Late blight confirmed in potatoes in northern Indiana July 6, 2014

Keyword:
Publish time: 8th July, 2014      Source: Michigan State University Extension
Information collection and data processing:  CCM     For more information, please contact us
     

Late blight has been confirmed in potatoes south of the Michigan-Indiana border near Howe, Indiana. Effective management of this disease requires implementing an integrated disease management approach.

    

Posted on July 7, 2014 by Willie Kirk, Rob Schafer, Sandesh Dangi and Noah Rosenzweig, Michigan State University Extension, Department of Plant, Soil and Microbial Sciences

        

Late blight was confirmed in a potato crop south of the Michigan-Indiana border near Howe, Indiana, on July 6, 2014. Genotyping is currently underway. The source of the inoculum has not yet been found. The previous genotype found in southern Michigan during 2013 was US-23 and our initial lab experiments indicate that this is an aggressive isolate. Without making assumptions on Ridomil sensitivity, the recommendations for now are for treating with one of the translaminar fungicides listed on the Late Blight Risk Monitoring website. The recent weather conditions and winter soil temperatures favored the re-appearance of this destructive pathogen in Michigan, particularly in the region south of Lansing, Michigan.

Late blight is caused by the water mold Phytophthora infestans. The pathogen favors wet weather with moderate temperatures between 60-80 degrees Fahrenheit, high humidity and frequent rainfall. Under such conditions, the disease can spread extremely rapidly and has the potential to completely defoliate fields within three weeks of the first visible infections if no control measures are taken. In addition to attacking foliage, P. infestans can infect tubers at any stage of development before or after harvest and soft rot of tubers often occurs in storage following tuber infections.

Symptoms

The first symptoms of late blight in the field are small, light to dark green, circular to irregularly-shaped water soaked lesions. Lesions usually first appear on the lower leaves where the microclimate is more humid. However, they may occur on upper leaves if weather conditions are favorable and the pathogen has been carried into the field by air currents. Lesions often begin to develop on the compound leaf near the point of attachment to the petiole, which is often cupped, or edges, where dew is retained longest. During cool, moist weather, lesions expand rapidly into large, dark brown or black spots, often appearing greasy. Leaf veins do not limit lesions, and if formed at leaf tips or edges, they can cause young expanding leaves to be misshapen. As new infections occur and existing lesions coalesce, entire leaves may become blighted and killed within a few days. On stems, lesions are often initiated at the point of attachment to the stem and leaves become detached shortly after infection. The lesions continue to develop along the length of the stem and even in hot dry weather can remain active.

In the early morning or during cool damp weather, a white, velvety growth may be seen on the underside of infected leaves. This white, velvety growth distinguishes late blight from several other foliar diseases of potato. A pale green to yellow border is also often present around lesions. Plants severely affected by late blight also have a distinctive odor resulting from the rapid breakdown of potato tissue. This odor is similar to that produced by chemical vine-kill or after severe frost.

Late blight infection of tubers is characterized by irregularly-shaped, slightly depressed brown to purplish areas on the skin. These symptoms may be less obvious on russet and red-skinned cultivars. A tan to reddish-brown, dry, granular rot is found under the skin in the discolored area, extending into the tuber usually less than half an inch. The extent of rotting in a tuber depends on the susceptibility of the cultivar, temperature, and length of time after the initial infection. The margin of diseased tissue is not distinct and is marked by brown finger-like extensions into the healthy tissue of the tuber. In time, the entire tuber becomes blighted and discolored. Late blight rot of tubers is often accompanied by soft rot. Tubers may become infected if sporangia produced on the foliage are washed down into the soil by rain or irrigation water. Water-borne spores appear to follow stems and stolons in a water film into the soil, reach tubers, and cause infection. Tubers near the soil surface are thus more likely to be infected.

Sporangia may germinate at temperatures between 44-55 F when free water is present on leaves and form eight to 12 motile zoospores per sporangium. These swim freely in water films, attach to the leaf surface (encyst), and infect the plant. Encysted zoospores infect leaves by penetrating the leaf surface with a germ tube, either through stomata (breathing pores) or by means of direct penetration. At temperatures of 55-70 F, sporangia germinate by means of a single germ tube. Night temperatures of 50-60 F accompanied by light rain, fog, or heavy dew, followed by days of 60-75 F with high relative humidity, are ideal for late blight infection and development.

