Archives for June 2020

June 26, 2020 Andy Wyenandt

Vegetable Disease Update – 6/26/20

Cucurbit powdery mildew season is here. For a review of CPM control strategies please click here.
Cucurbit downy mildew has been reported on cucumber in western MI and as far north as North Carolina on cucumber. For a review of CDM control please click here. To track the progress of CDM on your phone or PC please visit the CDM forecasting website.
No reports of Late blight in region. To track the progress of Late blight in the US please click here.
Basil downy mildew (BDM) has been reported in southern New Jersey on BDM susceptible sweet basil. All growers are encouraged to initiate preventative fungicide programs on DMR and non-DMR basil. For control options and to follow the progress of BDM in the US on your phone or PC please click here.
Bacterial canker has been reported in fresh-market tomato. For a review of bacterial canker in tomato please see report by Dr. Sally Miller at The Ohio State University by clicking here.
Diplodia leaf streak, a fungal disease, was identified in sweet corn this past week. Symptoms include the development of numerous pycnidia which produce conidia within the lesions on infected corn leaves. For nice reviews, please see report by Dr. Kiersten Wise and colleagues from the University of Kentucky and report by Dr. Steve Johnson at the University of Maine.
White mold, caused by Stromatina cepivorum, has been reported in garlic. For more information, please see report by Crystal Stewart and Frank Hay from Cornell University.
Angular leaf spot has been reported in summer squash. Look for angular lesions delimited by leaf veins and ‘shotholes’ in infected leaves that develop after periods of hot, dry weather.
Phytophthora blight has been reported in pepper and cucurbit crops.
Rhizoctonia and Pythium root rot have been reported in pepper. For a review of identifying and controlling root rots please click here.
Septoria leaf spot and bacterial blight have been reported in parsley.
Timber rot, or white mold, has been reported in tomato.
White rust and Cercospora have been reported in spinach.
Bacterial leaf spot has been reported in sweet basil. BLS of sweet basil is a relatively new disease of basil in the US. The bacterium has a large host range and can survive and overwinter in the soil on infested plant debris. Disease development is favored by hot, humid, rainy weather. Periods of hot, dry weather will help mitigate disease development.
Sand blasting has been reported on a number of leafy green and other crops these past few weeks. Injury from sand blasting predisposes plants to bacterial infections. Remember, all bacteria need a wound or a natural opening, such as a stomata, to gain entry into the plant. Fields with extensive injury need to be scouted regularly, and most likely will need to be sprayed regularly with a copper fungicide or disinfectant-type product to help mitigate infection and spread.
For a review on how to avoid sunscald injury on transplanted crops please click here.
With the on and off again heavy rains we have been getting, along with warmer weather, all growers should consider applying at-transplanting fungicides for root rot control. Please click here to see these articles.
The 2020/2021 Commercial Vegetable Production Recommendations Guide is available for free online! With many county offices running reduced hours or being closed this is the easiest way to obtain the newest recommendations.
For a quick review on managing fungicide resistance development using tank mixes and fungicide rotations, and information on FRAC group 4, FRAC group 7, and FRAC group 3 and FRAC group 11 fungicides please click on hyperlinks.

Filed Under: Organic Production, Vegetable Crops

June 26, 2020 Michael Westendorf

Livestock Risk Protection Insurance Program

News Release

USDA Announces Improvements to the Livestock Risk

Protection Insurance Program This Summer

WASHINGTON, June 9, 2020 – USDA’s Risk Management Agency (RMA) today announced changes to the Livestock Risk Protection (LRP) insurance program for feeder cattle, fed cattle and swine starting this summer with the 2021 crop year. Changes include moving premium due dates to the end of the endorsement period and increasing premium subsidies to assist producers.

“These changes will make these policies more usable and affordable for livestock producers,” RMA Administrator Martin Barbre said. “We are working to ensure these improvements can be implemented by July 1 so producers can take advantage of these changes.”

Specifically, the changes:

Allow premiums to be paid at the end of the endorsement period, putting it in line with other policies.
Increase the premium subsidy for coverage levels above 80 percent. Those with an 80 percent or higher coverage level will get a 5-percentage point subsidy increase.

Producers may buy LRP insurance throughout the year from Approved Insurance Providers (AIPs), with coverage prices ranging from 70 to 100 percent of the expected ending value of their animals. At the end of the insurance period, if the actual ending value is below the coverage price, producers will be paid an indemnity for the difference. Premium rates, coverage prices and actual ending values are posted online daily.

RMA is authorizing additional flexibilities due to coronavirus while continuing to support producers, working through AIPs to deliver services, including processing policies, claims and agreements. RMA staff are working with AIPs and other customers by phone, mail and electronically to continue supporting livestock insurance coverage for producers. Farmers with livestock insurance questions or needs should continue to contact their insurance agents about conducting business remotely (by telephone or email). More information can be found at farmers.gov/coronavirus.

