Ornamental plants provide valuable services that benefit people and the environment. Herbivorous insects, particularly invasive pests with little resistance from natural enemies or plant defenses, damage plants and reduce the beneficial services they provide. Reduced-risk insecticides are valuable tools to selectively reduce target pests and protect plants while presumably conserving natural enemies. Herein, we conducted 2 separate tests of a new reduced-risk insecticide, cyantraniliprole, and industry standards for the control of Scirtothrips dorsalis Hood (Thysanoptera: Thripidae), a damaging invasive insect pest of ornamental plants. We also evaluated each insecticide's compatibility with Orius insidiosus Say (Hemiptera: Anthocoridae), an important natural enemy of S. dorsalis. During laboratory evaluations, we found that spinosad was superior in acute toxicity to S. dorsalis and compatibility with O. insidiosus. Cyantraniliprole was consistently moderately toxic to S. dorsalis and O. insidiosus under lab conditions. In the field study, we found that all reduced-risk insecticides had no detectable effect on natural enemy abundance. Cyantraniliprole provided the best plant protection, with 70% less damage than the untreated control. Importantly, the effect of cyantraniliprole on S. dorsalis and plant protection depended on the application rate, such that the lowest rate tested did not reduce damage. This study demonstrates IPM tactics for managing an important invasive pest with a combination of chemical and biological control. As non-target effects of commonly used insecticides are becoming better understood, safer tools are needed to protect beneficial organisms, ornamental plants, and their services.
Tea scale, Fiorinia theae Green (Hemiptera: Diaspididae), has long been one of the most important pests of Ilex and Camellia plants, particularly in the southeastern United States. This exotic armored scale insect reduces host plant health and function, and often requires insecticide use, which poses risks to nontarget organisms. While the use of Ilex (Aquifoliales: Aquifoliaceae) and Camellia (Ericales: Theaceae) spp. as landscape ornamentals for aesthetic function is firmly established, we have a poor understanding of species-level susceptibility to F. theae. Additionally, two species, Ilex vomitoria Ait. and Camellia sinensis (L.) O. Kuntze are emerging tisane- and tea-producing commodities in the region, respectively. We propose that these consumable plants may be well-suited alternatives to their traditionally used ornamental congeners in residential landscapes where they may provide enhanced ecosystem services. However, the potential impact of key pests, like F. theae, on these species should be evaluated to anticipate pest pressure that may undermine or offset benefits. In this study, we examine six species within the known host range of tea scale, comparing nonnative I. cornuta Lindl. ‘Dwarf Burford,’ C. japonica L., C. sasanqua Thunb., and C. sinensis, along with native I. opaca Ait. and I. vomitoria. We found that plant species show a wide range of susceptibility to F. theae and associated damage, with the two native Ilex species and tea-producing C. sinensis displaying the least susceptibility. By reducing the impact of a key pest and considering other ecosystem service traits, these results may help guide more sustainable plant selection decisions where the goal is to integrate native and edible plants into residential landscapes.
Many people are seeking available and effective options that are safer for people and the environment than some conventional synthetic pesticides. There is also rising interest in organic gardening, which relies on many natural pesticides. Natural products can be used in isolation or combination with conventional pesticide programs as valuable rotation options, delaying or preventing onset of insect and disease resistance caused by repeatedly using the same chemical controls. This publication describes natural products used in residential landscapes and gardens that are generally less toxic to non-target organisms and the environment, and when used correctly, can be effective tools for plant protection. These products are most effective when used in an integrated pest management (IPM) program along with sanitation, proper cultural or maintenance practices, mechanical control tactics, use of resistant plant varieties, and biological control, when possible.
Home gardeners and professionals frequently discuss the use of soap products to control plant pests. Limited and conflicting information on this topic has resulted in confusion and misuse of products. It is important to recognize that all soaps are not equal in safety or efficacy in plant-pest management. This 5-page fact sheet written by Matthew A. Borden and Adam G. Dale and published by the UF/IFAS Entomology and Nematology Department describes some of the different types of soaps and recommendations for proper, legal, and safe use of these products to manage pests. https://edis.ifas.ufl.edu/in1248
This EDIS publication is an alternate version of a page published first on the Featured Creatures website. The Featured Creatures collection provides in-depth profiles of insects, nematodes, arachnids and other organisms relevant to Florida. These profiles are intended for the use of interested laypersons with some knowledge of biology as well as academic audiences. This 6-page fact sheet that discusses the fourlined plant bug was written by Matthew Borden and Adam Dale, and published by the UF Entomology and Nematology Department, October 2016. EENY-669/IN1151: Fourlined Plant Bug Poecilocapsus lineatus (Fabricius) (Insecta: Hemiptera: Miridae) (ufl.edu)
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