In the spring, the pathogen can be transmitted from infected tubers in cull piles or volunteers to potato foliage by airborne spores. Infected seed potatoes are also an important source of disease. Some infected tubers may rot in the soil before emergence, and not every potato that emerges from an infected tuber will contract late blight. Sporangia of Phytophthora infestans may be spread from infected plants in one field to healthy plants in surrounding fields by wind, splashed rain, mechanical transport and animals, thereby continuing the disease cycle. Many reproductive cycles are possible within a season and rapidly increase the disease once it becomes established in a field. In addition, in recent years some epidemics are thought to have been initiated from infected tomato transplants.     

Monitoring and control

Effective management of this disease requires implementation of an integrated disease management approach. Although the most important measures are cultural, resistant cultivars and chemical controls should also be utilized.

Monitoring and disease forecasting. Local late blight forecasts are available for many potato production areas in Michigan from www.cnchemicals.com/. However, accurate weather data are required for accurate disease prediction, and this is best achieved with weather monitoring machines in each field, especially if fields vary greatly in a specific location and topography. Unless you know that the forecast information is appropriate for your fields, the forecasts should only be used as a general indication of how favorable weather has been for late blight.

Cultural control. Cultural practices are the first line of defense against late blight. Before planting, growers should take several measures to control late blight. Firstly, it is important to eliminate sources of inoculum. The initial sources of inoculum are likely to be infected potatoes in cull piles, infected volunteer potato plants that have survived the winter, and infected seed tubers. Therefore, it is important to keep a clean operation by destroying all cull and volunteer potatoes. Cull piles should be kept as small as possible as piles of about 500 cwt do not freeze throughout the pile. Piles should be covered with plastic tarpaulins to increase the temperature within the piles in the fall and accelerate breakdown. Waste potatoes can be spread onto fields in the fall at a rate of about 400 cwt per acre as supplemental fertilizer and after spreading the tubers should be pulverized and left near or on the surface of the field to allow them to freeze. Rock piles that are deposited after planting contain rocks and potato seed pieces and should also be monitored carefully throughout the growing season. Emerging plants should be killed off with Roundup.

Although weather conditions are beyond control, field selection and carefully managed irrigation practices can help reduce the extent of periods favorable for disease development. If irrigation is applied, try to apply water during the hours of midnight to 8 a.m. to avoid prolonging the length of time leaves are wet. Leaves are often wet with dew during these hours anyway, so irrigation during this period does not unduly prolong the leaf wetness period. Alternatively, apply irrigation during daylight hours, beginning after leaves have been dry for at least two hours and ending two hours before dark, again so leaves have a dry period before and after irrigation. Most disease-causing spores are released into the air between the hours of 9 a.m. and 1 p.m.

After planting and early in the season, it is important to get rid of cull potatoes and potato pieces resulting from seed cutting operations or left after loading or unloading at storage facilities as these may support the production of inoculum whether or not the pieces are sprouting. It is also beneficial to control weeds and alternative late blight hosts such as hairy nightshade, which may contribute to disease spread under some conditions. Although weed species are not late blight hosts, they can contribute to conditions that favor disease development by restricting air movement within the canopy. Heavy weed infestations also prevent adequate coverage of potato foliage with fungicides.

Late in the season, Michigan State University Extension advises to avoid excessive irrigation as tubers become infected with late blight when spores wash down through the soil from infected leaves. Late season fertilizer applications should also be limited as although they will maintain green vines and promote tuber bulking, green and vigorous vines can also be difficult to kill with desiccants and immature tubers are more prone to skinning and therefore infection at harvest. Green vines may also harbor inoculum that can infect tubers during harvest.

At the end of the season, petiole nitrate levels should drop down to levels that encourage vine senescence. Vines should also be killed at least two weeks before harvest, especially in blight-infected fields. This interval minimizes the chance of tubers getting contaminated with late blight inoculum during harvest, and allows previously infected tubers to decompose in the field. If blight is present in the field or in the vicinity of the field at harvest, it may also be beneficial to spray foliage after vine killing with labeled fungicides to kill living late blight spores on the foliage.

Finally, after harvest if tubers are stored, they should be dry when placed in storage, and the storage air temperature and humidity should be managed so that the tubers remain dry. Condensation of moisture on tubers, resulting from air circulating through the tubers that is warmer than the temperature of the tubers, will cause any late blight present to form spores, and late blight may spread in the pile. Potatoes should be held at the lowest temperature possible consistent with their ultimate use (table stock or chipping). Most fungi do not grow much at temperatures of 38 F or lower, but some development will occur at higher temperatures.

