442 – 450 of 715 Results
03-2016 Cook Fruit Loss Annual Report
Results from the first year of MSPB Project No. 03-2016 entitled "Impact of fruiting structure loss at various growth stages on soybean yield under conditions that may limit yield potential" are presented.
01-2016 Cook Insecticide Seed Treatment Ann. Rep.
Results from the first year of MSPB Project No. 01-2016 entitled "Evaluation of alternative management tactics for early season insect pests of soybeans and impact of seed treatments on stand establishment and replant prevention" are presented.
Using HG Type to Select SCN-Resistant Soybean Varieties--MSSOY White Paper
The HG Type Test can be used to describe the population of soybean cyst nematodes in an infested field. This is necessary to select soybean varieties with the correct SCN-resistance source for a given production field with a known population of nematodes. How to conduct this test, along with how to use the results, is described.
Summary of 2017 MSPB-Funded Projects
Synopses of MSPB-funded projects for the 2017-2018 project year are presented.
MSPB Soybean Management Practices Survey--Results
Results from MSPB's annual management practices surveys are presented.
Use of Auxin Herbicides as a Weed Management Tool--MSSOY White Paper
Information about auxin herbicides and their use on soybean as a weed management tool is summarized and linked to resources.
Crop Rotation--MSSOY White Paper
Crop rotation has been used successfully as a corn:soybean production system in the Midwestern US. Results from research that elucidated the positive ramifications of this cropping practice are presented. The potential use of a soybean:grain crop rotation in the Midsouthern US is explored.
Lodging and Shattering in Soybean--MSSOY White Paper
Lodging and shattering of soybean in the Midsouth has been a concern in the past. However, today's varieties are not as prone to either. This article contains information about lodging and the effects from and prevention for its occurrence.
Use of Precision Ag in US Farming Systems--MSSOY White Paper
Precision agriculture [PA] is a farming management concept based on measuring and responding to both within- and among-field variability in site properties and crop production potential. It involves using a suite of information technologies to decrease input costs and labor requirements, support a more efficient use of production inputs, and potentially increase yields.