Treatment Thresholds for Tetranychus pacificus (Acari: Tetranychidae) in California Almonds Based on Monitoring for the Natural Enemy Scolothrips sexmaculatus (Thysanoptera: Thripidae).

Optimization of integrated pest management for Pacific spider mite, Tetranychus pacificus McGregor, in California almonds requires that miticide applications be delayed as long as possible to promote biological control, while still occurring before exponential mite increases cause defoliation. We used data from twelve untreated almond orchards between 2006 and 2019 to determine that decisions to treat T. pacificus should be made on the first monitoring date with 1.4 mites per leaf (38.1% of leaves infested) to ensure that miticide applications are made prior to reaching the treatment threshold of 5.4 per leaf an average of 4.7 d later. Modifications to this threshold based on biological control were made using capture rates of sixspotted thrips, Scolothrips sexmaculatus Pergande, on yellow adhesive traps from 14 almond orchards between 2016 and 2019. Data showed that T. pacificus density remained unchanged when there were 0.42 S. sexmaculatus per trap per week for every one T. pacificus per leaf. For orchards where T. pacificus density has exceeded action and treatment thresholds, we developed a less accurate, but more practical, model that does not require counting mites on leaves. On average, T. pacificus density remained unchanged for seven and 14 d if there were an average of five and three S. sexmaculatus per trap per week, respectively. Growers who adopt the action and treatment thresholds presented herein have the potential to avoid unnecessary miticide use, maximize reliance on biological control, and promote the long-term sustainability of California's almond industry.

Field Biology of Scolothrips sexmaculatus (Thysanoptera: Thripidae) as a Predator of Tetranychus pacificus (Acari: Tetranychidae) in California Almonds.

Biological control of tetranychid spider mites in California almonds has predominantly been associated with predatory mites in the family Phytoseiidae. However, changes in production practices, including shifts to more sustainable chemical control programs, have resulted in a trophic shift leading to the predominance of six-spotted thrips, Scolothrips sexmaculatus Pergande, as the primary mite predator. Over a 3-yr period, we studied S. sexmaculatus biology and relationship to Tetranychus pacificus McGregor in almond orchards in the southern San Joaquin Valley of California. Scolothrips sexmaculatus had two periods of activity in response to increases in T. pacificus density, one in the spring and one in the summer. Sex ratios were consistently skewed to more than 90% females captured on yellow sticky traps, with females producing eggs from May to October. Female thrips were larger than males, and both sexes were larger from June to September when temperatures were warmer and food was more abundant. In response to spider mite outbreaks, S. sexmaculatus increased from approximately 2/trap/wk to an average of 1,272/trap/wk over a 5-wk period, representing a population doubling time of 4.0 d. Over this time, we described trends in T. pacificus and S. sexmaculatus density that are consistent with population regulation through predator-prey relationships by a specialist predator.

Management of Navel Orangeworm (Lepidoptera: Pyralidae) Using Four Commercial Mating Disruption Systems in California Almonds.

The navel orangeworm, Amyelois transitella (Walker), is the most significant pest of California almonds. Direct feeding on the kernel by the larvae causes reductions in salable crop, crop quality, and exportability. Pheromone mating disruption (MD) targeting navel orangeworm is a relatively new technique with the potential to improve management. In 2017, we used replicated ~16-ha plots to compare the efficacy of four commercial MD systems (CheckMate, Cidetrak, Isomate, and Semios) for their relative impacts on the number of navel orangeworm in monitoring traps and crop quality. From 2017 to 2018, we conducted nine direct comparison studies in 16 to 40 ha almond orchards to compare conventional pest management programs to programs incorporating pheromone MD systems. Across all studies, MD reduced male moth captures in pheromone traps by >94%. In the efficacy study, use of mating disruption led to 35% and 53% reductions in kernel damage in Nonpareil and pollinizer cultivars, respectively, and an average increase in crop value of $370 ha-1. In the direct comparison, kernel damage to Nonpareil and pollinizer cultivars was reduced by 65% and 78%, respectively, resulting in an average increase in crop value of $357 ha-1. Economic analyses showed that increases in crop returns exceeded the costs of implementing MD systems with the break-even point ranging from 0.86 to 1.06% of kernel damage. These results suggest that adding MD to an existing navel orangeworm management program is a cost-effective way to reduce damage while promoting sustainable pest management practices.

Evaluation of Sticky Traps for Monitoring Scolothrips sexmaculatus (Thysanoptera: Thripidae) and Stethorus punctum (Coleoptera: Coccinellidae) as Predators of Spider Mites in California Almonds.

Changes in almond production practices have caused sixspotted thrips, Scolothrips sexmaculatus Pergande, and the coccinellid beetle, Stethorus punctum LeConte, to replace phytoseiid mites as the dominant predators of spider mites in California almonds. We conducted a series of field studies to evaluate nine commercially available adhesive traps for S. sexmaculatus and S. punctum and found that the yellow strip trap was the most effective, least expensive, and easy to use. At peak population levels, individual cards routinely caught >1,000 S. sexmaculatus and >100 S. punctum trap-1 week-1. We documented that larger traps collected more S. sexmaculatus, and more S. sexmaculatus per square area, suggesting that the trap surface was attractive. We determined the number of traps needed to have 50, 70, and 90% confidence that the averages of trap captures were within 10, 30, and 50% of the population mean. Two yellow strip traps per orchard provided 90% confidence that trap captures were within 50% of the population mean if there were an average of 16.0 S. sexmaculatus trap-1 week-1 or 7.9 S. punctum trap-1 week-1. Populations required to attain the same levels of confidence using four traps per orchard were 3.9 S. sexmaculatus and 2.9 S. punctum trap-1 week-1. We conclude that use of the yellow strip trap to monitor for natural enemies, in combination with leaf samples for spider mites, has the potential to improve integrated pest management programs for spider mites, and assist future research to understand the biology and phenology of both predator species.

Impact of Citrus Thrips (Thysanoptera: Thripidae) on the Growth and Productivity of Southern Highbush Blueberries in California.

Citrus thrips, Scirtothrips citri (Moulton), is a foliage-feeding pest of blueberries in the San Joaquin Valley of California. We conducted a 4-yr field study to determine the type and amount of damage caused by this species. Using pesticides, we established gradients of citrus thrips in commercial blueberry fields near Richgrove, CA, in the fall of 2006, 2007, 2009, and 2014. Thrips densities were evaluated weekly for ∼1 mo to determine cumulative thrips-days and correlate levels with the average length of new growth. During all four years of the study, there were significant negative correlations between thrips-days and shoot length (for every 100 thrips-days over a period of 4-5 wk there were reductions in the length of new shoot growth of 0.41 to 2.45 cm, 6.4-10.3%). During the spring following each trial, we evaluated the impact of thrips-days on blueberry yield and quality. During the 2006 trial, there was a significant negative correlation between thrips-days and yield as well as the number of berries per plant, but no yield effect was observed in the other three years of the study. No impacts on fruit quality were found any year. A discussion of the complexity of economic injury levels in blueberries is provided, especially considering that the cost of spraying for citrus thrips (estimated at US$150/ha) is almost irrelevant given crop values often in excess of US$100,000/ha.