Source: PURDUE UNIVERSITY submitted to NRP
ECOLOGY AND MANAGEMENT OF ARTHROPODS IN CORN
Sponsoring Institution
National Institute of Food and Agriculture
Project Status
COMPLETE
Funding Source
HATCH
Reporting Frequency
Annual
Accession No.
1009386
Grant No.
(N/A)
Cumulative Award Amt.
(N/A)
Proposal No.
(N/A)
Multistate No.
NC-_old246
Project Start Date
Mar 16, 2016
Project End Date
Sep 30, 2020
Grant Year
(N/A)
Program Code
[(N/A)]- (N/A)
Recipient Organization
PURDUE UNIVERSITY
(N/A)
WEST LAFAYETTE,IN 47907
Performing Department
Entomology
Non Technical Summary
Over 80 million acres of field corn (Zea mays) and 600,000 acres of sweet corn, worth about $65 billion and $1 billion respectively, are grown in the U.S. each year. The European corn borer (ECB) (Ostrinia nubilalis) and western corn rootworm (WCR) (Diabrotica virgifera virgifera) account for over $1 billion each in control costs and grain losses annually. Rootworms are particularly problematic because of their propensity to evolve resistance to management tactics, including crop rotation (Gray et al. 2009), insecticides (Meinke et al. 1998), and now Bt toxins (Gassmann et al. 2011, 2014).Since the commercial release of Bt transgenic corn against ECB in 1996 and against rootworms in 2004, a revolution in corn insect pest management has occurred. Seed companies continue to develop genetically-modified (GM) crops for pest protection. New GM corn hybrids have resistance to a broader range of lepidopteran pests, some have resistance to coleopteran pests, and most current GM hybrids have genes targeting both Lepidoptera and Coleoptera. This technology often eliminates the need to store and handle insecticides and it increases the efficiency of grower operations and pest control (Rice 2004, Sappington 2014). However, the development of resistance by WCR to some Bt toxins is threatening to reverse these gains. Keeping abreast of these changes with timely and relevant research over an area as large and diverse as the U.S. Corn Belt lends itself to a coordinated, committee approach.Bt corn acreage in the U.S. has increased from 8% in 1997 to 80% in 2014. At this level of adoption, the potential for resistance increases. Research conducted by this committee was used to develop models predicting the rates of resistance evolution and efficacy of refuge in preventing resistance. This led to the IRM approach that used a 20% independent refuge planting; however, as GM technology has evolved, so has IRM. Recently deployed GM corn hybrids use multiple genes that target ECB and WCR. The IRM plan for these hybrids requires a smaller refuge, and seed mixtures (Bt and non-BT) are now being deployed. The models supporting these IRM modifications were constructed using the best information available, but a number of assumptions had to be made. These assumptions must be tested and research conducted to move them from assumptions to quantified variables. Furthermore, information is needed on the economics of this evolving technology at the field, farm, and regional levels. Addressing these knowledge gaps forms the basis for several objectives of the project. The long-term goal of our research is to develop sustainable ways to manage the corn insect pest complex. This is a high regional priority, and in the context of demonstrating sustainable practices, it also is an important national priority.
Animal Health Component
80%
Research Effort Categories
Basic
20%
Applied
80%
Developmental
(N/A)
Classification

Knowledge Area (KA)Subject of Investigation (SOI)Field of Science (FOS)Percent
21115101130100%
Knowledge Area
211 - Insects, Mites, and Other Arthropods Affecting Plants;

Subject Of Investigation
1510 - Corn;

Field Of Science
1130 - Entomology and acarology;
Goals / Objectives
Investigate the relationship between pest management technologies and the agricultural environment.

1a. Assess the need, efficacy and pest management window of seed treatment insecticides, primarily neonicotinoids, to control secondary below-ground insect pests.

1b. Evaluate possible effects of insecticidal seed coatings on non-target beneficial insects. Investigate the ecology, biology, evolution, genetics, and behavior of corn arthropods.

2a. In cooperation with international community, develop genomics tools for key corn pests, including assembled and annotated genome and transcriptome sequences, genetic markers, and physical and QTL maps of important traits.

2b. Characterize races of corn pests, including ecology of races in sympatry.

2c. Assess effects of seed blend refuge in Bt corn on biology, development, and behavior of multiple lepidopteran pest species.

