SAES-422 Multistate Research Activity Accomplishments Report
Sections
Status: Approved
Basic Information
- Project No. and Title: W2008 : Biology and Management of Iris yellow spot virus (IYSV), Other Diseases, and Thrips in Onions (from W1008)
- Period Covered: 10/01/2016 to 09/30/2017
- Date of Report: 01/02/2018
- Annual Meeting Dates: 12/04/2017 to 09/30/2017
Participants
Beth Gugino The Pennsylvania State University bkgugino@psu.edu Tim Waters Washington State University twaters@wsu.edu Steven Beer Cornell svb1@cornell.edu Rick Jones Seminis Vegetable Seed rick.jones@monsanto.com Jeremiah Dung Oregon State University Jeremiah.dung@oregonstate.edu Claudia Nischwitz Utah State University claudia.nischwitz@usu.edu Kerrick Bauman L & L Ag Production kerrick@llfarms.com Filippo Rimi Crookham Company filippor@crookham.com David Whitwood Crookham Company davew@cookham.com Steve Loring New Mexico State University (AA) sloring@nmsu.edu Manzeal Khanal Texas A&M University manzeal.khanal@ag.tamu.edu Megan Lewien Bayer-Nunhems Vegetable Seed megan.lewien@bayer.com Katie Goldenhar Syngenta Canada katie.goldenhar@syngenta.com Beth Brisco Michigan State University briscoel@msu.edu Ben Werling Michigan State University werlingb@msu.edu Kristin Oomen Bejo Seeds, Inc. k.oomen@bejoseeds.com Alex Putman UC Riverside aiputman@ucr.edu Subas Malla Texas A&M University subas.malla@ag.tamu.edu Travis Cranmer OMAFRA travis.cranmer@ontario.ca Bhabesh Dutta University of Georgia bhabesh@uga.edu Robert T. Sakata Sakata Farms rtsakata@aol.com Joe LaForest Southern IPM Center laforest@uga.edu Christy Hoepting Cornell Cooperative Extension cah59@cornell.edu Brian Nault Cornell University ban6@cornell.edu Ashley Leach Cornell University al2282@cornell.edu Chris Cramer New Mexico State University cscramer@nmsu.edu Mark Uchanski Colorado State University mark.uchanski@colostate.edu Lindsey du Toit Washington State University dutoit@wsu.edu David Brink Brink Muck Farms brinkmuchfarms@att.net Kevin Vander Kooi University of Guelph kvander@uoguelph.ca Zach Telfer University of Guelph ztelfer@uoguelph.ca Glenn Vogel Vogel Produce, Inc. vogelproduce@netmail.com Scott Vogel Vogel Produce, Inc. scottvogel@gmail.com
Chair Lindsey du Toit called the meeting to order at 8:30 am.
Special thanks to our meeting sponsors: Robert Sakata, Rick Jones representing Seminis/Monsanto, Kristin Oomen representing Bejo Seeds, Wayne Mininger representing the National Onion Association, Dave Whitworth representing Crookham Seed Co., Megan Lewien and Juan Carlos Brevis representing Nunhems/Bayer, Dave Brink of Brink Muck Farms in Grant, MI, and Steve Loring, NMSU.
Update from Steve Loring, Administrative Advisor:
- This is a joint meeting that represents the conclusion of the W-2008 project, which ended in September 2017, and the start of the new project, W-3008.
- The termination report for W-2008 is due this year with a particular emphasis on impacts. Frame the impacts around their importance to the onion industry. These are used to justify continued funding. Steve shared handouts about what makes a good impact statement (see attachments).
- Steve is looking for good photographs that can be included in the report. We will likely be chosen for a national impact statement – Steve said “Help me tell your story”.
- Nomination for multistate award of excellence – 1st step is review by the regional associations and then 2nd step is being put forward for the national award. Steve was encouraged to nominate our project again this year. The 3-page nomination form emphasizes outputs, outcomes and impacts; added value and synergistic activities – how working together and with industry has benefited the project; leveraged funding – include specific examples – What have we done, what is the impact and how have we leveraged funding. The nominations are due to the western regional association by Feb 28th.
- We have 30 days from this meeting to get the termination report submitted.
Other notes: Onionbusiness.com has a newsletter that might be of interest to this group. A writeup of this meeting will be by Kerrick Bauman shortly after this meeting.
Organizational and Planning Items
Onion research & extension needs, proposals (USDA SCRI, others)
- Pappu et al. are proceeding with a USDA NIFA SCRI proposal – this is their 3rd submission attempt – Objectives include of onion thrips, IYSV and white rot management
- du Toit et al. are preparing a USDA NIFA SCRI proposal with a focus on bacterial diseases. The pre-proposal was submitted the week of this meeting.
Alliumnet website – Joe LaForest and Bhabesh Dutta (want to launch at beginning of 2018)
- Southern IPM center has a focused on technology in the southern regions; however, the center will support national efforts when possible.
- Southern IPM center will pick up the support and customization of the Alliumnet website but the site must have a purpose and/or well-articulated objectives.
- com is the old site; http://alliumnet.bugwoodcloud.org is the new site – provides a list research and extension specialists working on pests and diseases; focuses on collaboration among research, extension and industry; this is not currently a venue for growers to find management information.
