beetles become fatally infected in as little as 6 hours)

Pheromone granules improve the efficacy of

Metarhizium when targeting click beetles using a banded

application

(2 x 1014 conidia/ha) (2 x 1013 conidia/ha)

No pheromone granules in Metarhizium band With pheromone granules in Metarhizium band

Granules might also be used for Mating Disruption

? ? ?

?

Advantages of granular formulation

of click beetle pheromone

the majority of beetles are attracted to the pheromone granules

and become fatally infected in as little as 6 hours

farm-equipment friendly: both the pheromone and Metarhizium

granules

attracts beetles to a biological control

opens up the possibility for beetle mating disruption

dual ‘attract and kill’ / mating disruption

A Comprehensive Approach to the

Biological Control of Wireworms

includes:

-Reducing the input of new larvae from adults

-Reducing the larvae to sub-threshold levels

-Preventing wireworm build-up once a sub-threshold

level is achieved

-Achieving management with a minimal

environmental impact (soft on beneficials)

Comprehensive Wireworm Biocontrol

Year 1 rotation crop

Click beetle attract and kill Year 2 rotation crop

Click beetle attract and kill

Year 3 cropping year

Attract and kill / or broadcast Metarhizium

targeting the remaining wireworms

Contact information

christine.noronha@agr.gc.ca

Phone 902-370-1374