- Cucurbit powdery mildew season is here. For a review of CPM control strategies please click here.
- Cucurbit downy mildew has been reported as far north as southern Georgia on cucumber and cantaloupe and in South Carolina on cucumber. For a review of CDM control please click here. To track the progress of CDM 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 has been reported central TN from basil started in the greenhouse and in the field in southern FL to date. None has been reported in the region. To follow the progress of BDM in the US please click here.
- 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.
- Phytopthora blight has been reported in squash.
- 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.
- Bacterial canker and speck have been reported in fresh-market tomato.
- 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.
Organic Farm Advisory
The Plant & Pest Advisory serves NJ growers by reporting on important pests and recommending responses that are grounded in reproducible trials.
Articles in this section contain information helpful to the NJ commercial organic grower.
Sharing organic practice trial results between land-grant universities is a cost effective way to create a common knowledge base built on the strengths of individual programs. In the sidebar, find institutions with programs in organic agriculture which augment knowledge developed at the Rutgers New Jersey Ag Experiment Station.
Rutgers Cooperative Extension Field Guides: These concise guides help with decision making from pre-planting to harvest. For each crop listed, learn what pests to proactively look for as the season progresses, how to look for them, and when to take action.
Vegetable Disease Update – 6/12/20
IPM Update 6/10/20
Sweet Corn
European corn borer (ECB) moth catches have declined over the past week despite increasing temperatures. At this time, activity is highest near the Hunterdon/Warren County border, although this is still a low level population (see ECB map at left). The number of traps registering moderate catches remains low, and catches are widely dispersed. Another week of trapping will clarify whether this decrease in activity signifies the end of the first flight. A number of corn plantings are now in whorl through tassel stages and able to support ECB larvae. Larval infestations as high as 12% were detected as far north as Hunterdon County this week. As moth catches fall, larval development and damage increase. We expect that with a few more warm days, these infestation rates will climb quickly in many parts of the state.
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 6/10/20 are as follows:
Allamuchy 1 | Crosswicks 1 | Milford 1 |
Blairstown 1 | Denville 1 | Milltown 1 |
Califon 1 | Downer 1 | Springdale 1 |
Chester 1 | Eldora 1 | Tabernacle 1 |
Widely scattered, but slightly increased catches of corn earworm (CEW) occurred this past week. As the earliest plantings (mainly in the south) proceed to full tassel and on to silk, even this low population can present a limited threat.
The highest nightly trap catches of CEW in black light traps for the week ending 6/10/20 are as follows:
Califon 1 | Downer 1 | Green Creek 1 |
Dayton 1 | Georgetown 1 | Tabernacle 1 |
Recorded Sessions Available: May 2020 “On-Farm Direct Marketing” Weekly Webinar Series
A weekly “On-Farm Direct Marketing” webinar series was hosted in May 2020, by Agricultural Agents Michelle Infante-Casella, Meredith Melendez, William Bamka, Stephen Komar and Wesley Kline to educate famers selling directly to the public about changes occurring to the industry as a result of the COVID-19 pandemic. Four sessions in May were presented with the last session being a farmer panel discussion about changes on farms forced due to the pandemic. Farmers included Tracy Duffield – Duffield’s Farm Market, Dave Specca – Specca You-Pick Farm, and Jess Niederer – Chickadee Creek Organic Farm. In May, 145 participants attended this online series, offered on Tuesday Evenings from 7:00-8:00 PM. All sessions were recorded and are available to view online. The topics included the following:
Session 1: Maintaining Social Distancing and Food Safety Handling: Guidance for Farm Markets. Recording found at: https://go.rutgers.edu/pqalghh7 – Wesley Kline, Ag Agent, RCE of Cumberland Co. and Meredith Melendez, Ag Agent, RCE of Mercer Co.
Session 2: Meeting Customer Demands for New Jersey Agricultural Products in Response to the COVID-19 Pandemic. Recording found at: https://go.rutgers.edu/8u8r4qb8 – William Bamka, Ag Agent, RCE of Burlington Co. and Stephen Komar, RCE of Sussex County
Session 3: U-Pick Best Management Practices During COVID-10 and Executive Order Compliance. Recording found at: https://go.rutgers.edu/dy026twh – Meredith Melendez, Ag Agent, RCE of Mercer Co.