- Project information will be pulled directly from the NIMSS site for the W-3008.
- What’s changing as a result of support from Southern IPM Center:
- Site is not a content management network – multiple people can add content using a web browser
- Site navigation – focus on Projects, meetings, resources
- Mobile tablet and desktop responsive
- Google analytics added
- Again it will have information obtained from the NIMISS and PMSP/CP websites
- Questions
- Who is the current audience? Are the message and purpose acceptable? Changes needed?
- Who needs/wants access to edit?
- Call for content
- 2012/2010 NARC Proceedings are missing
- 2018 NARC information
- Old WERA 1008/W-2008 information could be added, including minutes of the annual meetings
- Suggestions? Please contact Bhabesh and Joe with ideas/recommendations.
Election of new officers, future annual meeting locations, dates, etc.
- Nomination for Secretary – Bhabesh Dutta was nominated last year and agreed to be Secretary elect. He confirmed his willingness to serve as the next secretary so the membership voted and he was approved as the 2018 Secretary.
- W-3008 meeting in 2018
- We could combine this meeting with one of the NOA meetings in 2018: July 18 to 21 in Bakerfield, CA or Nov 28-Dec 2 in Hawaii? The group decided against the latter option due to cost, and the former option because it’s too soon after this meeting.
- The 2018 W-3008 meeting will be held in conjunction with the Pacific Northwest Vegetable Association Annual Convention & Trade Show the week before Thanksgiving (Nov. 14-15) in Pasco or Kennewick, WA – our W-3008 meeting will be on Tues., Nov. 13th, before the PNVA conference. Some of the meeting participants can then be invited to speak in the onion and other vegetable sessions at the PNVA meeting, similar to many attendees of this year’s W-3008 meeting speaking at the Great Lakes Expo.
- The 2019 meeting will be held in conjunction with the International Allium meeting in Madison, WI in July.
2018 officers:
Chair: Christy Hoepting, Cornell University (responsible for chairing the 2018 W-3008 Annual Meeting)
Vice-Chair: Beth Gugino, Pennsylvania State University (responsible for writing/submitting the 2018 annual project report)
Secretary: Bhabesh Dutta, University of Georgia (responsible for writing/submitting the 2018 annual meeting minutes)
Past-Chair: Lindsey du Toit, Washington State University
Lindsey du Toit adjourned the meeting at 5:00 pm.
Accomplishments
California – Bob Ehn (unable to attend)
- Bob Ehn shared that downy mildew was the main problem in southern CA along with some bacterial issues this past winter.
Colorado - Mark Uchanski (Colorado State University)
- Also presenting on behalf of Mike Bartolo and Thad Gourd
- They are evaluating chemistries for control of Xanthomonas leaf blight and other bacterial issues in Colorado using copper compounds, Tanos and Fontelis.
- Onion variety trial with 42 cultivars evaluated – trials are currently in storage for evaluation.
- 2017 Field conditions – more precipitation than usual; large hail storm on 10 August caused significant damage and resulted in field culls and few storable onions.
- Management strategies for IYSV: Managing potassium fertilizer – Does higher soil K mean more IYSV (iris yellow spot virus) symptom expression – observing increased symptomology under higher potassium in the field trial.
- In a field trial they applied and incorporated high rates of potassium but did not see a significant effect of this treatment on yield
- 2016 IYSV incidence: ELISA vs. visual symptoms of iris yellow spot (IYS) correlated well. Observed some relationship between soil K level and IYSV; however, in 2017 IYS was very limited in occurrence – not sure why there has been a trend towards lower incidence in the field. In an attempt to increase disease pressure, they even placed symptomatic bulbs (probably loaded with thrips) in the field.
- Thad Gourd conducted a cultivar trial to evaluate thrips populations, Fusarium basal rot, pink root and onion maturity; very low incidences of IYS were observed.
- Evaluation of MeloCon (OMRI registered biological nematicide) on onion – did not see any significant differences but nematode pressure was very low in the field this year (farmer grows onions once every 4 years and does not fumigate).
- Proposed mitigations for all copper compounds (refer to the email sent out by the Environmental Protection Agency, and forwarded to many members of the W-3008 by Wayne Mininger from the National Onion Association) – the comment period closed on Nov 22 – EPA proposing reducing the total amount of copper that can be applied to onion crops 6 to 5 lb a.i./year
- How does this impact production?
- Ontario growers are not using a lot of copper; however, drip and furrow irrigation, which are the predominant types of irrigation in the Treasure Valley of OR/ID, might not be as conducive to bacterial diseases as center pivot irrigation, due to the differences in crop microclimate under different irrigation systems.
- Robert Sakata – Colorado – growers only use copper when there is a storm; only ½ of the CO acreage is overhead irrigated, and when they use drip irrigation, they only use 3 lines on a bed to encourage air circulation and lower relative humidity; CO onion crops in the front range received 15 in. of rain this season; they had ideal onion growing weather so they anticipate a good storage season for 2017-18.
Pennsylvania – Beth Gugino (The Pennsylvania State University)
- Losses due to bacterial diseases were minimal this past season and there was an estimated 5% loss due to allium leafminer.
