Measureables will include 1) plant height and SPAD readings at V3-4 and R5, 2) Soy tissue sampling at R1, and 3) grain yield and moisture. In an attempt to quantify differences in nutrient uptake and partitioning by seeding rate, three whole plant samplings will occur for project #1 above. All studies will be highlighted for summer research tours, discussed at appropriate extension meetings, and results posted at soil.msu.edu.

The 2016 and 2017 growing seasons did not produce a significant positive response to poultry litter, potassium thiosulfate, foliar micronutrients, or fungicide. In addition, results indicated a soybean intensive management system utilizing prophylactic applications of multiple inputs was not an economic benefit to producers. Data from the 3 site-years of this trial appears to provide continued support for the use of university IPM programs that emphasize both grain yield and profitability. Michigan soybean producers should look to incorporate a management system that utilizes a variety of different techniques (e.g. tissue and soil analysis, crop scouting, prediction models) to minimize and validate input applications to match specific crop needs and maximize profitability rather than applying a combination of inputs as risk insurance.

No single input added generated a significant grain yield increase or positive return on investment

Traditional management on average significantly increased producer return on investment by $213 A-1

Minimal potential for grain yield and economic benefit from intensive soybean management w/o adverse environmental conditions.

Importance of IPM to justify input applications