SAES-422 Multistate Research Activity Accomplishments Report

Status: Approved

Basic Information

Participants

Chen, Senyu (chenx099@umn.edu) - University of Minnesota; Faghihi, Jamal (jamal@purdue.edu) - Purdue University; MacGuidwin, Ann (aem@plantpath.wisc.edu) - University of Wisconsin-Madison; Melakeberhan, Haddish (malakebe@anr.msu.edu) - Michigan State University; Pueppke, Steve (pueppke@anr.msu.edu) - Michigan State University; Schroeder, Nathan (nes@illinois.edu) - University of Illinois Urbana-Champaign; Tenuta, Albert crop disease specialist, OMAFRA Tylka, Greg (gltylka@iastate.edu) - Iowa State University; Welacky, Tom (tom.welacky@agr.gc.ca) - Agriculture & Agri-Food Canada Yan, Guiping (guiping.yan@ndsu.edu) - North Dakota State University

Accomplishments

  • Arkansas soybean producers can easily find the most resistant and highest yielding soybean variety for their location and disease situation by use of this web site http://www.arkansasvarietytesting.com/
  • Hundreds of soybean lines and cultivars were tested for resistance to multiple SCN populations in various locations. This information has been made publically available through both print and electronic distribution.
  • The distribution and virulence of SCN HG Types were assessed throughout the North Central Region. Recommendations were provided to growers based on these results. The information was valuable in breeding programs for developing new resistant cultivars.
  • Commercially available new products of seed treatments for the control of plant parasitic nematodes on soybean and corn were evaluated in a wide-range of environmental conditions. This information was released to the public through field demonstrations, extension talks and publications.
  • New sampling guideline were developed based on the surveys conducted in corn and mint fields. These guidelines will help in diagnosis and management of plant parasitic nematodes associated with these crops.

Impacts

  1. The evaluation data for soybean cultivars will be used by soybean growers to select cultivars for SCN management.
  2. The study of long-term crop sequence effect on nematodes and corn-soybean yields will increase understanding of the mechanisms of yield penalty caused by inadequate crop rotation in the corn-soybean production systems in the region.
  3. As a result of the survey, growers in North Dakota are able to assess their likelihood of SCN in existing in their growing region. Additionally, they are much more likely to sample for SCN proactively.
  4. The information for some soybean cultivars with resistance to SCN is included in an annual bulletin of soybean performance testing and is available to growers.
  5. Growers are able to make more informed decisions about nematicide seed treatments.
  6. Soil health studies provide quantitative and integrated data base that are critical to cropping systems decision-making and managing soil health to benefit growers and the environment.
  7. As a result of the survey, growers in in the North Central region are able to assess the likelihood of SCN existing in their growing region, and they are much more likely to sample for SCN proactively.
  8. Soybean growers in this region are able to make informed, science-based decisions about which varieties to plant in highly infested fields where SCN threatens to reduce yields.
  9. North Central growers are able to make unbiased, informed decisions about the purchase and use of seed treatments marketed for the management of SCN and corn-parasitic nematodes.
  10. Methods for assessing the threat of nematode losses in the Midwest are coordinated, leading to efficient use of funds and investigator time, and prompt delivery of information to growers.
  11. The soil health study provides quantitative and integrated data base that are critical to cropping systems decision-making and managing soil health to benefit growers and the environment.