- Trials evaluating the effect of nitrogen fertilizer application rate on center rot incidence and severity; alternative plastic mulch trial and on-farm demonstration trials, cultivar trials comparing Candy (commercial standard) with Spanish Medallion (3 on-farm and 1 research trial), and a product efficacy trial in which Companion numerically (but not statistically) reduced center rot incidence in the inoculated subplots.
- Allium leafminer research is being conducted by Shelby Fleischer et al.
- The pest was confirmed initially in southeastern, and now is in much of the eastern half of Pennsylvania as well as NY, NJ and MD. USDA APHIS PPQ is unlikely to invoke action.
- The first report will be published in the Journal of Integrated Pest Management and the common name allium leafminer is now recognized by the Entomological Society of America.
- Symptoms include a line of oviposition marks on the leaves as well as serpentine mines. The larvae burrow down into the bulb and pupate. There are two flights a year, in spring and fall.
- All alliums are susceptible.
- Long-distance transport on planting material is a potential concern.
- The Fleischer lab was able to rear a colony in the lab which is promising for conducting future research.
- Future research includes comparing infestation levels among different allium hosts and cultivars; evaluating planting dates for bunching onions; and conducting insecticide efficacy trials.
Georgia - Bhabesh Dutta (University of Georgia)
- 2017 was a good production year – the estimated crop is valued at $145 to $150 million which represents an $8 M increase – it was a warm winter so the onions grew faster and many crops escaped disease.
- Bhabesh covered the results of fungicide trials and recommendations for growers
- Botrytis leaf blight (BLB) - #1 fungal disease on Vidalia onions
- Ghost spots observed when there is significant rainfall, high humidity and temperatures of 50 to 75°F.
- Growers start spraying in mid-February/early March so the crop is often left unprotected from November to February
- Could one spray of Fontelis (overhead drench) one week after transplanting on top of the typical last season fungicide program improve management?
- A single overhead drench application across all treatments significantly reduced the severity of BLB. In addition, a significant yield increase for both cultivars (Vidora and Pirate) was observed in plots treated with Fontelis.
- The new recommendation for onion growers is an early season application of a SDHI or Fungicide Resistance Action Committee (FRAC) Group 7 fungicide (Endura, Fontelis or Merivon) a week to 10 days after transplanting, followed by a Pristine/Bravo/Manzate rotation until mid-February, and then rotation with single-site mode of action fungicides (Inspire Super, Scala, Rovral or Omega 500).
- Discussion ensured over whether the Fontelis application might be affecting soilborne pathogen populations which, in turn, could be affecting severity of BLB?
- Other diseases they observed include Fusarium basal rot, yellow bud (occasionally seen), and sour skin (but limited incidence in 2017). Downy mildew was last reported in 2012. Purple blotch and Stemphylium leaf blight were a moderate issue.
- Center rot – three species of Pantoea cause this disease; sources of inoculum include weeds (only for ananatis) and seed; the bacteria are also transmitted by the onion thrips and tobacco thrips.
- Which onion growth stage is most susceptible to bulb infection by ananatis? Seedling, true leaf, etc.
- Infection of onion plants at the first true-leaf stage, bulb initiation and bulb swelling were evaluated by cutting the leaf tip and inoculating the cut surface
- They observed a significant effect of plant growth stage and variety; all three stages were susceptible; however among them 1st leaf senescence stage was most susceptible.
- Can we protect those specific growth stages using bactericide products, and how does thrips population influence this? Greenhouse experiments were conducted, demonstrating that thrips infestation had a significant effect on center rot development.
- In the absence of thrips, the application of bactericide products at different growth stages influenced severity of center rot. Kocide 3000 had the most significant effect, but when thrips were present in the trials, no product was effective. (30 thrips and 10 plants per cage were evaluated – 3 thrips per plant has been established as the threshold for center rot).
- Commercial onion field trial – inoculation of onion plants with center rot pathogens at the bulb initiation stage resulted in similar differences in bactericide efficacy as the greenhouse trials; also at the bulb swelling stage. When all growth stages were treated to limit thrips feeding injury, similar statistical differences were observed among the bactericide treatments, but the differences were not significant when plants were not sprayed for thrips.
- Observed significantly higher marketable yields for Kocide and Kocide + Actigard treatments when they were applied at either bulb initiation or bulb swelling.
Michigan – Beth Brisco representing Mary Hausbeck (Michigan State University)
- Evaluating the interaction between bacterial foliar diseases and onion thrips – Protecting onions from thrips damage significantly reduced disease severity; they evaluated applications with and without insecticides/surfactants, etc.
- They are also evaluating sources of bacterial inoculum – weed sampling and seed sampling – and have isolated suspect bacteria
- Evaluating nitrogen fertility effects on bacterial disease incidence and severity
- Growers were more interested in Stemphylium leaf blight than bacterial diseases this season because conditions were not highly conducive to bacterial diseases
- Other trials are in progress:
- Pink root cultivar trials over 3 years – highly variable results across years; penthiopyrad (Fontelis) was significantly better at reducing pink root severity; pathogen diversity studies – they did not detect variability in the pathogen population from samples collected across MI
- Bacterial diseases – survey of foliar diseases; there were differences in cultivar susceptibility depending on the pathogen; they also are evaluating the effects of temperature, humidity and planting date on bacterial disease severity
- Ben Werling, Extension Educator with MI State University, added that the weather was good for onion production this past season although some issues with Stemphylium leaf blight were observed on one farm. In general, the drier season led to less issues with bacterial diseases.
