Large bugs damage pistachio nuts most severely during midseason

Daane, K; Yokota, G; Krugner, R; Steffan, S; da Silva, P; Beede, R; Bentley, W; Weinberger, G

Large bugs damage pistachio nuts most severely during midseason

Authors

Kent M Daane
Glenn Y Yokota
Rodrigo Krugner
Shawn A Steffan
Paul G da Silva
Robert H Beede
Walter J Bentley
Gary B Weinberger

Authors Affiliations

K.M. Daane is Associate UC Cooperative Extension (UCCE) Specialist, Division of Insect Biology, UC Berkeley (currently, Krugner is Graduate Student, UC Riverside, and Steffan is Project Manager, Utah State University);; G.Y. Yokota, Division of Insect Biology, UC Berkeley (currently, Krugner is Graduate Student, UC Riverside, and Steffan is Project Manager, Utah State University);; R. Krugner, Division of Insect Biology, UC Berkeley (currently, Krugner is Graduate Student, UC Riverside, and Steffan is Project Manager, Utah State University);; S.A. Steffan were Staff Research Associates, Division of Insect Biology, UC Berkeley (currently, Krugner is Graduate Student, UC Riverside, and Steffan is Project Manager, Utah State University);; P.G. da Silva was Postgraduate Student, Division of Insect Biology, UC Berkeley (and currently is Associate Professor, College of Marin); R.H. Beede is Farm Advisor, UCCE Kings County; W.J. Bentley is Areawide Farm Advisor, UC Statewide IPM Program, UC Kearney Agricultural Center; G.B. Weinberger is owner, Weinberger & Associates, Visalia. We thank the California Pistachio Commission, UC Statewide IPM Program and Western Region SARE program for funding.

Publication Information

Hilgardia 59(2):95-102. DOI:10.3733/ca.v059n02p95. April 2005.

PDF of full article, Cite this article

Abstract

“Large bug” damage to pistachio nuts varies by season, as well as among insect species and development stages, with larger bugs typically causing more damage than smaller bugs. We investigated pistachio damage by three large bug species (leaffooted bug, redshouldered stink bug and flat green stink bug) at different development stages and throughout the season, using field surveys and cage studies. Before fruit set occurs in June, most damaged nuts are dropped from the cluster without reducing fruit load. The midseason period (June to July) is the most critical because the damaged nuts remain in the cluster. After shell hardening, the kernel is largely protected from bug feeding.

References

Abbott WS. A method for computing the effectiveness of an insecticide. J Econ Entomol. 1925. 18:265-7.

Beede RH, Rice RE, Daane KM, et al. Relation of Phytocori relativus to lecanium scale infestations on pistachios. In: California Pistachio Industry Annual Report, Crop Year 1995–96. California Pistachio Commission, Fresno, CA 1996. pp.107-18.

Bolkan HA, Ogawa JM, Rice RE, et al. Leaffooted bug implicated in pistachio epicarp lesion. Cal Ag. 1984. 38(3–4):16-7.

Bostock RM, Thomas CS, Ogawa JM, et al. Relationship of wound-induced peroxidase activity to epicarp lesion development in maturing pistachio fruit. Phytopathol. 1987. 77:275-82. https://doi.org/10.1094/Phyto-77-275

Michailides TJ, Ogawa JM, Rice RE. Sites of epicarp lesions and kernel necrosis in relationship to symptoms and phenology of pistachio fruit. J Econ Entomol. 1988. 81:1152-4.

Michailides TJ, Rice RE, Ogawa JM. Succession and significance of several hemipterans attacking a pistachio orchard. J Econ Entomol. 1987. 80:398-406.

Purcell M, Welter SC. Effect of Calo-coris norvegicus (Hemiptera: Miridae) on pistachio yields. J Econ Entomol. 1991. 84:114-9.

Rice RE, Uyemoto JK, Ogawa JM, Pemberton WM. New findings on pistachio problems. Cal Ag. 1985. 39(1):15-8.

Uyemoto JK, Ogawa JM, Rice RE, et al. Role of several true bugs (Hemiptera) on incidence and seasonal development of pistachio fruit epicarp lesion disorder. J Econ Entomol. 1986. 79:395-9.

Also in this issue:

A Classification System for California's Hardwood Rangelands

Letters: April-June 2005

Collaboration fosters Kearney scientific achievements

Agricultural innovation marks 40 years at Kearney

“Farm to palate” postharvest research ensures high-quality produce

UC nematologists battle tiny underground pests

Lygus study validates treatment thresholds

Blueberry research launches exciting new California specialty crop

The future of California raisins is drying on the vine

Orchard-system configurations increase efficiency, improve profits in peaches and nectarines

Labor costs may be reduced …

Methyl bromide alternatives … Soil solarization provides weed control for limited-resource and organic growers in warmer climates

Mulches reduce aphid-borne viruses and whiteflies in cantaloupe

Early harvest delays berry skin browning of ‘Princess’ table grapes

Reduced-risk fungicides help manage brown rot and other fungal diseases of stone fruit

Conventional and molecular assays aid diagnosis of crop diseases and fungicide resistance

Deep vadose zone hydrology demonstrates fate of nitrate in eastern San Joaquin Valley

Weighing lysimeters aid study of water relations in tree and vine crops

Ozone reduces crop yields and alters competition with weeds such as yellow nutsedge