Session 4: Farmer Panel – Changes Made to On-Farm Direct Marketing Due to the COVID-19 Pandemic. Recording Found at: https://go.rutgers.edu/zm5msjt0 – Moderators & Co-Organizers: Meredith Melendez, RCE of Mercer Co. and Michelle Infante-Casella, RCE of Gloucester Co.
For more information on COVID-19 Farm Safety and other Food Safety resources see the Rutgers On-Farm Food Safety webpage.
IPM Update 6/03/20
Sweet Corn
Increasing numbers of European corn borer (ECB) moths have been captured over the past week, although overall numbers remain low. At this time, activity is highest in central Morris County and western Burlington County (see ECB map at left). The number of traps registering moderate catches is fairly low, and catches are widely dispersed. Overall, this year’s population is late, and whether numbers increase much or not remains an open question. Early corn is now in whorl or pre-tassel stage and able to support ECB larvae. It is time to begin scouting corn in these advanced growth stages.
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 6/03/20 are as follows:
Denville 2 | Clinton 1 | Milford 1 |
Asbury 1 | Downer 1 | Oldwick 1 |
Bellemeade 1 | Eldora 1 | South Branch 1 |
Califon 1 | Medford 1 | Springdale 1 |
Widely scattered, and low catches of corn earworm (CEW) occurred this past week. While there was an increase in activity over the previous week, this pest does not pose a threat to sweet corn that has not yet reached the silk stage.
The highest nightly trap catches of CEW in black light traps for the week ending 6/03/20 are as follows:
Chester 1 | Eldora 1 | Milltown 1 | Oldwick 1 |
Crosswicks 1 | Elm 1 | Morristown 1 |
Specialty Crops Injury Caused by Dicamba Herbicide Drift
By Maggie Wasacz1 and Thierry Besancon2
1 Rutgers Weed Science Graduate Student; 2 Rutgers Weed Science Extension Specialist for Specialty Crops
Glyphosate-tolerant soybeans were first commercialized in 1996 in the United States. By 2006, almost 9 out of every 10 soybean acres were planted with glyphosate-tolerant cultivars. However, reliance on glyphosate alone for soybean weed control stimulates the selection of weed biotypes naturally resistant to glyphosate. By 2019, there were 43 weed species known to be resistant to glyphosate, including species such as Palmer amaranth or waterhemp that can easily out-compete soybean and reduce yield by more than 50% if left uncontrolled.
What is Dicamba Herbicide?
One way to control glyphosate-resistant weeds is to treat them with herbicides other than glyphosate, such as dicamba. Dicamba is a synthetic auxin herbicide that has been used to control broadleaf weeds for over 50 years. Chemical and seed companies have recently developed new soybean varieties that are tolerant to dicamba and that started to be commercialized in 2016. With the development of genetically modified dicamba-tolerant soybeans, dicamba may be sprayed more frequently during the growing season. Additionally, dicamba is regularly applied in corn, for right-of-way applications, and in the early fall for perennial weeds control.
Dicamba can injure sensitive broadleaf plants through tank incorrectly rinsed after spraying dicamba, particle drift during the dicamba application, and vaporization after dicamba has been applied . Particle drift refers to the herbicide being carried off-target by the wind during the application. Wind speed, particle droplet size, nozzle type, carrier volume, application method, and application speed will affect the extent of particle drift. Vaporization, on the other hand, occurs when the herbicide evaporates from the target plant and these vapors travel off-target. For more information on herbicide drift, please refer to the following PPA post 10-best-management-practices-to-avoid-herbicide-drift.
If some of the dicamba sprayed onto a soybean field moves off-target and lands on a nearby field planted with a sensitive crop, the results can be very harmful. This injury could potentially cause aesthetic damage as well as reduce yield reduction. Potential for yield loss is influenced by amount of dicamba as well as when the injury occurs. Small volumes of dicamba products can cause leaf cupping and deformation, plant twisting, and in extreme cases, plant death of sensitive crops.
Screening Vegetables for Dicamba Sensitivity
Greenhouse studies conducted at Rutgers University in 2019-2020 screened economically important vegetable crops from the mid-Atlantic region for sensitivity to sublethal doses of dicamba. These micro-rates of dicamba simulated varying levels of drift conditions in the field. To put the rates into perspective, the highest dose in this study was equivalent to about one drop of product per quart of water. The goals of this study are to develop recommendations that can help growers design their planting strategies around dicamba-treated fields as well as to use this data to help refine recommendations to maximize protection of sensitive crops.