New Mexico - Chris Cramer (New Mexico State University)
- Typical year with no major pest issues; July was rainy so some growers had issues with bacterial diseases.
- Evaluating IYS incidence and severity in onion germplasm of varying leaf characteristics (HortScience,April 2017 52:527-532; doi:21273/HORTSCI11770-17) – some intermediate day germplasm is now available for seed companies to use in breeding programs.
- Evaluation of catnip for thrips control in pollination cages – Eight cages planted with the same variety, 4 with and 4 without catnip, with 3 beds per cage and each cage had a beehive; catnip grew large enough that the plant surrounded the base of the onion leaves and scapes; there were fewer thrips on the onion plants grown with catnip – however, this might have been due to the catnip or any other plant grown in a similar manner? In cages without catnip, there was significant weed pressure so the ground was not bare, confounding evaluation of the catnip.
- Also rated seed stalks for IYS on scale of 0 to 4; symptom severity was less in cages with onion and catnip vs. cages with onion plants alone.
- Seed yield – there was no difference in seed yield on a per plant basis but seed was hand harvested so lodged stalks were included in the seed yield measurement (which does not occur when seed crops are harvested mechanically).
New York - Christy Hoepting (Cornell University)
- Wet slow start to the season which delayed planting; growers had invested in water management (tiling) which was beneficial this year; no heat stress; good disease year but growers did well with foliar disease management; some growers had record breaking yields; bacterial disease issues were not really a problem because of cooler temperatures.
- Onion seed treatments for onion maggot control – 90% stand loss in hot spot; Sepresto was significantly better than the untreated but still 60% loss; FarMore FI500 was the best treatment but still 30% loss (trying to figure out what factors are associated with the hot spots).
- Onion thrips management program – strategic sequence of products; evaluation of timing and sequencing (0.1 vs 1 thrip per leaf as a threshold); Movento is applied 1st and then a heavy hitter is applied 2nd in the sequence so population does not spike.
- Onion thrips nitrogen interaction trial – evaluation of two varieties with five nitrogen rates and three insecticides.
- Onion bacterial research (Steve Beer) – chlorine registered for NYS growers until 2020.
- Observed in one field that 15 to 20% of the onions were affected with a bacterial canker type system (double barreling type symptoms) – not sure the cause maybe grass herbicide damage?
- Stemphylium leaf blight – evaluating isolates for fungicide sensitivity; epidemiology study (grid sampling); post-harvest onion residue management; organic management strategies
- Observed a “spectacular purple blotch lesion show” this year.
- Foliar disease fungicide trials were conducted for Stemphylium and Botrytis leaf blight; seed and in-furrow treatment trial for smut, damping-off and pink root.
- Bare root transplant dip trial for control of pink root, Fusarium basal rot and bacterial disease.
- Continued the NYS onion research scouting program.
Oregon/Idaho (Treasure Valley) – nobody from this region was able to attend but Lindsey du Toit and Kerrick Bauman shared information received from growers and extension specialists in this region
- Lindsey du Toit - Late rains during harvest season delayed harvest. Some crops were still in the ground when temperatures dropped to 25°F, with over 800 acres of the crop freezing – many of these crops were harvested and placed in storage, so there is uncertainty what is going to happen in storage.
- Kerrick Bauman – Western production is primarily of Spanish long-day cultivars; 40% of the national winter onion supply is from the Treasure Valley; 2016 was a bumper crop (warm spring so had extra leaf or two on the onion at harvest, so larger on average) – primarily a jumbo market; 1st part of December snow accumulated in the Treasure Valley (24 to 36 in.) and then the snow turned to rain causing onion storage buildings to start collapsing in January, leading to lots of loss over the winter. In addition, there was a dilemma about what to do with onions in the collapsed storage buildings – a market order was passed to require placing all the onions in landfills for pest management. Treasure Valley production (28,000 A grown for storage) is shifting increasingly from furrow irrigation to drip irrigation (80% of production is now with drip irrigation). Seed corn maggot and bulb mites were an issue as well as foliar insects such as spider mites. Production year 2017 was opposite to that of 2016 – planting was delayed from March to the end of April, beds were compacted since they had been prepared in the fall of 2016 before all the snow and rain, temperatures were hot in July with humidity in the teens, so the crop was very stressed, late, and 20 to 25% off normal yield in yellow and red cultivars, which equated to a 30 to 35% shift in onion supply this year - barely enough to cover the winter market.
Texas – Subas Malla (Texas A&M University)
- Subas Malla recently started as an onion breeder in TX. There are two research stations, at Uvalde and Weslaco, in the short-day onion production areas of TX.
- Short-day onion germplasm evaluation – he evaluated 133 TAM onion lines.
- There were some issues with Stemphylium leaf blight and a little with Xanthomonas leaf blight (less significant).
- Subas is trying to learn what traits are of most interest in short-day onions to inform the selection process – selections were made for bulb firmness, single centers, and leaf and root diseases; NDVI was correlated with pink root and Stemphylium leaf blight.
