soybean field
YIELD GAP DRIVERS: Average soybean yield in the north-central region from 2010 to 2014 was 43 bushels per acre, yet some producers reached soybean yields over 80 bushels per acre.

Nebraska leads project identifying yield gaps in soybeans

Research led by UNL agronomy professor shows planting date, tillage and in-season foliar fungicide and insecticide applications as key drivers in yield variation in soybeans.

A new paper published in Agricultural and Forest Meteorology details the University of Nebraska–Lincoln's efforts to identify causes for yield gaps in soybean production systems in the north-central region of the U.S.

Average soybean yield in the north-central region from 2010 to 2014 was 43 bushels per acre, yet some producers reached soybean yields over 80 bushels per acre.

The three-year study, led by Patricio Grassini, assistant professor in the agronomy and horticulture department, and Shawn Conley, associate professor of agronomy at the University of Wisconsin, sought to identify causes of yield gaps over large agricultural areas and diverse climates and soils. Faculty from 10 land-grant universities looked at rain-fed and irrigated soybeans in the north-central U.S., which accounts for roughly one-third of worldwide soybean production.

Grassini and his colleagues explored the use of producer survey data as an alternative approach to traditional field research to identify management practices that explain highest soybean yields for different combinations of climates and soils. To obtain real-world producer data, the team relied on Nebraska's natural resources districts and 20 Nebraska Extension educators. In total, 3,568 soybean fields across 10 states were surveyed for this study, covering about 300,000 acres.

"Regional soybean yield was on average 22% and 13% below the yield potential estimated for rain-fed and irrigated soybean," says Grassini. "Sowing date, tillage and in-season foliar fungicide and/or insecticide were identified as explanatory causes for yield variation."

To reach these conclusions, researchers combined producer survey data with a spatial framework to measure yield gaps, identify management factors explaining the gaps and understand the biophysical drivers influencing yield responses to field management. According to Grassini, earlier planting date was the most consistent management factor leading to yield increases.

Juan Ignacio Rattalino, research assistant professor at Nebraska who authored the paper, sees this study as a proof of concept about the power of using producer data to identify opportunities for improving farm management and profit.

"There are a lot of studies about yield response to planting date, but this is the first one to explain why such response varies across years and regions. We found that the yield benefit derived from earlier planting depends on the degree of water limitation during the period of pod setting in soybean," Rattalino says.

The study was supported by $1.4 million from the North Central Soybean Research Program, with complementary funding from the Nebraska Soybean Board and Wisconsin Soybean Marketing Board. Other institutions involved include Iowa State University, Kansas State University, Michigan State University, North Dakota State University, Ohio State University, Purdue University, University of Illinois-Champaign, University of Minnesota and University of Wisconsin,

Read the paper at ScienceDirect.

Source: IANR News


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