2d. Examine the potential role of microbial associates on important pest traits, including insecticide resistance, behaviors relevant to pest status, and insect-plant interactions.

2e. Characterize dispersal of adult WCR and lepidopteran pests, and assess its implications for IPM and for resistance development, spread, and mitigation. Develop and assess IPM and IRM systems for the arthropod complex in corn.

3a. Characterize and monitor for resistance of lepidopteran pests to Bt corn and conventional insecticides, and assess possible IRM and mitigation strategies.

3b. Characterize geographic extent and nature of resistance of Diabrotica spp. to Cry toxins, pyrethroids, and other insecticides, and develop appropriate IPM and IRM strategies for problem areas.

3c. Work toward improving an artificial diet for WCR rearing and more sensitive bioassays of toxins.

3d. Develop strategies to manage the ear-feeding pest complex and model implications for IRM and IPM.

3e. Develop Helicoverpa armigera early detection and mitigation network.

3f. Develop region-specific bioeconomic models to assess refuge and IPM strategies for managing lepidopteran and coleopteran pest resistance to Bt corn expressing stacked and pyramided toxins.

3g. Assess the extent to which limited farmer access to Bt corn varieties targeting only coleopteran or only lepidopteran pests affects the risk of resistance when the economic importance of each pest varies regionally. Employ diverse delivery methods to disseminate information related to sustainable management of corn arthropod pests.

4a. Establish an NC-205 video library website with permanent high quality versions of IPM videos for open online access and download to computer and portable electronic devices.

4b. Produce and deploy a comprehensive IPM system for cost-effective prevention, early detection, rapid diagnosis, and mitigation of new and emerging corn pests that links all stakeholders who have common interests in pest detection and management.

4c. Develop an array of IPM and IRM distance education workshops.

Project Methods
Krupke will be focused on these two objectives:Obj. 1. Investigate the relationship between pest management technologies and the agricultural environment. 1a. Assess the need, efficacy and pest management window of seed treatment insecticides, primarily neonicotinoids, to control secondary below-ground insect pests.IN will coordinate an effort to survey fields across the Corn Belt to quantify the population densities of key pests, and characterize the protection offered by neonicotinoid seed treatments by quantifying the levels of insecticide present in treated seeds and seedlings at various points throughout the season, using established LC-tandem mass spectrometry. The results will be used to determine the degree of overlap between populations of early season pests in the region and the window of efficacy afforded by neonicotinoid seed treatments.1b. Evaluate possible effects of insecticidal seed coatings on non-target beneficial insects.IN and PA will lead U.S. efforts to evaluate the effects of seed treatment upon a range of beneficial insects, including pollinators, important predators and species that are particularly charismatic and/or imperiled. Abundance and diversity studies of non-target insects using a combination of survey techniques will be conducted. Candidates for further study may be subjected to more detailed dose/response studies in laboratory settings that include estimates of sublethal effects.Obj. 3. Develop and assess IPM and IRM systems for the arthropod complex in corn. 3a. Characterize and monitor for resistance of lepidopteran pests to Bt corn and conventional insecticides, and assess possible IRM and mitigation strategies.NE and IA will coordinate target pest population collections from across Corn Belt and diagnostic bioassays will be conducted annually to assess susceptibility of target pest species (e.g. ECB and fall armyworm) using established methodology (Marcon et al. 1999, Marcon et al. 2000, Siegfried et al. 2007). Inheritance experiments will involve reciprocal crosses of resistant and susceptible parental populations to establish an F1 generation and dominance determined based on the response curve of the heterozygous individuals. Backcross of the F1 heterozygotes to one of the parental strains will be used to estimate the number of genetic factors that contribute to resistance. A variety of biochemical, molecular and genomic tools will be used to assess mechanisms of resistance (Coates et al. 2011, Crespo et al. 2011).3b. Characterize geographic extent and nature of resistance of Diabrotica spp. to Cry toxins, pyrethroids, and other insecticides, and develop appropriate IPM and IRM strategies for problem areas.IA, IL, MN, NE, and Ontario will conduct field visits to identify suspected cases of Bt resistance. Fields will be visited in response to concerns by farmers and crop consultants of possible resistance to Bt corn. A gene check will be used to confirm the type of Bt corn planted in the field, roots will be sampled to evaluate feeding injury, and a sample of WCR collected to generate eggs for bioassays. Single-plant bioassay, following Gassmann et al. 2014, along with other bioassay methods, such as Nowatzki et. al (2008), will be applied to measure the level of resistance to various Bt events. NE and KS will make field collections of WCR in areas with pyrethroid use histories and/or reduced pyrethroid efficacy. Both adult diagnostic and dose response topical assays with pyrethroid active ingredients will be conducted to determine relative susceptibility level and geographic distribution of resistance.