- The TX onion germplasm pipeline has two lines for release: 50092 and 30300.
- Major disease issues include Stemphylium leaf blight, pink root, bacterial diseases (Xanthomonas and Pseudomonas), IYSV and downy mildew.
- A genotyping lab is being developed as part of his program and will include a BSL1 Lab and greenhouse. Subas is interested and willing to collaborate with others.
Utah - Claudia Nischwitz (Utah State University)
- Yield was average in 2017; however, due to the problems reported above for the Treasure Valley, Utah growers got better prices; lots of fields were flooded for two months or more due to the major winter snow and then rain on top of frozen ground, which delayed planting. They had a few disease problems – Stemphylium leaf blight and some IYSV. They are trying to understand the mechanisms behind the relationship between potassium and IYSV. Some bulb mite issues occurred in storage and some problems in the field after planting. In addition, some growers had seed corn maggot issues. Leafminer issues started about 2 years ago.
Washington - Tim Waters (Washington State University)
- Onion crop notes: Smoky conditions across most of the WA Columbia Basin growing region in late July to mid-August resulted in “high” humidity. Thrips pressure initially was low due to a cool spring, but increased later in the season. IYSV and downy mildew were more of an issue, as were Fusarium basal rot and yellow nutsedge in some crops. They have seen some major irrigation management issues – center pivot growers experiencing increased bulb bacterial disease issues. This year was the first season of research funding provided by the new Columbia Basin Onion Research Committee.
- Disease notes (bacteria) – Several growers had 30 to 40% bacterial bulb rots in red cultivars at harvest or soon after harvest, which appears to have been correlated to the high humidity in late summer caused by wildfires during late maturity of these crops; 2017 appears to be one of the worst years for bacterial rots in the Columbia Basin for some growers, so now growers are concerned about increased problems in storage. Downy mildew and Stemphylium leaf blight were only an issue in mid-August following the extended periods of wildfire smoke and high humidity, but the outbreaks were late enough to not really impact bulb yields.
- IYSV-thrips monitoring project data is being summarized – preliminary data from 2016 indicated that IYSV infection in seed crops leads to early onset of IYSV in nearby bulb crops; 1,000 A of seed crops are grown amongst 24,000 A of bulb crops, with the worst IYS problems observed in regions of the Columbia Basin with the most dense concentration of both biennial bulb and annual seed crops.
- Hanu Pappu is currently working on understanding the molecular evolutionary genomics and population structure of IYSV.
- Onion thrips – a relatively slow start to the season and then populations increased dramatically by late summer. Tim has beenobtaining less optimal control with Lannate in test plots and growers are also reporting issues. He conducted several insecticide trials – top choices are Radiant, Minecto Pro, and Lannate. Radiant provides good control when applied through center pivot irrigation.
- Onion variety trial focused on thrips this year – noticed thrips damage differences among cultivars, as in part seasons.
Ontario, Canada – Zach Telfer (University of Guelph)
- Holland Marsh acreage is down to 1,000 A but profit has continued to increase; 2016 was hot and dry, but in 2017 the Marsh received double the 10-year average rainfall in addition to experiencing cool temperatures. By the end of June, over 3 in. of rain had fallen in 8 hours, which caused lots of flooding and complicated seeding. Planting was delayed by 3 weeks. Harvest usually occurs in early August for transplants but did not start until late August. Seeded onions were left in the field until the end of October, causing growers to be worried about storage quality.
- Thrips pressure was low (recommend 1 thrips/leaf threshold for insecticide applications). Because of the delayed planting, there were less issues with onion maggot. Also there is a region-wide management plan for maggot. The pest and disease field survey showed no Botrytis leaf blight (BLB) or purple blotch observed, but Stemphylium leaf blight was observed. In general, it appears Stemphylium leaf blight might be displacing BLB and purple blotch? It was also a very good year for downy mildew.
- Developed a new in-field sampling method for Stemphylium leaf blight – rank the 3 oldest leaves, with a maximum score of 6 (score 0 = no disease, 1 = ≤50% severity of symptoms, 2 = >50% severity), and then calculate a disease severity index.
- Some hypothesized that the increase in Stemphylium leaf blight prevalence and severity was correlated with use of the herbicide Chateau, but that hypothesis did not hold up in a replicated research trial.
- Evaluated the disease forecasting Botcast for BLB, but BLB not observed due to Stemphylium leaf blight being so severe. The DOWNCAST model did not predict downy mildew outbreaks in 2017 but there was a significant outbreak. DOWNCAST might work best for determining when there will not be a problem rather than predicting a problem.
- The Stemphyium leaf blight pathogen population appeared to have resistance to Luna Tranquility and Quadris Top.
- Future research includes monitoring onion insect populations (IPM); updating and examining DOWNCAST, improving Stemphylium leaf blight control/fungicide timing; evaluating Stemphylium vesicarium isolates for fungicide resistance.
