Julien Beuzelin Everglades Research and Education Center

Presentation on theme: "Julien Beuzelin Everglades Research and Education Center"— Presentation transcript:

1 Julien Beuzelin Everglades Research and Education Center
Vegetable and Specialty Crop Expo August 14, 2019 North Fort Myers, FL Sweet Corn Silk Flies Julien Beuzelin Everglades Research and Education Center

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5 Euxesta stigmatias

6 Euxesta eluta

7 Chaetopsis massyla

8 Eggs Adults Maggots Pupae (soil)

9 Cultural practices for silk fly management
Avoid late spring planting in problematic fields Avoid weedy fields and borders Avoid decaying crop residue, cull piles Consider prompt sweet corn crop residue destruction, flooding - Silk fly adults emerge from standing, harvested fields for >4-5 weeks - Max. emergence of >700 adults/sq. ft in a day Owens et al Fla. Entomol. 100:

10 1-quart plastic buckets
Silk fly-soil interaction laboratory studies 1-quart plastic buckets 20 E. eluta pupae / bucket

11 Silk fly-soil interaction laboratory studies
Buckets were individually placed into screen cages

12 Adult emergence as affected by the depth of pupae in organic soil
(1”) (2”) (3”) (4”) Linear mixed model (SAS PROC GLIMMIX): Bars with the same letter are not different (P > 0.05)

13 Adult emergence as affected by flooding in organic soil
ab bc c Linear mixed model (SAS PROC GLIMMIX): Bars with the same letter are not different (P > 0.05)

14 Insecticides for silk fly management
Sweet corn Insecticides for silk fly management Frequent pyrethroid applications between first silk and harvest (target adults) - zeta-cypermethrin (Mustang) has worked best - lambda-cyhalothrin (Warrior, Silencer, etc.) - beta-cyfluthrin (Baythroid), esfenvalerate (Asana) have been relatively less effective Consider ground applications, relatively high spray volumes, and surfactant use to increase coverage

15 Group 3 = Pyrethroid

16 Increase in susceptibility
Sweet corn Consider the addition of PBO PBO (piperonyl butoxide), a synergist to increases silk fly susceptibility to pyrethroids Increase in susceptibility E. stigmatias 187 60 3.1-fold E. eluta 23 14 1.7-fold C. massyla 48 7 6.5-fold LC50 is the insecticide concentration killing 50% of the population Owens et al J. Econ. Entomol. 109:

17 Consider the use of other insecticides

18 Consider the use of other insecticides

19 Silk fly insecticide efficacy, 2017
ab ab abc bc bc bc bc bc c c Bars with the same letter are not different (P > 0.05)

20 Corn silk fly management in Florida
Sweet corn Corn silk fly management in Florida Pyrethroid applications 3, 4, or 7 times / week between first silk and harvest are common - Management failures and load rejections occur Need to improve corn silk fly management with pyrethroids Can time of the day for an application have an effect on pyrethroid efficacy?

21 Effect of pyrethroid application timing
on silk fly injury and infestation levels Early AM, early PM, late PM, non-treated - 50’ by 50’ plots, 6 replications - 3 pyrethroid applications / week for 3 weeks - 10 GPA at 30 PSI

22 Effect of pyrethroid application timing on silk fly injury and infestation levels
Ear injury rating % ear area injured No. maggots /ear Early AM 2.4b 1.3b 4.5b Early PM 1.8bc 0.9b 3.3b Late PM 1.7c Non-treated 3.4a 5.8a 13.5a F 28.2 7.9 5.9 df 3, 15 P > F <0.001 0.002 0.007 50 ears / plot Means in a column followed by the same letter are not different (Tukey-Kramer adjustment, α = 0.05 )

23 Corn silk fly management in Florida
Sweet corn Corn silk fly management in Florida Scouting, no formal action threshold - Direct observations in the field - Decision based primarily on adult presence - 3 fly species considered equivalent Need for a more consistent sampling method allowing species identification - Adults are relatively small, highly mobile Can traps baited with synthetic lures be used to monitor silk fly adult populations?

24 Multilure traps for corn silk fly monitoring in sweet corn, 2018-2019

25 1,4 dimethoxy-benzene Ammonium acetate

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27 Euxesta stigmatias Euxesta eluta Chaetopsis massyla
Photos: Gaurav Goyal

28 Relationship between trap captures and corn silk fly observations, spring 2019
24 plots (60’ * 60’) established in a sweet corn field (480’ * 72 rows) at tassel push Each plot - 1 trap at the center - 4 yellow sticky cards (3’’ * 5’’), 15’ from trap - 2 plants adjacent to each sticky card (8 plants total) 7 samplings, every 3-4 days 4 pyrethroid applications within a week, between the 3rd and 5th samplings

29 Relationship between trap captures and sticky card observations (3 species)
Linear regression (SAS PROC REG): P < 0.001, R2 = 0.302

30 Relationship between trap captures and plant observations (3 species)
Linear regression (SAS PROC REG): P < 0.001, R2 = 0.313

31 Comparison of E. stigmatias observations
Insecticides Repeated measures ANOVA (SAS PROC GLIMMIX): Sampling method P < 0.001, Date P < 0.001, Sampling method * Date P < 0.001

32 Comparison of E. eluta observations
Insecticides Repeated measures ANOVA (SAS PROC GLIMMIX): Sampling method P < 0.001, Date P < 0.001, Sampling method * Date P < 0.001

33 Comparison of C. massyla observations
Insecticides Repeated measures ANOVA (SAS PROC GLIMMIX): Sampling method P < 0.001, Date P < 0.001, Sampling method * Date P < 0.001

34 Conclusions: Corn silk fly management
The development of alternatives to pyrethroids is a priority and needs to continue - Baits and biological insecticides - Non-registered conventional insecticides - Non-registered insect growth regulators Traps may assist with scouting. Further work is needed to better understand the relationship between trap captures and observations in the field.

35 Acknowledgments UF/IFAS and USDA Collaborators
Dak Seal, Sandy Allan, Gregg Nuessly Research assistants and farm crew Donna Larsen, Carolina Tieppo Camarozano, Annie Mills, Erik Roldán, Wilfrid Calvin, Amir Avila, Rob Ramirez, Leonard Fox, Adrian Alanis Crop consultants Glades Crop Care, Kevin Short Funding FDACS SCBGP grants , USDA NIFA Hatch project Agrochemical companies

36 Julien Beuzelin Sweet Corn Silk Flies
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