Input‐based Stress Management Fails to Increase Soybean Yield in Kentucky

Gregg, Gary L.; Orlowski, John M.; Lee, Chad D.

doi:10.2134/cftm2015.0175

Cited by 11 publications

(11 citation statements)

References 24 publications

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“…Similarly, this study did not observe increased seed yield with the defoliant. These findings support recent studies which also did not observe increased seed yield with defoliant use (Gregg et al, 2015; Orlowski et al, 2016; Mangialardi et al, 2016). Finally, increased seed yield was not observed for N,N’‐diformyl.…”

Section: Discussionsupporting

confidence: 92%

“…Finally, increased seed yield was not observed for N,N’‐diformyl. A lack of seed yield response to N,N’‐diformyl was also reported by Gregg et al (2015).…”

Section: Discussionsupporting

confidence: 61%

“…It has been suggested that lactofen applied at early vegetative growth kills the apical meristem, leading to increased branch node development and subsequently increased seed yield. Early studies examining lactofen for weed control purposes failed to observe seed yield increases for early season lactofen application (Kapusta et al, 1986; Harris et al, 1991; Wichert and Talbert, 1993), while more recent work has shown that lactofen does not affect soybean branching or seed yield (Gregg et al, 2015; Mangialardi et al, 2016; Orlowski et al, 2016).…”

mentioning

confidence: 99%

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High‐Input Management Systems Effect on Soybean Seed Yield, Yield Components, and Economic Break‐Even Probabilities

et al. 2016

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Elevated soybean [Glycine max (L.) Merr.] prices have spurred interest in maximizing soybean seed yield and has led growers to increase the number of inputs in their production systems. However, little information exists about the effects of high‐input management on soybean yield and profitability. The purpose of this study was to investigate the effects of individual inputs, as well as combinations of inputs marketed to protect or increase soybean seed yield, yield components, and economic break‐even probabilities. Studies were established in nine states and three soybean growing regions (North, Central, and South) between 2012 and 2014. In each site‐year both individual inputs and combination high‐input (SOYA) management systems were tested. When averaged between 2012 and 2014, regional results showed no seed yield responses in the South region, but multiple inputs affected seed yield in the North region. In general, the combination SOYA inputs resulted in the greatest yield increases (up to 12%) compared to standard management, but Bayesian economic analysis indicated SOYA had low break‐even probabilities. Foliar insecticide had the greatest break‐even probabilities across all environments, although insect pressure was generally low across all site‐years. Soybean producers in North region are likely to realize a greater response from increased inputs, but producers across all regions should carefully evaluate adding inputs to their soybean management systems and ensure that they continue to follow the principles of integrated pest management.

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Section: Discussionsupporting

confidence: 92%

“…Finally, increased seed yield was not observed for N,N’‐diformyl. A lack of seed yield response to N,N’‐diformyl was also reported by Gregg et al (2015).…”

Section: Discussionsupporting

confidence: 61%

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confidence: 99%

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High‐Input Management Systems Effect on Soybean Seed Yield, Yield Components, and Economic Break‐Even Probabilities

et al. 2016

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“…Henry et al (2011) and Orlowski et al (2016) observed soybean yield increases of 3.5 and 4.6% from pyraclostrobin applications, respectively, in the absence of disease. In contrast, Swoboda and Pedersen (2009), Gregg et al (2015), and Ng et al (2018) found no differences in soybean grain yield from fungicide applications within an environment lacking disease pressure.…”

Section: Utilizing Multiple Inputs To Improve Soybean Productionmentioning

confidence: 76%

“…During this same time, soybean yield and total acres planted in Michigan increased by 8 and 28%, respectively (USDA‐NASS, 2017). Increased prices paid and commercial marketing have encouraged soybean producers to adopt high‐input management in which a greater number of agronomic inputs are applied to maximize yield and profitability (Gregg et al, 2015; Marburger et al, 2016; Orlowski et al, 2016). Additionally, increased adoption of intensive soybean systems combined with the introduction of new genetics have some individuals questioning older (>20 years) university nutrient recommendations (Vitosh et al, 1995; Fulford and Culman, 2018).…”

Section: Utilizing Multiple Inputs To Improve Soybean Productionmentioning

confidence: 99%

Comparing High- and Low-Input Management on Soybean Yield and Profitability in Michigan

Quinn

Steinke

2019

Crop, Forage & Turfgrass Management

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Core Ideas• Both profitability and grain yield should be considered prior to adopting intensive management systems.• No single input positively impacted economic net return.• Traditional management increased economic net return on average $203/acre.• In lieu of broad-scale implementation, practitioners should consider soil physical and chemical properties and the likelihood of grain yield response before determining specific input applications. AbstractIncreased commodity prices, commercial marketing, and convenience have encouraged soybean [Glycine max (L.) Merr.] producers to adopt high-input management systems for maximum grain yield regardless of soil or plant tissue nutrient concentrations, soil physical properties, or disease pressure. A three site-year trial was established in Michigan to investigate soybean grain yield and profitability in response to commonly recommended inputs, including poultry litter (PL), potassium thiosulfate (KTS), foliar micronutrient, and fungicide applications across intensive (i.e., high-input) and traditional (i.e., low-input) management systems. Across all site-years, intensive management did not significantly increase soybean grain yield compared with traditional management. No single input applied significantly increased grain yield as suggested by an absence of visible nutrient deficiencies and minimal foliage disease in either growing season. In addition, traditional management significantly increased producer economic net return by an average of $203/acre. Potassium thiosulfate significantly decreased net return in one of three siteyears while PL significantly decreased net return in all three site-years due to a lack of positive yield response and high individual input costs. Data suggest limited potential for intensive management systems to increase soybean grain yield and profitability without the presence of yield-limiting factors (e.g., disease pressure and nutrient deficiencies). Practitioners should consider site-specific soil properties and the likelihood of a grain yield response prior to broad-scale implementation of soil fertility and plant nutrition programs.

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Field validation of a farmer supplied data approach to close soybean yield gaps in the US North Central region

Andrade

Mourtzinis

Edreira

et al. 2022

Agricultural Systems

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Input‐based Stress Management Fails to Increase Soybean Yield in Kentucky

Cited by 11 publications

References 24 publications

High‐Input Management Systems Effect on Soybean Seed Yield, Yield Components, and Economic Break‐Even Probabilities

High‐Input Management Systems Effect on Soybean Seed Yield, Yield Components, and Economic Break‐Even Probabilities

Comparing High- and Low-Input Management on Soybean Yield and Profitability in Michigan

Field validation of a farmer supplied data approach to close soybean yield gaps in the US North Central region

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