Biological interactions among soybean cyst nematode, herbicide injury, and insect defoliation in soybean

Thumbnail Image
Date
1993
Authors
Browde, Joseph
Major Professor
Advisor
Larry P. Pedigo
Committee Member
Journal Title
Journal ISSN
Volume Title
Publisher
Altmetrics
Authors
Research Projects
Organizational Units
Organizational Unit
Entomology

The Department of Entomology seeks to teach the study of insects, their life-cycles, and the practicalities in dealing with them, for use in the fields of business, industry, education, and public health. The study of entomology can be applied towards evolution and ecological sciences, and insects’ relationships with other organisms & humans, or towards an agricultural or horticultural focus, focusing more on pest-control and management.

History
The Department of Entomology was founded in 1975 as a result of the division of the Department of Zoology and Entomology.

Related Units

Journal Issue
Is Version Of
Versions
Series
Department
Abstract

Field experiments were conducted during 1988-1991 for quantifying interactions among soybean, Glycine max, stresses from soybean cyst nematode (SCN), Heterodera glycines, acifluorfen plus bentazon herbicides, and green cloverworm (GCW), Plathypena scabra (Lepidoptera: Noctuidae). SCN and soybean responses were evaluated. Treatments were combinations of SCN density, acifluorfen plus bentazon rate, and simulated GCW defoliation level. A method developed for infesting soil with an SCN-root-soil inoculum was used in 1990 and 1991. Herbicide applications and defoliation were imposed at V6 and R2 to R4 stages of soybean development, respectively. Herbicides always stressed soybean, as indicated by visual evaluations of foliar injury. Likewise, defoliation reduced soybean leaf area in 1989, 1990, and 1991. No determinations of leaf area were made in 1988. Herbicides consistently decreased SCN soil densities, although applications never increased soybean seed yield. SCN soil densities generally were unaffected by defoliation. Because of extreme confounding from iron deficiency chlorosis and drought in 1988, data for that year were not used for evaluations of soybean response. Herbicides and defoliation limited soybean growth and yield in 1990 and 1991. Excessive injury from SCN likely precluded similar responses in 1989. Preharvest growth parameters reduced by herbicides included leaf area, plant height, pod number, and leaf, pod, and support (stem and petiole) dry weights; while defoliation reduced plant height and leaf dry weight. Moreover, herbicides and defoliation interacted to reduce seed yield over 1990 and 1991. Yield reductions primarily were attributed to decreases in pod number (defoliation) and weight per seed (herbicides). When desired stress from SCN was achieved (1990), interaction with herbicides decreased leaf stomatal conductance, increased visual crop injury, and reduced preharvest growth (leaf area, leaf number, pod number, and pod weight) and seed yield. Additionally, SCN and defoliation interacted in 1990, reducing seed yield. Canopy interception of photosynthetically active radiation was a key mechanism underlying yield reductions from SCN, herbicides, and defoliation. Management recommendations, including adjusted economic decision levels for GCW, were made to deal with SCN x herbicides, SCN x defoliation, and herbicides x defoliation effects.

Comments
Description
Keywords
Citation
Source
Keywords
Copyright
Fri Jan 01 00:00:00 UTC 1993