Chemical control. Under high disease pressure situations, the programs incorporating Revus products, Forum, Curzate 60DF, Ranman, Tanos, Gavel or Previcur Flex should be used. In Michigan, both Headline and Quadris have given very useful late blight control, but these products should be used in strict adherence with anti-resistance development strategies, i.e., always mix with a protectant fungicide and never apply consecutive treatments. Consult your local advisor for appropriate rates and additional combinations. These products must be used in combination with protectant materials such as EBDC or chlorothalonil-based products. Tanos (Group 11, duPont, 25 percent cymoxanil, as in Curzate, plus 25 percent famoxadone) should be applied at 8.0 ounces per acre and no more than six applications per year and mixture with Manzate or chlorothalonil is recommended; do not mix or follow with a Group 11 fungicide, e.g., Quadris, 14-day pre-harvest interval (PHI).

Other new, very effective products include Revus Top (Group 40, mandipropamid) and Ranman (Group 21, cyazofamid). Applied within a protectant program, all of these products give excellent late blight control. In addition, trials over several years at MSU have shown that Quadris and Headline are still moderately effective for early blight control and Omega for white mold control. Gavel (zoxamide plus mancozeb, Gowan) is also best used as a protectant and has been reported to reduce tuber blight.

Destruction of areas within crops with late blight should follow the rules that 30 rows either side of the newest lesions at the border of the late blight locus and 100 feet along the row either side are killed with Reglone or with Gramoxone (generic). Although harsh, trials at MSU have shown that the latent period between infection and symptom development is about seven days and although not visible, plants within this area are already infected.

In seasons when the severity of weather conditions would not favor severe late blight development, programs based on chlorothalonil, e.g., Bravo WS 6SC, Echo 6SC, Equus 6SC or other formulations, EBDC, e.g., Dithane 75DF, Manzate 75DF, Manex 4FL, Penncozeb 75DF, Polyram 80WP, will reduce the risk of the establishment of the disease. The addition of TPTH 80WP to any of the protectant programs would enhance disease control particularly towards the end of the growing season. (TPTH 80WP has a seven-day PHI; also note maximum use rate since 2002 is 11.25 ounces per season). Fixed copper-based products such as Champ and Kocide can also be used in protectant programs. These products are best used early in programs or immediate post-harvest for killing spores perhaps from adjacent crops and should always be applied at the full recommended rate of application.

The observations of individuals responsible for implementing programs should determine when best to change from one product to another. Of major note is that the Fungicide Resistance Action Committee (FRAC) have specific recommendations for mixing fungicides with high risk of resistance development. Fungicides are now labeled with a Group number, e.g., Headline, Tanos, Quadris, Gem are all Group 11; these fungicides should be not mixed or immediately alternated in a fungicide-based protectant program. The application of these fungicides as stand-alone products has never been recommended by MSU for late blight control. They should always be mixed with a protectant surface residual fungicide.

The appropriate placement of translaminar and other systemic products within programs is determined by the mode of action of the product in relation to host and disease development, but all products are best used within a preventative protectant program. For example, Previcur Flex, Forum Quadris, Curzate 60DF, Headline, Gem (all plus EBDC or chlorothalonil), or Gavel or Tanos may be applied to protect new growth early in development. Curzate and Previcur Flex may be applied while the canopy is expanding, but before senescence and Forum is most effective during canopy expansion and as a post-senescence product and can be applied up to late crop senescence.

Recommended programs for late blight control are not straightforward. The product of choice may well depend on how and from where the disease has developed. Some possible scenarios are shown in Table 1 where a range of containment procedures is described for susceptible varieties and different levels of disease in the field.

Table 1. Suggestions for appropriate fungicides for late blight control including semi-systemic fungicides under different late blight conditions in susceptible potato varieties

Disease category

Late maturing especially storage varieties

No senescence - early senescence

Mid - late senescence

A) None

Curzate or Tanos or Zampro or Forum or Previcur Flex or Revus or Ranman + EBDC or chlorothalonil

Quadris or Headline or Gem + EBDC or Gavel or

Omega

Champ or Kocide can be added to enhance activity

Curzate or Tanos or Forum or Previcur Flex or Revus Top or Ranman + EBDC or chlorothalonil +TPTH

or Chlorothalonil fb EBDC+TPTH or Chlorothalonil + TPTH 5 day

fb Chlorothalonil various + ZN)

or Gavel

or Omega

Champ or Kocide can be added to enhance activity

B) Few random lesions even distribution throughout field (0 - 1% foliar infection)