Other onion project reports
Ashley Leach & Brian Nault – Insect management research update in New York
- Increasing use of action threshold in managing onion thrips on New York farms
- Onion thrips go through 3 to 4 generations per season
- Improved use of action thresholds through scouting program
- They categorized the degree of adoption – completely followed, mostly followed, and did not follow – to survey the success of this program and the recommendations
Christy Hoepting – NY onion disease research update
- Stemphylium leaf blight (SLB) was associated with more severe bacterial rot in onions that died prematurely
- Luna Tranquility and Merivon were most consistent for SLB management
- Confirmed resistance to of vesicarium isolates to fungicides in FRAC Group 11
Bhabesh Dutta – Research updates on Pantoea spp. in Georgia
- From 1997 to 2015, collected Pantoea strains isolated from seeds, weeds, thrips, etc. in Vidalia County. In total, 50 strains were collected - 23 from onion plants, 5 from seed, 16 from weeds, 6 from thrips.
- 33 were determined to be pathogenic on onion and 31 strains were ice nucleation positive; all were sensitive to copper
- Multi-locus sequence analyses (MLSA) of 6 housekeeping genes – Identified 3 onion clades, 8 clades of diverse sources and 15 unresolved strains – there was not much diversity or patterns or correlation among isolates, source of isolation and phenotypic characteristics
- REP-PCR assay was used to determine DNA fingerprint diversity – 4 clades were identified with no trends between phylogeny and pathogenic phenotypes
- Pathogenicity of the bacterial strains on onion, leek, shallot, and chive – 33 strains tested by measuring lesion length 5 days post inoculation from the point of inoculation
- Very few strains were pathogenic on chive
- A lot of diversity among strains was detected with this assay but not with the molecular assays
- Whole genome sequencing of 10 strains
- Bulb scale pathogenicity test on red scale onion – the scale develops a “clearing of red skin” demonstrating the degradation of the scale cells
- They were able to differentiate pathogenic and nonpathogenic strains using whole genome sequences
- An onion virulence region was identified in ananatis – so now they are developing primers for this region to differentiate pathogen and non-pathogenic isolates
- Pantoea stewartii indologenes
- A new set of bacterial strains was characterized that differed from known pathogens. The 16S rDNA sequence analysis of all the type strains were used to compare and differentiate these new onion strains; MLSA was conducted with 4 housekeeping genes
- Biochemically, they could not differentiate strains of ananatis and P. stewartii
- Pathogenicity tests on pearl millet – onion strains caused disease on pearl millet
- Hypothesized they are dealing with a subspecies of stewartii subsp. indologenes
- This is the 4th pathogen in the Pantoea genus that is pathogenic to onion.
Chris Cramer – Onion breeding update from New Mexico
- Fusarium basil rot resistance – new inoculation technique focused on inoculating mature basil plates excised from bulbs
- Evaluating the use of saponin levels as a potential measure of resistance for screening germplasm
Steven Beer – Onion bacterial disease research reports
- Sur-Chlor registered for use on onions in NY to reduce bacterial bulb decay, under a Section 24(c) - 12.5% solution approved for use in NY only.
Kevin van der Kooi and Zach Telfer – Onion downy mildew research in Ontario, Canada
- Downcast and spore trapping – spore trapping early in the morning for 2 hours
- Product efficacy trial – Orondis Ultra, Dithane and Zampro were most effective, as good as the standard fungicide program
Beth Brisco – Stemphylium leaf blight field trials in Michigan
- Foliar diseases typically include purple blotch and anthracnose but they now seeing Stemphylium leaf blight and bacterial leaf blight.
- Stemphylium leaf blight fungicide trial – 10 applications made on 7-day intervals – Luna Tranquility at both rates was the best of the products evaluated, along with Fontelis.
Impacts
- University of Georgia findings indicate that P. ananatis strains pathogenic to onion possess a specific-plasmid borne gene cluster (OVR A-D) that majority of the non-pathogenic strains lack. These regions can be utilized for designing specific diagnostic assays helping in accurate diagnosis of pathogenic P. ananatis strains. Susceptible growth stages of onion that can cause bulb symptoms were also identified and further investigations indicate that chemical treatments with Kocide 3000 at these stages can greatly reduce bulb infection. However, in situations with thrips infestation, any chemical management against P. ananatis would be ineffective. Hence, rigorous thrips management is required for effective management of P. ananatis with bactericides.
- New York CCE educators and entomologists implemented a three-year onion thrips management program to increase adoption of insecticide resistance management tactics. The program included 17 onion growers from six major onion-producing counties in New York. Growers who participated in the management program received weekly reports about onion thrips densities in their fields and a corresponding recommendation on whether to use an insecticide based on an action threshold and what product to use in the season-long rotation. Participating growers increased adoption of both insecticide resistance management strategies, with a 39% increase in following an appropriate rotation of insecticide classes and a 42% increase in using the action threshold from 2015 to 2017. Onion growers who followed the action threshold successfully controlled onion thrips infestations, and applied 2-4 fewer insecticide applications compared with those growers who did not use the action threshold. Cost savings from using the action threshold recommendations averaged $42/acre in 2016 and 2017.
- At Cornell University, collaborative work revealed that SLB had developed resistance to FRAC group 11 fungicides; fungicides that were once top performing products had become completely ineffective. After learning this, onion growers no longer wasted $25 per acre per spray on products that did not work. Today, New York onion growers proudly know which resistance groups different fungicide products belong to and how many sprays they may make before rotating to a different resistance group. In 2017, out of the 174 individual fungicide applications made in 20 spray programs representing the majority of CVP onion acreage, an outstanding 99% followed rotation restrictions and maximum use rates for best fungicide resistance management practices to ensure their useful longevity.
