We continue to trap diamondback moth (DBM) in traps throughout the area. We currently have 57 pheromone traps stretched from Texas Hill to San Luis. In the past few weeks we’ve seen moth activity decrease in general in traps at Texas Hill, Tacna Roll, Wellton, Dome Valley and Bard/ Winterhaven. In contrast, we’ve recorded increases in trap captures in some traps in the Gila and Yuma Valleys. (See DBM Trap Network).
One trap located at the Yuma Ag Center captured more than 28 moths /trap per night last week. That trap is adjacent to several acres of untreated broccoli that are infested with DBM larvae. However, most traps throughout the Yuma area are not catching anywhere near those numbers of moths, and not surprising, the fields adjacent to these traps have little to no DBM larvae. Furthermore, to date no PCAs have reported failures in controlling DBM like they experienced last fall. On the Yuma Ag Center, we have had plenty of DBM in our cole crops. This allowed us to conduct a number of efficacy trials with both soil and foliar applied insecticides. In our Verimark tray-drench trial in cauliflower, we observed DBM control for almost 40 days. Soil shank applications of Verimark in broccoli provided DBM efficacy for ~ 30 days. Our foliar spray trials consistently showed that the all conventional insecticides we evaluated provided significantly better control of DBM larvae compared to the untreated check following multiple spray applications (for results see Efficacy of Foliar Insecticides Against Diamondback Moth, Fall 2017 andEfficacy of Foliar Insecticides Against DBM and Whitefly). On the other hand, we found it more difficult to control DBM with organically-approved biopesticides (see Organic Insecticide for DBM Control on Broccoli, Fall 2017).
An important lesson was learned from these studies. This fall DBM was not an issue, unlike last season. We’re obviously dealing with a different population this year. It is highly likely that the present DBM populations found at the Yuma Ag Center and throughout the Yuma area moved into the area via monsoon/tropical storms. I base this on the fact that the DBM have been easy to control with our standard insecticides (unlike last season), and we have been trapping moths adjacent to direct-seeded broccoli fields since early September. We’ve also been trapping them next to fallow fields. This clearly suggests that the DBM in Yuma this fall did not exclusively arrive on transplants, nor did last season’s resistant population over-summer here. I believe this explains why DBM is seldom a problem for Yuma PCAs. DBM populations have to migrate in and over the past 20 years or so, they have been susceptible to our industry standards. The exception would be last year, where the DBM outbreaks we experienced were associated with a resistant population that moved into fields from infested transplants. One last thing to consider: it is possible we may see additional DBM move into the area via winter storms from the coast. Hopefully we can pick up such movement with our traps.
This study was conducted at the JV farms at Gila Valley. Lettuce variety ‘Guapo’ was seeded, then sprinkler-irrigated to germinate seed on September 19, 2023, on double rows 12 in. apart on beds with 42 in. between bed centers. Rest of the irrigation was supplied by furrow irrigation or rainfall. Treatments were replicated five times in a randomized complete block design. Each replicate plot consisted of 25 ft of bed, which contained two 25 ft rows of lettuce. Plants were thinned on October 9, 2023 at the 3-4 leaf stage to a 12-inch spacing. Treatment beds were separated by single nontreated beds. Treatments were applied by incorporating in soil before seeding or with a tractor-mounted boom sprayer that delivered 50 gal/acre at 100 psi to flat-fan nozzles spaced 12 in apart.
Month
Max
Min
Avg
Rain
September
100
71
86
0.71 in
October
93
61
77
0.00 in
November
80
51
65
0.08 in
December
71
44
57
0.82 in
Fusarium wilt (caused by Fusarium oxysporum f. sp. lactucae ) rating was done in the field by observing the typical symptom of lettuce wilt. Confirmation was done by cutting the cross section of roots. Disease scoring/rating was done on December 6, 2023.
The data in the table illustrate the degree of disease control obtained by application of the various treatments in this trial. The disease pressure was extremely high in 2023, and most treatments showed little or no control against the disease. The treatments that showed some activity were Bexfond, Cevya, Rhyme, and Serifel. Plant vigor was normal and phytotoxicity symptoms were not observed in any treatments in this trial.
Controlling Fusarium Wilt of Lettuce Using Steam Heat – Trial Initiated
Earlier this week, we initiated a trial examining the use of band steam for controlling Fusarium wilt of lettuce. The premise behind this research is to use steam heat to raise soil temperatures to levels sufficient to kill soilborne pathogens. For Fusarium oxysporum f. sp. lactucae, the pathogen which causes Fusarium wilt of lettuce, the required temperature for control is generally taken to be > 140°F for 20 minutes. Soil solarization, where clear plastic is placed over the crop bed during the summer, exploits this concept. The technique raises soil surface temperatures to 150-155˚F, effectively killing the pathogen and reducing disease incidence by 45-98% (Matheron and Porchas, 2010).
In our trials, we are using steam heat to raise soil temperatures. Steam is delivered by a 35 BHP steam generator mounted on a custom designed elongated bed shaper (Fig. 1). Preliminary results were encouraging. The device was able to increase the temperature of the top 3” of soil to over 180°F at a travel speed of 0.5 mph as shown in this video of the machine in action (shown below). These temperatures exceed that of those known to control pathogens responsible for causing Fusarium wilt of lettuce (> 140°F for 20 minutes).
Stay tuned for final trial results and reports on the efficacy of using steam heat to control Fusarium wilt of lettuce.
If you are interested in evaluating the technique on your farm, please contact me. We are seeking additional sites with a known history of Fusarium wilt of lettuce disease incidence to test the efficacy and performance of the device.
References
Matheron, M. E., & Porchas, M. 2010. Evaluation of soil solarization and flooding as management tools for Fusarium wilt of lettuce. Plant Dis. 94:1323-1328.
Acknowledgements
This project is sponsored by USDA-NIFA, the Arizona Specialty Crop Block Grant Program and the Arizona Iceberg Lettuce Research Council. We greatly appreciate their support.
A special thank you is extended to Cory Mellon and Mellon Farms for allowing us to conduct this research on their farm.
Weeds are one of the most visible of all agricultural pests. They can’t move or hide and once established often stick up over the crop. Just one weed in a 10 acre field is annoying to look at. With insects and diseases, the damage is often more visible than the pest. That is not the case with weeds. A moderate weed infestation is approximately 10 weeds per square foot. If a herbicide produces 90% control, that leaves 1 weed per square foot or 43 weeds per acre. Without an untreated check, this can look like the herbicide failed! It is easy to leave an untreated spot in a field and it is well worth doing. Many applicators do so unintentionally because of skips, powerlines and other causes. They help determine crop injury and weed control. Here are some examples of what various levels of control looked like from one of our cole crop trials:
To contact John Palumbo go to: jpalumbo@ag.Arizona.edu
