Nitrogen Application To Soybean

Feb 14, 2014

Laura Lindsey

After talking with many farmers throughout Ohio during this year’s Extension meetings, one common question keeps popping up. “What about nitrogen application to soybean?” Yes, soybean plants have high nitrogen requirements due to the high protein content of grain. On average, approximately 4 lb N is removed per bushel of grain. (Corn only removes approximately 1 lb N per bushel of grain.) Soybean nitrogen requirements are met through both nitrogen-fixing bacteria (Bradyrhizobia) and residual/mineralized soil nitrogen.

With higher soybean yield potential, do we need to use nitrogen fertilizer on our soybeans? In most situations, applying nitrogen to soybean has no yield benefit. Nitrogen application may be beneficial in soils with low residual nitrogen and/or low soil organic matter.

In 2013, we examined various nitrogen sources (polymer-coated urea, urea, and sulfur-coated urea), nitrogen rates (ranging from 30-400 lb N/ac), nitrogen placement (2-inch by 2-inch band and surface-applied), and nitrogen application timing (at planting and R3) at ten locations throughout Ohio. Across all ten locations, there was no yield benefit to any nitrogen source, rate, placement, or application timing. Our soybean yield averaged 43 to 75 bu/ac depending on location. This research will be repeated in 2014.

One way to maximize nitrogen uptake by soybean plants without applying nitrogen fertilizer is by adjusting soil pH. Nodulation of soybean roots is adversely affected when soil pH drops below 6.0. In 2013, we collected soil samples from 65 farms throughout Ohio. Overall, 29% of the samples we collected had soil pH <6.0. Low soil pH occurred primarily east of I-71 (north eastern and eastern Ohio) where soils do not have as much lime content. However, there were a few areas in northwestern and western Ohio that had soil pH <6.0. We suggest taking a soil sample and adjusting soil pH to be >6.0 to maximize nitrogen uptake by soybean.

Source : osu.edu

Video: Seeing the Whole Season: How Continuous Crop Modeling Is Changing Breeding

Plant breeding has long been shaped by snapshots. A walk through a plot. A single set of notes. A yield check at the end of the season. But crops do not grow in moments. They change every day.

In this conversation, Gary Nijak of AerialPLOT explains how continuous crop modeling is changing the way breeders see, measure, and select plants by capturing growth, stress, and recovery across the entire season, not just at isolated points in time.

Nijak breaks down why point-in-time observations can miss critical performance signals, how repeated, season-long data collection removes the human bottleneck in breeding, and what becomes possible when every plot is treated as a living data set. He also explores how continuous modeling allows breeding programs to move beyond vague descriptors and toward measurable, repeatable insights that connect directly to on-farm outcomes.

This conversation explores:

• What continuous crop modeling is and how it works

• Why traditional field observations fall short over a full growing season

• How scale and repeated measurement change breeding decisions

• What “digital twins” of plots mean for selection and performance

• Why data, not hardware, is driving the next shift in breeding innovation As data-driven breeding moves from research into real-world programs, this discussion offers a clear look at how seeing the whole season is reshaping value for breeders, seed companies, and farmers, and why this may be only the beginning.