Livestock insurance is sold and delivered solely through private insurance agents. A list of insurance agents is available online using the RMA Agent Locator. Learn more about livestock insurance and the modern farm safety net at rma.usda.gov.

USDA is an equal opportunity provider, employer and lender.

Filed Under: Commercial Ag Updates, Field, Forage & Livestock

June 25, 2020 Steven K. Rettke

Azalea Leafminer: A Commonly Unrecognized Azalea Pest Problem

The Azalea Leafminer (Caloptilia azaleella) produces plant symptoms that are typically subtle & can often be overlooked. Symptoms from this caterpillar can also confuse people by having both leafminer & leafroller stages. The early instar stages are leafminers, while the later instar stages are leafrollers or leaftiers. Commercial nurseries generally have more concerns with this pest, while they often receive little attention in the landscape. Although the Azalea Leafminer has 2+ generations per year, the azalea (Rhododendron genus) is the only known host of this native caterpillar having the unique one-two punch.

Azalea Leafminers: Symptom stages from 3 leafmines & a single leafroller (Photo Credit: Steven Rettke of RCE)

June 25, 2020 Michelle Infante-Casella

Free Webinar: Agricultural Health and Safety Course for Medical and Safety Professionals

This information is being provided in the Rutgers Plant and Pest Advisory newsletter to get the word out about free training for medical and safety professionals in your communities. With less and less people in our communities understanding the agricultural industry, this training can be helpful in responding to agricultural emergencies. Please help get the word out to your county and local emergency management and health officials who may wish to participate. However, everyone is welcome to attend and register.

A nationwide, no-cost online webinar starting July 14-17, 2020 is being hosted by the University of Nebraska Medical Center. Registration is required and continuing education credits will be offered for physicians, nurses and EMS personnel. Registration is due July 7, 2020.

The Agricultural Health and Safety Course for Medical and Safety Professionals is designed to examine key health and safety issues specific to rural and agricultural workers. Experts will present course material relevant to those working in health care, public health, education, and safety professions.

This course is intended for professionals who work with or have an interest in agricultural health and safety including physicians, nurses, emergency medical responders, physician assistants, health educators, advanced practice nurses, Ag extension, migrant health clinicians, physical therapists, insurance specialists, veterinarians, safety professionals, and students.

This course is going to be provided via Zoom and supplemented with online modules.
•Session A: Agricultural Health — July 14-15, 2020
•Session B: Agricultural Safety and Prevention — July 16-17, 2020
•Session C: Special Topics — Online modules will be available starting July 14, 2020

Course Objectives:

At the completion of the course, the participant should be better able to:
1. Evaluate the core elements of agricultural medicine
2. Integrate the anticipation, recognition, diagnosis, treatment, and prevention of occupational and environmental illnesses and injuries within rural and agricultural communities
3. Qualify to become an AgriSafe Provider in order to develop sustainable agricultural occupational health and safety delivery programs within their regions

Even if this program saves one life, it will be worth attending.
Agriculture Organization logos

Filed Under: Commercial Ag Updates, Uncategorized Tagged With: Farm Safety, Health, webinar

June 24, 2020 Kris Holmstrom and Joe Ingerson-Mahar

IPM Update 6/24/20

Sweet Corn

European corn borer (ECB) moth catches have declined somewhat over the past week. At this time, activity is highest in Gloucester County and along the Cape May/Cumberland bay shore (see ECB map at left). Catches are widely dispersed. Larval infestations above 20% continue into the northern counties this past week. Larval infestations should be expected to continue for approximately another 2 weeks.

As always, look for the characteristic “shot-hole” type of feeding (photo below at right) and consider treating when infested plants exceed 12% in a 50 plant sample. As plantings proceed to the pre-tassel stage, ECB larvae may be found in emerging tassels (see photo at left). It is a good idea to treat individual plantings as they move into the full tassel/first silk stage one time. This eliminates any ECB larvae that have emerged with the tassels as they begin to move down the stalk to re-enter near developing ears.

Useful insecticides for this particular application include synthetic pyrethroids (IRAC Grp 3), spinosyns (including OMRI approved Entrust) IRAC Grp 5), and diamides such as Coragen (IRAC Grp 28) or materials such as Besiege which include the active ingredient in Coragen. Synthetic pyrethroids alone should NOT be used for corn earworm (CEW) protection on silking corn. Control with these materials is very inconsistent.

The highest nightly trap catches of ECB for the week ending 6/24/20 are as follows:

Downer 2	Eldora 1	Milltown 1
Blairstown 1	Farmingdale 1	Port Colden 1
Cinnaminson 1	Lawrenceville 1	Springdale 1
Denville 1	Matawan 1	Tabernacle 1

Corn earworm (CEW) moth captures increased slightly in blacklight traps this past week. As early plantings are now in the silk stage, they will need protection from this pest. Blacklight catches sere highest overall along the coast (see map at left).