Progress 03/16/16 to 09/30/20

Outputs
Target Audience:Target audience includes field crop producers, consultants, ag-chem industry personnel, extension educators and other researchers. Changes/Problems:Covid-19 has been a hurdle, as it has for everyone/everywhere. Our analyses in lab are behind schedule due to restrictions on the number of people that may be in the room at one time. What opportunities for training and professional development has the project provided?Two graduate students, two undergraduate students. How have the results been disseminated to communities of interest?Several extension presentations were made throughout the reporting period by Krupke, graduate students and other Purdue Extension staff. This work was featured in crop management workshops (attendance ca. 1000 private applicators statewide) and also as part of individual county-level presentations (ie. PARP, private applicator recertification). What do you plan to do during the next reporting period to accomplish the goals? Nothing Reported

Impacts
What was accomplished under these goals? (1a and 1b) Investigate the relationship between pest management technologies and the agricultural environment. Initiated collaborative study with Dr. John Tooker (Penn State) to review the literature and publish a summary of the non-target effects of neonicotinoid seed treatments upon aquatic insects, previously this has not been described in North America. \ Objective 3: Develop and assess IPM and IRM systems for the arthropod complex in corn: continued work to quantify rates of movement and mating in Bt corn/refuge systems for western corn rootworms. 3f. Develop region-specific bioeconomic models to assess refuge and IPM strategies for managing lepidopteran and coleopteran pest resistance to Bt corn expressing stacked and pyramided toxins. Initiated a collaboration between multiple states to determine how/where Bt corn is most useful, in terms of likelihood of damage vs. cost of technology.

Publications


    Progress 10/01/18 to 09/30/19

    Outputs
    Target Audience:Target audience includes field crop producers, consultants, ag-chem industry personnel, extension educators and other researchers. Changes/Problems: Nothing Reported What opportunities for training and professional development has the project provided? Nothing Reported How have the results been disseminated to communities of interest?Several extension presentations were made throughout the reporting period by Krupke, graduate students and other Purdue Extension staff. This work was featured in crop management workshops (attendance ca. 1000 private applicators statewide) and also as part of individual county-level presentations (ie. PARP, private applicator recertification). What do you plan to do during the next reporting period to accomplish the goals?Initiated in January 2019, currently working on an analysis of Bt corn prices vs. use rates throughout the region, this will address the goal below: 3g. Assess the extent to which limited farmer access to Bt corn varieties targeting only coleopteran or only lepidopteran pests affects the risk of resistance when the economic importance of each pest varies regionally.

    Impacts
    What was accomplished under these goals? (1a and 1b) Investigate the relationship between pest management technologies and the agricultural environment. One publication during the reporting period addressed this goal. Alford and Krupke (in press) demonstrated that neonicotinoid seed treatments of corn move off the seed coating and into groundwater relatively rapidly, within weeks of planting. This work was extended to test how rapidly this water and pesticide is taken up by an aquatic plant, duckweed. Finally, the work tested whether the resulting contaminated duckweed was lethal to an insect herbivore, the duckweed aphid. 3d. Develop strategies to manage the ear-feeding pest complex and model implications for IRM and IPM. Publication by Smith et al. updated the range and spread of a key pest of corn in the region, the Western Bean Cutworm.

    Publications

    • Type: Journal Articles Status: Accepted Year Published: 2019 Citation: Smith, J.L., CD Difonzo, TS Baute, AP Michel, CH Krupke. 2019. Ecology and Management of the Western Bean Cutworm (Lepidoptera: Noctuidae) in Corn and Dry BeansRevision With Focus on the Great Lakes Region Journal of Integrated Pest Management, Vol. 10.
    • Type: Journal Articles Status: Awaiting Publication Year Published: 2020 Citation: Alford, A.*, and C.H. Krupke. Movement of the neonicotinoid seed treatment clothianidin into groundwater, aquatic plants, and insect herbivores. Environ. Sci, and Technol. Accepted, 10/2019.


