Update:
Due to the size of the final report you will need to access both File A & B for the full report.

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Research conducted
For two years, this study has been monitoring soil properties, plant growth, and insects in four fields that have salt patches (see figures with list of measurements and plot design). The fields are managed for a corn-soybean rotation, and are located near Jamestown, Aneta, and Northwood. Across each field, we broadcast cereal rye (at 40 lb/ac) before leaf drop, and then terminate it the following spring before, or at planting. We are curious if the cover crop will alleviate some of the negative effects of salinity on the soybeans, or if it poses too many risks to soybean production.

Why the research is important to ND soybean farmers
Salinity affects about 13% of North Dakota’s land area, and almost every farmer in the state works in fields that have salt patches. We hope to (1) identify if cover crops offer a practical management strategy to improve soybean production on salty land and to (2) provide education and guidance on managing saline soils.

Final findings of the research
This work is ongoing, but our findings so far indicate that the cereal rye, at the applied rate, does not negatively affect soybean growth (in terms of water use, fertility, or diseases and pests). However, we also haven’t seen any drastic changes, or improvements in the soil during the first two years of the study. We’ll be watching for the development of soil structure under the cover crop, which is a nice indicator of improved soil health. Unfortunately, the negative impacts of the salts seem to overwhelm any benefit of the cover crop, when applied at the 40 lb/ac rate.

Benefits/recommendations to North Dakota soybean farmers and industry
We have not observed rapid changes in soil properties, including salinity levels, during the two years of this study. We will continue to monitor these fields for another year (or two), and we will detect any soil structural benefits provided by the cereal rye. Based on these results, we recommend considering a higher rate of rye application, especially in areas where corn and soybeans won’t grow. Other plant species that are more salt tolerant (such as wheat, barley, or alfalfa) and low input are also options to consider for salty patches. We are confident that by increasing plant activity in saline soils (using salt-tolerant species), we can improve productivity in those problem areas in the long-run.