- Pennsylvania growers are shifting from producing onions on standard black plastic mulch to reflective silver mulch, which can significantly reduce soil temperatures and therefore losses due to center rot. In one on-farm trial, the marketable onion yield on silver mulch was over three times that of black plastic. The incorporation of silver plastic into the integrated pest management toolbox provides growers with another tactic that they can employ to reduce losses due to bacterial disease.
- The WSU Extension Commercial Vegetable program determined the best timing and application methods for new narrow-spectrum insecticides, which often are slower acting than previously used broad-spectrum insecticides and would be ineffective if used in the same manner. The new insecticides are applied at lower rates and are safer for the environment and non-target organisms than the older insecticides. Additionally, the improved application methods (applying via drip or center pivot irrigation) are less expensive and more effective than foliar applications. Narrower spectrum insecticides now account for greater than 60% of insecticide applications in the Columbia Basis. Furthermore, producers have shifted from using broad-spectrum insecticides early in the season to using them late in the season, or not at all in order to preserve beneficial insects in onion fields. More than 80% of the onion growers in Washington have altered their IPM strategies for managing thrips in onions as a result of research conducted by WSU Extension. Studies showed that when the most effective insecticides were utilized in thrips management programs in onions, yields increased by 25%. A 25% increase in onion yield translates to at least $2,400 more in net profit per acre for growers who use these treatments, using the 2015 onion market value. With 24,000 acres of onions in WA, if 20% of users implement these changes, the WA onion crop value would increase by $11.5 million annually.
- The very significant benefits to onion growers resulting from research and extension by T. Waters and L. du Toit’s programs over the last 10+ years, including work directly related to the W-1008, W-2008, and now the W-3008 multistate projects, increased awareness among onion producers, packers, and shippers of the need to support onion research. As a result, the Columbia Basin Onion Research Commission was formed in 2016, based on a voluntary contribution of $5/acre to support research efforts in the Columbia Basin of central Washington and northcentral Oregon, where ~24,000 acres of onion bulb crops are grown annually. This has equated to approximately a $100,000/year new investment in funding for regional onion research and extension, with the first year of funding in 2017.
- An increasing number of onion farms in the Columbia Basin are using microbial inoculants such as AMF in an attempt to increase environmental sustainability of their production practices and, potentially, reduce the reliance on soil fumigation, pesticide applications, etc. However, the lack of independent data on efficacy of these products has results in fairly widespread use of some products that have not provided an evident benefit to the crops. Feedback from onion growers who have participated in the arbuscular mycorrhizal fungi (AMF) research project by du Toit and Waters indicated significant savings to some farms that were using liquid formulations of commercial AMF inoculants that this project demonstrated did not cause any increase in AMF colonization of onion roots compared to granular formulations. One farm alone indicated that the results have saved the operation $50,000/year, demonstrating the tremendous value of grower-cooperator trials, even when the results indicate a product is not providing benefits.
- Research trials on Rhizoctonia stunting in the Columbia Basin identified some highly effective management practices that significantly reduce the impact of this disease. Onion crops on coarse, sandy soils can average ~3% stunted patches. The average center-pivot irrigated onion crop is valued at a minimum of $500,000, 3% of which is $15,000. Even if only one-quarter of the ~200 onion fields in the Columbia Basin experience Rhizoctonia stunting, $15,000 x 200/4 = $750,000/year in yield loss to Rhizoctonia stunting that has been prevented as a result of growers implementing the management practices developed as a result of this research.
- Onion thrips research projects have identified the most effective insecticides and proper use patterns for these products. Producers that utilize this information can achieve an average 10% increase in crop yield via increased onion bulb size. It is estimated that at least half of the producers utilize this information. As such, each season, $5 million worth of onion crop is preserved by using the proper insecticides and timing of those products.
- In the Treasure Valley, Oregon State University and Industry partners developed the Pest Management Strategic Plan (PMSP). It is benefiting the industry by 1) providing regulators with information on actual pest management practices and therefore reducing errors in formulating risk assessments; 2) documenting stakeholder needs to support funding requests; and 3) providing information for growers to facilitate their transition to alternative pest management practices. These benefits will help assure the sustainability of onion production in the Treasure Valley.
- In Oregon, new compounds were identified that can be used to induce white rot sclerotia germination and reduce inoculum prior to planting. The identification of dose x treatment interactions will inform decisions on treatment-rate combinations to test in future studies. Field trials demonstrated that the combined use of sclerotial germination stimulants to reduce initial inoculum levels and in-furrow applications to suppress white rot in-season could form the basis of an IPM approach for white rot.
- In New Mexico, if the new inoculation protocol developed by New Mexico onion breeder, proves successful at identifying onion bulbs that are resistant to Fusarium basal rot (FBR), then FBR resistance will finally be realized and the protocol could be used by other onion breeding programs to develop FBR resistant cultivars.
- In Utah, more onion growers are getting soil tests done prior to planting rather than just applying a set amount of fertilizer regardless of what is present in the soil. Research by Dan Drost and Diane Alston showed that thrips populations are often higher on onions grown with high nitrogen levels and Claudia Nischwitz showed that potassium levels can affect IYSV symptom expression.