    Progress 10/01/17 to 09/30/18

    Outputs
    Target Audience:Target audience includes field crop producers, consultants, ag-chem industry personnel, extension educators and other researchers. Changes/Problems: Nothing Reported What opportunities for training and professional development has the project provided?One student (Adam Alford), PhD 2018 and one post-doc (Sally Taylor) were instrumental in developing these products. Undergraduate summer labour is also essential and several of these students have continued on to graduate degrees in allied disciplines. How have the results been disseminated to communities of interest?Several extension presentations were made throughout the reporting period by Krupke, graduate students and other Purdue Extension staff. This work was featured in crop management workshops (attendance ca. 1000 private applicators statewide) and also as part of individual county-level presentations (ie. PARP, private applicator recertification). What do you plan to do during the next reporting period to accomplish the goals?At least one additional publication will surface in the coming months, addressing the time and rate at which neonicotinoids apply to corn leave the seed.

    Impacts
    What was accomplished under these goals? (1) Investigate the relationship between pest management technologies and the agricultural environment. Two publications during the reporting period addressed this goal. Hoverman et al. found that neonicotinoids applied to corn are consistently found in nearby waterways and this has implications for the aquatic organisms that live there, including unintended mortality. Krupke et al. (2017), a publication in the Journal of Applied Ecology, demonstrated that dusts originating from seed treatments applied to corn seeds move over a wide proportion of the environment, covering most of the state of Indiana. This means that non-target exposure of honey bees and other pollinators is likely and in some cases lethal. (2) Investigate the ecology, biology, evolution, genetics, and behavior of corn arthropods. 2e. Characterize dispersal of adult WCR and lepidopteran pests, and assess its implications for IPM and for resistance development, spread, and mitigation. Publication by Taylor and Krupke (2018) demonstrated that WCR in refuge/Bt environments tend to mate close to where they feed and that the current levels of refuge beetles produced in fields are likely insufficient to contribute towards delaying resistance significantly. (4) Employ diverse delivery methods to disseminate information related to sustainable management of corn arthropod pests. The video highlighted in the products section is meant to provide a jumping-off point for future work that reaches out to corn producers and pest managers in educating them about how and when to prevent resistance development.

    Publications

    • Type: Journal Articles Status: Published Year Published: 2017 Citation: Neonicotinoid seed treatments: limitations and compatibility with integrated pest management JF Tooker, MR Douglas, CH Krupke Agricultural & Environmental Letters 2 (1)
    • Type: Journal Articles Status: Published Year Published: 2018 Citation: Measuring rootworm refuge function: Diabrotica virgifera virgifera emergence and mating in seed blend and strip refuges for Bacillus thuringiensis (Bt) maize S Taylor, C Krupke Pest management science
    • Type: Journal Articles Status: Published Year Published: 2018 Citation: A Meta-analysis and Economic Evaluation of Neonicotinoid Seed Treatments and Other Prophylactic Insecticides in Indiana Maize From 20002015 With IPM Recommendations AM Alford, CH Krupke Journal of economic entomology 111 (2), 689-699
    • Type: Journal Articles Status: Published Year Published: 2017 Citation: Planting of neonicotinoid-treated maize poses risks for honey bees and other non-target organisms over a wide area without consistent crop yield benefit (vol 54, pg 1449, 2017) CH Krupke, JD Holland, EY Long, BD Eitzer JOURNAL OF APPLIED ECOLOGY 55 (3), 1565-1565


    Progress 10/01/16 to 09/30/17

    Outputs
    Target Audience:Target audience includes field crop producers, consultants, ag-chem industry personnel, extension educators and other researchers. Changes/Problems: Nothing Reported What opportunities for training and professional development has the project provided?A graduate student (Adam Alford) was instrumental in the work and publication of same. How have the results been disseminated to communities of interest?Several extension presentations were made throughout 2017 by Krupke, graduate students and other Purdue Extension staff. This work was featured in crop management workshops (attendance ca. 1000 private applicators statewide) and also as part of individual county-level presentations (ie. PARP, private applicator recertification) What do you plan to do during the next reporting period to accomplish the goals?At least 3 more journal articles are planned on these topics. Two are in review, one accepted pending revisions.