Publications

 Journal Articles

  • Beeman, A.Q., C.J. Harbach, C.C. Marett, and G.L. Tylka. 2016. Soybean cyst nematode HG type test results differ among multiple samples collected from the same field but the management implications are the same. Plant Health Progress 17:160-161. doi: 10.1094 / PHP-BR-16-0033.
  • da Silva, M.P., G.L. Tylka, and G.P. Munkvold. 2016. Seed treatment effects on maize seedlings coinfected with Fusarium and Pratylenchus penetrans. Plant Dis. 100:431-437.
  • Kanobe, C., M.T. McCarville, M.E. O’Neal, G.L. Tylka, and G.C. MacIntosh. 2015. Soybean aphid infestation induces changes in fatty acid metabolism in soybean. PLoS ONE 10(12): e0145660. doi:10.1371/journal.pone.0145660.
  • Grabau, Z. J., and Chen, S. Y. 2016. Determining the role of plant-parasitic nematodes in the corn-soybean crop rotation yield effect using nematicide application: I. corn.  Agronomy Journal 108:782-793.
  • Grabau, Z. J., and Chen, S. Y. 2016. Determining the role of plant-parasitic nematodes in the corn-soybean crop rotation yield effect using nematicide application: II. soybean.  Agronomy Journal 108:1168-1179.King, C.,  December, 2015. Resisting Soybean Cyst Nematode - Bringing new sources of SCN resistance into soybeans. Top Crop Manager east. Vol. 41, No 16, pg. 5-7.
  • MacGuidwin, A. E., and B. E. Bender. 2016. Development of a damage function model for Pratylenchus penetrans on corn. Plant Disease 100:764-769
  • Melakeberhan H, W. Wang, A. Kravchenko, and  K. Thelen (2015). Effects of agronomic practices on the timeline of Heterodera glycines establishment in a new location. Nematology, 17:705-713. 
  • Nair, M.G., Seenivasan, N., Liu, Y., Feick, R.M., Maung, Z.T.A. and Melakeberhan, H. (2015). Leaf constituents of Curcuma spp. suppress Meloidogyne hapla and increase bacterial-feeding nematodes. Nematology, 17:353–361.
  • Potter, B., S. Chen, P. Glogoza, D. Malvick, and R. Miller .2016. A 2015 multi-site field study on the effects of seed treatment on soybean yield and soybean cyst nematode reproduction.  University of Miinnesota SWROC. Web/URL: https://swroc.cfans.umn.edu/sites/swroc.cfans.umn.edu/files/2015_statewide_clariva_cropnews_ed_penulimate_0.pdf.
  • Robbins, R. T., Pengyin Chen, Grover Shannon, Stella Kantartzi, Zenglu Li, Travis Faske, Jeff Velie, Larry Jackson, Edward Gbur, and Donald Dombek. 2016. Reniform Nematode Reproduction on Soybean Cultivars and Breeding Lines in 2015. Proceedings of the 2016 Beltwide Cotton Conferences, New Orleans, LA, January 5-7, Pg. 131-143.
  • Simon, A. C., T. L. Niblack, and P. A. Paul. 2015. Influence of cropping practices and soil characteristics on the presence and abundance of plant-parasitic nematodes in corn fields in Ohio. Phytopathology 105(Suppl. 4):S4.128.
  • Simon, A. C., T. L. Niblack, and P. A. Paul. 2015. Frequency and heterogeneity of plant-parasitic nematodes in corn fields in Ohio. Phytopathology 105(Suppl. 4):S4.128.
  • Tylka, G. L. 2016. Understanding soybean cyst nematode HG types and races. Plant Health Progress 17:149-151. doi:10.1094/PHP-PS-16-0615.
  • Welacky, T.W. 2015 Annual Report - Ontario Soybean Variety Trials. Ontario Soybean And Canola Committee. 12 pages. Soybean Co-coordinator. Producer and editor of  http://www.gosoy.ca that includes: Variety Information and Performance Profile (ViPP), performance graphs, % Protein and % Oil reports and tables of varietal responses to SCN and other important soybean diseases in Ontario.
  • Wise, K. J. Faghihi, V. R. Ferris. Effect of soybean cyst nematode resistant cultivars on HG type 2 populations of Heterodera glycines and sudden death syndrome in Indiana soybean. Crops, Forage & Turfgrass Management (in press).
  • Yan, G. P., Plaisance, A., Huang, D., Upadhaya, A., Gudmestad, N. C., and Handoo, Z. A. 2016. First report of the stubby root nematode Paratrichodorus allius on potato in North Dakota. Plant Disease 100: 1247 (http://dx.doi.org/10.1094/PDIS-11-15-1350-PDN).
  • Yan, G. P., Plaisance, A., Huang, D., Gudmestad, N. C., and Handoo, Z. A. 2016. First report of the root-lesion nematode Pratylenchus scribneri infecting potato in North Dakota. Plant Disease 100: 1023 (http://dx.doi.org/10.1094/PDIS-10-15-1227-PDN).
  • Yan, G. P., Khan, M., Huang, D., Lai, X., and Handoo, Z. A. 2016. First report of the stubby root nematode Paratrichodorus allius on sugar beet in Minnesota. Plant Disease 100: 1022. (http://dx.doi.org/10.1094/PDIS-10-15-1231-PDN).

 

Abstracts and conference proceedings

  • Byamukama, E., K. Acharya, and G.L. Tylka. 2015. Determining Heterodera glycines HG types to improve soybean cyst nematode management in South Dakota. Proceedings of the 2015 Phytopathology 105 (Suppl.) S4.22.
  • Beeman, A. and G.L. Tylka. 2015. Effects of ILeVO and VOTiVO seed treatments on hatching, motility and root penetration of the soybean cyst nematode. Proceedings of the 2015 Phytopathology 105 (Suppl.) S4.14
  • Clifton, E.H., E.W. Hodgson, G.L. Tylka, and A.J. Gassmann. 2015. Proceedings of the 2015 North Central Branch Meeting of the Entomological Society of America.
  • Grabau, Z.J., Noyes, D.C., Baas, D., Werling. B.P., Brainard, D.C., and H. Melakeberhan (2015). Allies and enemies: Nematodes and cover cropping in Michigan carrot production. Great Lakes Fruit, Vegetable, and Farm Market Expo. Grand Rapids, Michigan. Poster
  • Habteweld, A., D. Brainard, M. Ngouajio, S. Kravchenko, and H. Melakeberhan (2015). Integrating the concepts of fertilizer use efficiency (FUE) and nematode-based soil food web models for broader use in soil health management. 54th Annual Meeting of the Society of Nematologists. Journal of Nematology, 47:239-240.
  • Maung, Z.T.Z., S. Poindexter, J. Stewart, L. Hubbell, and H. Melakeberhan (2015). Effects of rotation and cover crops on nematode communities and soil health in different sugar beet production soils. 54th Annual Meeting of the Society of Nematologists. Journal of Nematology, 47:256.
  • Maung, Z.T.Z., S. Yildiz, J.W. Kimenju, C. Kwoseh, V. Saka, and H. Melakeberhan (2015). Soil health differences in three African Soil groups revealed by Nematode Community analysis. 54th Annual Meeting of the Society of Nematologists. Journal of Nematology 47: 255-256.
  • Simon, A. C. M., Niblack, T. L., Paul, P. A. 2014. A survey of plant-parasitic nematodes associated with corn (Zea mays) in Ohio. Phytopathology  104 (Suppl.) S4.110.
  • Tylka, G.L., C.C. Marett, A.E. Robertson, M. Serrano, and T.A. Mueller. 2015. Effects of Clariva seed treatment on soybean cyst nematode (Heterodera glycines) population densities and soybean yields in Iowa in 2014. Phytopathology 105 (Suppl.) S4.140.