Publications
Buckland, K., D. Alston, J. Reeve and C. Nischwitz. 2017. Trap crops in onion to reduce onion thrips and Iris yellow spot virus. Southwestern Entomologist 42(1): 73-90. http://dx.doi.org/10.3958/059.042.0108.
Cramer, C.S. 2017. Evaluating Iris yellow spot disease incidence and severity in onion germplasm of varying leaf characteristics. HortScience 52:527-532.
Dung, J. and R. Wilson. 2017. In search of the next DADS: continuing research on fungicides and sclerotia germination stimulants for White Rot control. Onion World (May/June 2017):4-6.
Dutta, B., F. Anderson, S. Smith, and R.D. Gitaitis. 2017. Epiphytic survival of Pantoea ananatis on Richardia scabra in Georgia. Plant Disease 101:613-618.
Henrichs, B., M.L. Derie, T.D. Waters and L.J. du Toit. 2017. The effects of arbuscular mycorrhizal inoculants on onion root colonization and growth in field trials near Connell, WA, 2016. Plant Disease Management Reports 11:V137.
Henrichs, B., T.D. Waters, and L.J. du Toit. 2017. The effect of soil phosphorus levels on colonization of onion roots by arbuscular mycorrhizal fungi, 2016-2017. Plant Disease Management Reports 11:V125.
Hoepting, C.A. 2017. Efficacy of foliar nutrient feeding on Stemphylium leaf blight on onion, 2016. Plant Disease Management Reports 10:V129. Doi: 10.1094/PDMR11.
Hoepting, C.A. 2017. Efficacy of fungicide timing on Stemphylium leaf blight on onion, 2016. Plant Disease Management Reports 10:V130. Doi: 10.1094/PDMR11.
Hoepting, C.A. 2017. Efficacy of fungicide treatments for control of Botrytis leaf blight and Stemphylium leaf blight on onion, 2016. Plant Disease Management Reports 10:V127. Doi: 10.1094/PDMR11.
Hoepting, C.A. 2017. Efficacy of fungicide treatments for control of Stemphylium leaf blight on onion, 2016. Plant Disease Management Reports 10:V128. Doi: 10.1094/PDMR11.
Johnson, W., B. Dutta, F.H. Sanders, and X. Luo. 2017. Interactions among cultivation, weeds and a bio fungicide in organic Vidalia sweet onion. Weed Technology 31:890-896.
Leach, A., M. Fuchs, R. Harding, R. Schmidt-Jeffris and B.A. Nault. 2017. Transplanted onion fields host abundant dispersing viruliferous onion thrips early to mid-season for late season Iris yellow spot virus epidemics in New York. Plant Disease (in press) https://doi.org/10.1094/PDIS-06-17-0793-RE.
Leach, A., S. Reiners, M. Fuchs and B.A. Nault. 2017. Evaluating integrated pest management tactics for onion thrips and pathogens they transmit to onion. Agriculture, Ecosystems & Environment 250: 89-101.
Mazzone, J.E. 2017. Responding to growers’ needs: evaluation of management strategies for onion center rot, caused by Pantoea ananatis and Pantoea agglomerans. M.S. Thesis, The Pennsylvania State University, University Park, PA, May 2017.
Moloto, V.M., T. Goszczynska, L.J. du Toit, and T.A. Coutinho. 2017. A new pathovar of Pseudomonas syringae, pathovar allii, isolated from onion plants exhibiting symptoms of blight. Europ. J. Plant Pathol. 146:591-603.
Murray, M.K., P. Jepson, S. Reitz. 2017. An integrated pest management strategic plan for treasure valley onions: Oregon and Idaho. Western Region Integrated Pest Management Center. https://ipmdata.ipmcenters.org/documents/pmsps/Onion_IPMSP_June_2017.pdf
Reitz, S.R. 2017. Evolution of onion pest management in the treasure valley. Onion World (February 2017) pp. 6-8.
Rinehold, J., N. Bell, T.D. Waters and D. McGrath. 2017. Vegetable insect pests. In Craig Hollingsworth (Eds.), 2015 Pacific Northwest Insect Management Handbook Corvallis, OR: Oregon State University.
Smith, E.A., E.J. Shields, and B.A. Nault. 2017. Onion thrips colonization of onion fields bordering crop and non-crop habitats in muck cropping systems. Journal of Applied Entomology 141(7): 574-582.
Stumpf, S., R. Gitaitis, T. Coolong, C. Riner, and B. Dutta. 2017. Interaction of onion cultivar and growth stages on incidence of Pantoea ananatis bulb infection. Plant Disease 101:1616-1620.
Waters, T.D. and J.K. Darner. 2017. Thrips managment on dry bulb onions with the use of foliar insecticide applications, 2016. Arthropod Management Tests 2017; 42 (1): tsx081. doi: 10.1093/amt/tsx081.
Zhao, X., S.R. Reitz, H. Yuan, Z. Lei, D.R. Paini, and Y. Gao. 2017. Pesticide-mediated intraspecific competition between local and invasive thrips pests. Nature Scientific Reports. 7:40512 | DOI: 10.1038/srep40512.