Crop-Specific Reactions to Simulated Dicamba Drift
The most sensitive crops in this study were the leguminous crops, including non-tolerant soybean, lima bean, and snap bean, as well as solanaceous crops, such as tomato, eggplant and pepper. These crops demonstrated severe injury.
Soybean injury is characterized by the underside edges of the leaves curling upward toward the top surface of the leaves (Figure 1). Lima bean and snap bean have similar injury symptoms, both exhibiting injury in several ways. Higher rates caused some leaves to not emerge at all, while lower rates caused leaf cupping injury that caused the top edges of the leaves to curve downward towards the ground. Other symptoms included a bubble-like texture on the top sides of the leaves, as well as leaf crinkling.
For eggplant and bell pepper, injury was expressed as the undersides of the leaves curling upward toward the top surface (Figures 2 and 3). Additionally, leaf crinkling is seen in bell pepper foliage (Figure 3). Finally, tomato plants express dicamba injury with leaf twisting, cupping, stunting, and crinkling. At higher rates, these leaflets will be extremely stunted and deformed (Figure 4). Lower rates will show slight cupping, leaf crinkling and a change in leaf surface texture. Among the most tolerant crops from this study were basil, pumpkin, lettuce, and kale. These plants incurred the lowest amount of damage. The moderately sensitive crops included watermelon, cucumber, and summer squash. Watermelon foliage exhibits injury differently than many of the other crops tested in the study. Rather than leaf cupping, watermelon leaf texture appears shriveled and more deeply lobed with small bubbles on the top leaf surface (Figure 5).
Summer squash and cucumber, however, show leaf cupping when injured. In summer squash, the top edges of the leaf curve downward towards the ground (Figure 6). The foliage of cucumber tends to curve the bottom edges upward toward the top surface of the leaf, although both directions of cupping were observed. (Figure 7).
On-Going Research at Rutgers
This summer, Rutgers researchers will select a few of these crops to take yield in a field-based dicamba drift study that tests different drift rates and application timings. Although this study gives some preliminary information, more detailed studies are necessary to confirm these findings. However, in the meantime, this greenhouse work gives us a brief snapshot of which species to be most concerned with when working near dicamba treated fields and provides help with field identification of these injury symptoms.
If you suspect that dicamba drift may have injured your crops, please contact you local county extension agent or Rutgers weed science specialist (Dr. Thierry Besançon) as soon as possible, and take detailed pictures of the observed damages.
IPM Update 5/27/20
Sweet Corn
A few European corn borer (ECB) moths have been captured over the past week, though they are too few in number to generate a map image. While some early corn is now in whorl stage and able to support ECB larvae, adult numbers do not indicate a significant threat as of this week. We expect numbers to increase over the next 2-3 weeks, and will post maps and management suggestions as this occurs.
The highest nightly trap catches of ECB for the week ending 5/27/20 are as follows:
Asbury 1 | Denville 1 | Milltown 1 |
Bellemeade 1 | Eldora 1 | Springdale 1 |
Califon 1 | Hillsborough 1 | Tabernacle 1 |
Clinton 1 | Milford 1 |
Two corn earworm (CEW) moths were captured this week (Eldora, Cape May County and Port Colden, Warren County) in blacklight traps. It is possible that these individuals overwintered locally, but in any case, they pose no threat to sweet corn at this time.
There have been fields of seedling stage sweet corn exhibiting signs of slug injury this past week (streaks on leaves with tissue eaten away, but leaving one layer of epidermal tissue). Generally the slugs responsible for this injury are a smaller species than the one in the photo at left. Additionally, corn stem weevils have been discovered this week causing holes in leaves similar to those bill bugs make, but without the linear pattern across the leaf as with bill bug – see photo at right. The former (slugs) have been found in northern counties on heavier soil for the most part, while the corn stem weevil injury is occurring in Cape May County. Slug injury generally decreases as weather warms and the soil surface dries. In rare instances of prolonged cool, wet weather, an application of slug bait may be warranted to limit injury to small plants. In this case, damage should be found on the majority of plants, with slug-favorable weather in the forecast. Corn stem weevil can sometimes causing severe damage from feeding on leaves and stems of seedlings. Adults are small, 1/8-3/16 inch, brown or black mottled. They hide during daylight beneath plants or under debris on the soil surface. In recent years, they have been active only in May and June. Consider an application of a labeled pyrethroid for beetle control in corn if injury is present on 12% or more seedlings. For insecticide recommendations, see the Sweet Corn section of the 2020 Commercial Vegetable Production Guide.