 

Curzate or Tanos or Zampro or Forum or Previcur Flex or Revus or Ranman + EBDC or chlorothalonil+TPTH

or Chlorothalonil fb EBDC+TPTH or Chlorothalonil + TPTH 5day

fb Chlorothalonil (various + ZN)

or Gavel

Curzate or Tanos or Zampro or Forum or Previcur Flex or Revus or Ranman + EBDC or chlorothalonil +TPTH

or Chlorothalonil fb EBDC+TPTH or Chlorothalonil + TPTH 5 day

fb Chlorothalonil various + ZN)

or Gavel

C) One or more (up to 5) loci spreading from the edge of the field or from several centers within the field (1% overall field infection, but locally heavily infected plants 5 -10%)

Curzate or Tanos or Zampro or Forum or Previcur Flex or Revus or Ranman + EBDC or chlorothalonil+TPTH

kill infected area with Reglone****

fb EBDC+TPTH or Chlorothalonil + TPTH every 5 days until vines dead

Curzate or Tanos or Zampro or Forum or Previcur Flex or Revus or Ranman + EBDC or chlorothalonil+TPTH

Kill infected area with Reglone

fb EBDC+TPTH or Chlorothalonil + TPTH every 5 days until vines dead

D) Partial crop infection large areas infected with up to 20% loss of GLA evenly distributed throughout the field or large areas of the field

Curzate or Tanos or Zampro or Forum or Previcur Flex or Revus or Ranman + EBDC or chlorothalonil+TPTH

Chlorothalonil (various + ZN) + TPTH kill infected area with Reglone

fb EBDC+TPTH or Chlorothalonil + TPTH every 5 days until vines dead

Curzate or Tanos or Zampro or Forum or Previcur Flex or Revus or Ranman + EBDC or chlorothalonil+TPTH

Chlorothalonil (various + ZN) +TPTH kill infected area with Reglone

fb EBDC+TPTH or Chlorothalonil + TPTH every 5 days until vines dead

Kill infected area with Reglone

fb EBDC+TPTH or Chlorothalonil + TPTH every 5 days until vines dead

E) 20-100% crop infection with large loss of GLA***

Kill infected area with Reglone

fb EBDC+TPTH or Chlorothalonil + TPTH every 5 days until vines dead

Kill infected area with Reglone

fb EBDC+TPTH or Chlorothalonil + TPTH every 5 days until vines dead

fb followed by;
GLA Green Leaf Area
* TPTH has seven day post-harvest interval (max 11.25 oz/Acre/season).
** Chlorothalonil has seven-day post harvest interval.
*** Protectant applications of an EBDC or chlorothalonil-based fungicide should be maintained on a five-day schedule until the vines are completely dead.
**** Infected areas should be treated last and a fungicide should be applied during the exit from the field.

 Dr. Kirk’s work is funded in part by MSU‘s AgBioResearch.

  

This article was published by Michigan State University Extension. For more information, visit http://www.cnchemicals.com/. To contact an expert in your area, visit http://www.cnchemicals.com/, or call 888-MSUE4MI (888-678-3464).

    

Related Articles

      
  •     

    Potato late blight reports in Northern United States in 2014

        

    June 18, 2014 | Willie Kirk | There have been reports of late blight on tomatoes and potatoes in Florida over the last two months. Many areas in Michigan are now in the yellow zone for Disease Risk Severity.

      
  •        
  •     

    Options for controlling volunteer potatoes in corn fields

        

    June 11, 2014 | Christy Sprague | Volunteer potatoes are emerging in Michigan corn fields. Control is crucial for preserving corn yield and managing potato pests.

      
  •        
  •     

    Integrated pest management can save money

        

    January 22, 2014 | Marilyn Thelen | Looking for ways to save money on pest management? Review the integrated pest management (IPM) program on your farm to see that it is being utilized to the fullest.

      
  •        
  •     

    2014 Growing Michigan Agriculture Conference

        

    January 17, 2014 | Stan Moore | Emerging important issues will prompt valuable discussion at the 2014 Growing Michigan Agriculture Conference during Agriculture and Natural Resources (ANR) Week.

      
  •        
  •     

    Registration now open for the 2014 Integrated Pest Management Academy

        

    November 14, 2013 | Erin Lizotte | Looking to brush up on your pest management skills? Register now to ensure your spot at this pioneering workshop designed to serve specialty crop, field crop and landscape professionals.

      
  •