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Foliar Fungicides on Corn
Sunday, July 31, 2011 - Foliar Fungicides on Corn
Alison Robertson and Daren Mueller, Department of Plant Pathology and Microbiology
It never ceases to amaze me just how quickly corn grows. It does not seem that long ago that the corn was knee-high and now crops are 12 feet tall. Across the state, crops are flowering and pollination is underway. With tassels, comes the question, “Should I spray a fungicide?”
University and industry data continue to report mean yield responses due to a fungicide application that vary from 4 bu to as much as 15 bu per acre. With grain prices as they are, it may appear to be worth risk to spray, but fungicide decisions should be based on more than just the price of grain.
Four years of fungicide trials in Iowa and across the Corn Belt at numerous universities has clearly shown that yield responses are greater when disease is present in the field (Table 1). The data in the table shows the disease severity at R5 (dent), and the mean yield response that occurred when disease severity on the ear leaf was low (less than5 percent) and more than 5 percent of the ear leaf was diseased.
But how much disease should be present at tasseling? Good question and one we are working on. Fungicide trials to establish thresholds for applying a fungicide are in progress in Iowa, Illinois, Wisconsin and Ohio. This work is being funded by a grant from the USDA RAMP (Risk Avoidance and Mitigation Program) program. For now though, the threshold remains to consider a fungicide application if fungal disease is present on the third leaf below the ear leaf or higher on 50 percent of the plants at tasseling and the hybrid is susceptible to the disease. If the hybrid is moderately susceptible, consider other risk factors for disease development such as current and predicted weather conditions during grain fill, disease history of the field and previous crop. If the hybrid has good genetic resistance or tolerance to the disease, no application is needed. Following these guidelines should lead to a greater response to fungicide application due to disease pressure.
Click below to continue reading the article!
http://www.extension.iastate.edu/CropNews/2011/0718robertsonmueller.htm
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