By Erin Lizotte
Northwest Michigan hopyard, April 26, 2017.
We will be tracking hop development this season and providing growers with relevant pest management information
Yards are looking clean this spring despite difficult weather for early herbicide applications. Many growers mechanically or chemically mowed back the first flush of bines and are actively stringing yards; they will begin training bines in the coming weeks. Many growers are working to get irrigation systems up and running and initial granular fertilizer applications have been made.
Hop plants are between 1-3 feet in height depending on plant age, location, variety and pruning practices. Growers began applying fungicides to protect against downy mildew.
Downy mildew
Growers should be on the lookout for systemically infected downy mildew spikes as plants emerge. Downy mildew is caused by a fungus-like organism called Pseudoperonospora humuli and can cause significant yield and quality losses in hop, depending on variety and disease pressure. In extreme cases, cones can become infected and the crown may die. Mild temperatures of 60-70 degrees Fahrenheit and regular rainfall during the growing season in Michigan provides ideal growth conditions for the fungus.
Basal growth originating from infected crowns or buds may appear distorted with shortened internodes that give them a stunted appearance and are referred to as downy mildew spikes. Infected leaves may develop angular, water-soaked lesions that follow leaf venation. Eventually, the water-soaked lesions turn brown and necrotic with fuzzy and gray-black asexual spore masses developing on the underside of infected lesions. The pathogen produces copious spores on the underside of infected leaves, which infect new tissue through the stomata.
Emerging bine systemically infected with the downy mildew pathogen with stunting and chlorosis.
As infected bines continue to grow, they may fail to climb the string. Growers can attempt to retrain new shoots, but often incur yield loss as a result. As the season progresses, symptoms may include stunted side-arm growth, tip die-back and cone discoloration. The fuzzy, visible growth of downy mildew is not always present and should not be relied upon as the sole indicator of whether infection is present.
Buds, growing points, cones and leaves are all susceptible to infection. Leaf infections produce a second source of spores, which can infect all parts of the plant, but is susceptible to desiccation under dry conditions. Infections occurring on the terminal growing point become systemic and can also produce spores, further contributing to the spread of infection. Once the fungus has become systemic, it grows down the plant toward the crown and can then persist in the buds and crown for a prolonged period. The fungus can also produce a resting spore and overwinter, but it is unclear how substantially these resting spores contribute to infection and how readily they are produced under Michigan conditions.
Scouting for downy mildew involves monitoring the crop for signs and symptoms of disease as soon as bines emerge in spring until senescence in the fall. Growers should keep records of their scouting, including maps of their fields, a record of sampling and disease pressure, as well as the control measures utilized. Scouting for downy mildew should begin as soon as plants begin to grow and should continue until the crop is dormant. Section your farm off into manageable portions based on location, size and variety and scout these areas separately. It is more practical to deal with blocks that are five acres or smaller and contain plants of the same variety, age and spacing.
Walk diagonally across the yard when scouting to ensure you view plants from both the edge and inner portion of the block. Change the path you walk each time you scout to inspect new areas. Revisit hotpots where you have historically encountered high downy mildew pressure. At a minimum, weekly scouting is recommended by Michigan State University Extension.
Unfortunately, even when we follow best management practices, downy mildew can gain a foothold in Michigan yards due to high disease pressure, poor fungicide timing, suboptimal spray coverage, fungicide wash-off, cultivar susceptibility or a combination of factors. In addition, fungicide resistance may play a role in some cases.
It takes a multipronged approach to manage for downy mildew. Growers should utilize a protectant fungicide management strategy to mitigate the risks of early and severe infections, but can also utilize cultural practices to reduce disease. Keep in mind that varieties vary widely in their susceptibility to downy mildew and select the more tolerant varieties when possible (refer to Table 2 in “Field Guide for Integrated Pest Management in Hops”).
Clean planting materials should be used when establishing new hopyards since this disease is readily spread via nursery stock. Growers should consider purchasing a few plants from prospective nurseries and have them tested for downy mildew before committing to a large numbers of plants, particularly if the grower hasn’t worked with the nursery before.
If disease is already present in the yard, diseased shoots and spikes should be removed by hand and healthy shoots retrained in their place. Remove superfluous basal foliage and lower leaves after bines reach 10 feet in height to promote air movement in the canopy and reduce the duration of wetting periods. If there is a cover crop, it should be mowed close to the ground. If yards have no cover crop, cultivation can help dry the soil and minimize humidity. Keep nitrogen applications moderate.
Lastly, growers need to apply fungicide treatments on a protectant basis as soon as bines emerge in the spring regardless of the presence or absence of visible symptoms of downy mildew. Dormant applications are not recommended. Applications should continue season long on a seven- to 10-day reapplication interval until harvest. The time between applications may stretch longer when the weather is dry and if hopyards don’t have active infections. Several periods in the season are particularly critical for disease control: immediately before and after training; when lateral branches begin to develop; bloom; and cone development. Covering young, developing bracts before cones close up is critical to protecting against downy mildew when conditions for disease are favorable. Ensuring adequate coverage on undersides of bracts, where infection occurs, becomes increasingly difficult as cones mature.
There are a number of effective fungicides registered for downy mildew control on hop in Michigan including Curzate, Forum, Revus, Zampro and Ranman. For a complete list of registered products, please refer to the Michigan State University Extension publication, “Michigan Hop Management Guide, 2017.” Please note that at this time Presidio is not available for use by Michigan growers.
Organic growers have fewer options and will need to focus on keeping tissue protected, selecting downy mildew-tolerant varieties and following cultural practices to limit downy mildew infection. Copper-based products are the mainstay of downy mildew management in organic hopyards and offer five to seven days of protection, but no post-infection activity. Products containing copper hydroxide have been shown to provide superior disease control in other cropping systems.
The pre-harvest intervals for copper formulations vary, so refer to the label. Actinovate, Eco-mate, Armicarb-O and Sonata are additional products that list downy mildew on the label and are approved for organic use in hops. The pre-harvest interval for these products are one day or less. At this time, we have no data on the efficacy of these products.
Potato leafhoppers and powdery mildew
Looking ahead, growers should be carefully monitoring for the arrival of potato leafhopper on spring storms and be on the lookout for powdery mildew. Powdery mildew has not been a major issue in Michigan fields, but has been reported as an isolated problem in the Great Lakes region.
Adult potato leafhopper on hop leaf.
Powdery mildew on hop.