 

Extension publications:

  • Faghihi, J. and V. R. Ferris. 2015. Sampling for Plant Parasitic Nematodes: Your Result is as Good as the Sample You Provide- Pest and crop Newsletter. https://extension.entm.purdue.edu/pestcrop/2015/issue1/.
  • Faghihi, J. and V. R. Ferris. 2015. Nematode updates- Corn Parasitic Nematodes - Pest and crop Newsletter. https://extension.entm.purdue.edu/pestcrop/2015/issue8/
  • Hodgson, E.W., Tylka, G.L., and A.J. Gassmann. 2016. Managing two soybean pests to optimize yield. Integrated Crop Management News. Paper 2327. http://lib.dr.iastate.edu/cropnews/2327
  • Markell, S., Yan, G. P., Nelson, B., Knudson, M., and Larson, C. 2015. Soybean cyst distribution in North Dakota. North Dakota State University Cooperative Extension Service - Crop and Pest Report. Issue 2: Pp 4-7.
  • MacGuidwin, A. E. 2015. Intercropping forage pearl millet with soybean to reduce the increase of root lesion nematodes. Proceedings of Wisconsin’s Annual Potato Meeting, 28:101-102.
  • MacGuidwin, A.E., VanHaren, R., LaPorte, L., Diercks, S., Diercks, A. 2015. Soil mapping for potato early dying. Proceedings of Wisconsin’s Annual Potato Meeting, 28:103-106.
  • MacGuidwin, A. E., and B. E. Bender. 2016. Predicting potato early dying in Wisconsin potato fields. Proceedings of Wisconsin’s Annual Potato Meeting, 29:51-52.
  • MacGuidwin, A. E., B. Bender, I. Saeed, R. VanHaren, L. LaPorte, and Coloma Farms. 2016. Soil mapping for variable rate fumigation. Proceedings of Wisconsin’s Annual Potato Meeting, 29:53-57
  • MacGuidwin, A.E., Kane, A., Gorsline, S. Predicting yield in fields with high damage potential from potato early dying. Proceedings of Wisconsin’s Annual Potato Meeting, 28:97-100
  • Nelson, B., Yan, G. P., Markell, S. G., and Pasche, J. S. 2015. Sample your soil for soybean cyst nematode! Northarvest BeanGrower Magazine. 21(3):28-29.
  • Pasche, J. S., Zitnick-Anderson, K., Pederson, S., and Yan, G. P. Survey of field pea root rot in North Dakota. The Pulse; The Official Publication of the Northern Pulse Growers Association. April, 2015 Feature Article.
  • Tylka, G.L. and M. P. Mullaney. 2015. Soybean cyst nematode-resistant soybeans for Iowa. Iowa State University Extension Publication PM 1649, 28 pp.
  • Tylka, G.L., G.D. Gebhart, C.C. Marett, and M.P. Mullaney. 2015. Evaluation of soybean varieties resistant to soybean cyst nematode in Iowa – 2015. Iowa State University Extension, publication IPM‑52, 32 pp.
  • Tylka, G.L. 2016. SCN resistance continues to pay twice in 2015. Integrated Crop Management News. Paper 2325. http://lib.dr.iastate.edu/cropnews/2325
  • Tylka, G.L., C. Marett, A. Robertson, M. Serrano-Porras, and T. Mueller. 2015. Field experiments show effects of Clariva™ seed treatment in 2014. Integrated Crop Management News. Paper 308. http://lib.dr.iastate.edu/cropnews/308
  • Tylka, G.L. 2015. How’s your SCN resistance holding up?. Integrated Crop Management News. Paper 458. http://lib.dr.iastate.edu/cropnews/458
  • Tylka, G.L. 2015. Enjoy the beautiful fall weather; go sampling for SCN. Integrated Crop Management News. Paper 1489. http://lib.dr.iastate.edu/cropnews/1489
  • Tylka, G.L. 2015. Record number of SCN-resistant soybean varieties available, more with Peking resistance. Integrated Crop Management News. Paper 1775. http://lib.dr.iastate.edu/cropnews/1775
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