    Impacts
    What was accomplished under these goals? (1) Investigate the relationship between pest management technologies and the agricultural environment. 1a. Assess the need, efficacy and pest management window of seed treatment insecticides, primarily neonicotinoids, to control secondary below-ground insect pests. Publication with Adam Alford summarizes the pest management window for neonicotinoid seed treatments of corn. This will help producers to assess how much pest management protection they are buying with these seed treatments - the effective window appears to be less than 3 weeks after planting. 1b. Evaluate possible effects of insecticidal seed coatings on non-target beneficial insects. Characterized degree of spread of insecticidal dusts at corn planting, noting that while most apiairies will not receive direct deposition, the vast majority of foraging honeybees (ca. 94%) will come into contact with neonicotinoid residues during corn planting time. Employ diverse delivery methods to disseminate information related to sustainable management of corn arthropod pests. 4a. Establish an NC-205 video library website with permanent high quality versions of IPM videos for open online access and download to computer and portable electronic devices. Led development of a video that summarizes teh do's and don't's of Bt corn production and identifies how resistance is inevitable under the right conditions. The video can be viewed here: https://youtu.be/jJtaDeaOp0I

    Publications

    • Type: Journal Articles Status: Published Year Published: 2017 Citation: Krupke, C.H., Holland, J.D., Long, E.Y., and B.D. Eitzer. 2017. Planting of neonicotinoid-treated maize poses risks for non-target organisms over a wide area without consistent crop yield benefit. Accepted, pending minor revisions, J. Applied Ecology. DOI 10.1111/1365-2664.12924
    • Type: Journal Articles Status: Published Year Published: 2017 Citation: Alford, A. and C. Krupke. 2017. "Translocation of the neonicotinoid seed treatment clothianidin in maize". PLoSone https://doi.org/10.1371/journal.pone.0173836
    • Type: Journal Articles Status: Published Year Published: 2016 Citation: Smith, S., Taylor, S., and C.H. Krupke. 2016. Quantifying rates of random mating in western corn rootworm emerging from Cry3Bb1-expressing and refuge corn. Ent. experimentalis et applicata http://onlinelibrary.wiley.com/doi/10.1111/eea.12513/full


    Progress 03/16/16 to 09/30/16

    Outputs
    Target Audience:Target audience includes field crop producers, consultants, ag-chem industry personnel, extension educators and other researchers. Changes/Problems: Nothing Reported What opportunities for training and professional development has the project provided?Two post-doctoral scholars were instrumental in the work and publication of same. Two graduate students obtained MS degrees during the course of the work.. How have the results been disseminated to communities of interest?Several extension presentations were made throughout 2016 by Krupke, graduate students and other Purdue Extension staff. This work was featured in crop management workshops (attendance ca. 1000 private applicators statewide) and also as part of individual county-level presentations (ie. PARP, private applicator recertification). What do you plan to do during the next reporting period to accomplish the goals?At least 3 more journal articles should surface in 2017. All are currently in review.

    Impacts
    What was accomplished under these goals? (1) Investigate the relationship between pest management technologies and the agricultural environment. 1b. Evaluate possible effects of insecticidal seed coatings on non-target beneficial insects. Our publication in Nature Communications (Long and Krupke, 2016) revealed that neonicotinoids and other pesticides are present in the pollen of a wide range of weed and non-cultivated plants beyond the agricultural field. This poses a problem for the conservation of pollinators and other beneficial insects - most of this is new knowledge that can now be implemented while pollinator gardens and other similar conservation strategies are developed. (2) Investigate the ecology, biology, evolution, genetics, and behavior of corn arthropods. Publications on 2 pests - the western bean cutworm and the western corn rootworm - described new interactions that are relevant to these goals. In the first case, we quantified the likelihood that mycotoxin infection of corn ears will likely result from western bean cutworm feeding. This is a significant source of concern for growers, as it can result in dockage at grain elevators. Our message for producers as a result of this work is that they should prioritize management of the caterpilllar pest using thresholds and appropriate insecticidal sprays. In the case of the western corn rootworm, we found that mating in refuge/Bt environments is not often between Bt/refuge beetles. This casts doubt on current refuge plantings. The message for growers is that relying solely on refuges to prevent Bt resistance is unwise and that they are likely to need to supplement this approach by rotating technologies as much as possible.

    Publications

    • Type: Journal Articles Status: Accepted Year Published: 2016 Citation: Long, Elizabeth Y., and Christian H. Krupke. "Non-cultivated plants present a season-long route of pesticide exposure for honey bees." Nature communications 7 (2016).