The highest nightly trap catches of CEW in black light traps for the week ending 6/24/20 are as follows:

Matawan 2	Elm 1	New Egypt 1
Bellemeade 1	Green Creek 1	Sergeantsville 1
Crosswicks 1	Hillsborough 1	Springdale 1
Eldora 1	Milltown 1	Tabernacle 1

[Read more…]

Filed Under: Organic Production, Vegetable Crops

June 24, 2020 Tim Waller

Prevailing landscape disease; Entomosporium Leaf Spot on woody ornamentals

Photo: Rich Buckley

It was brought to my attention this morning that many landscapers and plant professionals are concerned by a reddening and spotting discoloration condition on Photinia foliage. Most often this is caused by the fungal pathogen Entomosporium maculatum, a widespread and destructive foliar disease of woody ornamentals in the rose family (including Photinia, Indian Hawthorn, Loquat, flowering and fruiting Pear, Firethorn, Hawthorn, Juneberry, and Quince). This pathogen discolors foliage to an unsightly red, orange, and black spotting that ultimately leads to premature defoliation. The spots will eventually turn necrotic and fungal structures will be visible within those areas (little black dots).

Photo: Rich Buckley

The pathogen can be active from late winter to late fall, favoring conditions that promote humidity and reduced airflow. The pathogen survives on infected leaves (attached or dropped). Typically it takes approximately 2 weeks for symptom development to occur post infection. Therefor the heavy discoloration we are seeing right now is the culmination of multiple infection events, where protectant fungicides were not used or were used correctly.

This means that another round of infections will occur again soon in severely infected locations as the spots will give rise to a new generation of spores.

Disease management (fungicides): Ideally, protectant fungicide applications would have been initiated every 7-14 days post bud break until all leaves had matured. However, in the current situation many people will be playing catch up. Fungicide applications initiated now will not make the symptoms go away or ‘cure’ the plant, but they are required now to protect foliage from the next wave of fungal infections and reduce the overall population. In severely infected plantings, fungicide applications should be continued every 10-14 (depending on fungicide label) days throughout the remainder of the season, especially in high value plantings or in specimen blocks. If winter conditions are unseasonably warm and humid, then applications should continue accordingly. Systemic fungicides should also be considered in addition to protective and cultural control mechanisms in severe cases.

Fungicides:

ROTATE between Fungicide Resistance Action Committee (FRAC codes)

Format: [FRAC code]: Chemical name (Trade names)

[M05]: Chlorothalonil (Daconil WS)
[M05 + 1] Chlorothalonil + Thiophanate methyl (Spectro 90WDG)
[1] Thiophanate methyl (Clearys 3336)
[11] Azxystrobin (Heritage 50W)
[3] Myclobutanil (Eagle 40W)
[3] Propiconazole (Banner Maxx)
[3] Triadimefon (Bayleton 50, Strike 50WDG)
[1 + M03] Thiophanate methyl + Mancozeb (Duosan 79W)
[M03] Mancozeb
[M01] Copper Oxychloride + Copper Hydroxide (Badge SC, many)

IT IS CRITICAL TO ROTATE BETWEEN FRAC CODES DUE TO THE NUMBER OF POTENTIAL APPLICATIONS

Always refer to the label for allowable host crops, use-restrictions, application rates, reapplication intervals, re-entry intervals (REI), and mix compatibility information.

DISCLAIMER: Production and pesticide information on this site are for commercial operators and landscape professionals only and are NOT for home gardener use. Provided materials represent examples and do not cover all possible control scenarios. Please contact your local agent or chemical sales representative for more information.

Click here for a list of materials available to both homeowners and licensed pesticide applicators

Cultural prevention and mitigation:

Remove leaf-litter prior to bud break. During the season remove leaf litter only when dry. Infected leaves serve as inoculum for the next season. In severely infected plantings remove and replace mulch as fungal material can be deposited within the litter. Do not use leaf blowers to remove leaf-litter (all that does is spread around the spores).
Avoid overhead irrigation. Water moving through the canopy represents at least two dangerous plant pathogen situations; increased leaf wetness that lets pathogens infect successfully, and movement of spores (from sporulating leaves and young growth).
Increase airflow. Like all plant diseases, any situation that increases airflow, will decrease leaf wetness. This could include pruning, decreasing the density of plants, greater spacing, and planting/rearing site selection.
Pruning in heavily infected plants. In addition to promoting increased air flow, heavy pruning may be required to remove overwintering inoculum from the plants. This should only be done during dry conditions, preferably during plant dormancy periods.

For sample identification please contact the Plant Diagnostic Lab here at Rutgers.