Long‐term Nitrogen Rates and Sources Influence Sugarbeet Yield and Quality<sup>1</sup>

Halvorson, A. D.; Hartman, G. P.

doi:10.2134/agronj1975.00021962006700030027x

Cited by 32 publications

(23 citation statements)

References 7 publications

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“…The suction lysimeters were installed on June 13, 2013 (15 d after treatment application) and were allowed to equilibrate for a week such that the first water sample collected (22 d after treatment application) was discarded, and not used for data analysis. Then onwards sampling was conducted for a total of 9 times during the growing season (26,29,33,36,40,47, 54, 62, 71 d) after treatment application). Using a hand pump, a vacuum of −60 kPa was applied to the tubes and maintained for a period until the time of water sampling.…”

Section: No − Concentrationmentioning

confidence: 99%

Tile Drainage and Nitrogen Fertilizer Management Influences on Nitrogen Availability, Losses, and Crop Yields

Awale

Chatterjee²,

Kandel³

et al. 2015

OJSS

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Installing tile drainage facilitates early planting and field operations, and tiling has tremendously increased in the Red River Valley (RRV) due to recent wet cycles. This experiment studied tile drainage and N-fertilizer management effects on N availability, N losses, and yields of corn (Zea mays L.) and sugarbeet (Beta vulgaris L.) in a naturally poorly-drained Fargo soil during the 2012-2013 growing seasons. Regardless of drainage, applying 146 kg N ha −1 with nitrapyrin resulted similar soil N availability to 180 kg N ha −1 without nitrapyrin in sugarbeet in both years. In corn, application of nitrapyrin resulted either higher or similar soil N levels to split-N application. In 2013, application of urea alone increased soil N availability during the early corn growing season under the undrained condition, whereas nitrapyrin delayed N release in the tile-drained soils. Corn and sugarbeet yields averaged 7.4 and 47.0 Mg•ha −1 in 2012, and averaged 8.3 and 38.3 Mg•ha −1 in 2013, respectively, with no significant differences among N-sources. However, corn yield increased on an average by 27.6% with N-fertilizer application over unfertilized control in 2013. In 2012, sugarbeet root impurity (% sucrose loss to molasses) increased by 13.8% and 17.2% with 146 kg N ha −1 plus nitrapyrin and 180 kg N ha −1 treatments, respectively, compared to unfertilized control. Besides, higher N rates were usually associated with greater daily soil N2O emissions, with the maximum flux of 105 g N2O-N ha −1 •d −1 recorded under corn. Addition of fertilizer-N increased NH3 volatilization losses up to 1.9% and 0.5% of the applied-N in corn and sugarbeet, respectively. Tile drainage influenced soil N availability more than crop yield during two years of study. Nitrogen management can have pronounced effects on N availability and losses. A long-term study is needed to investigate the fertilizer-N use efficiency of crops under tile drainage condition. R. Awale et al.

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Section: No − Concentrationmentioning

confidence: 99%

Tile Drainage and Nitrogen Fertilizer Management Influences on Nitrogen Availability, Losses, and Crop Yields

Awale

Chatterjee²,

Kandel³

et al. 2015

OJSS

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“…(1,14,23)], timing (8,13,17), and placement (24,25), information is needed about interactions among relatively new enhanced-efficiency fertilizer N sources and other factors, such as timing and rate. While results from studies on use of new enhanced-efficiency fertilizers on sugarbeet are scarce, research on more traditional slow-release materials like manure (12), biomass (15), and cover crops (5) show promising results for these N sources.…”

Section: Introductionmentioning

confidence: 99%

Nitrogen Source, Timing, and Rate Alternatives for Furrow-irrigated Sugarbeet

Norton¹

2011

Crop Management

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Furrow irrigation poses particular challenges for optimizing sugarbeet (Beta vulgaris) nitrogen uptake. The purpose of this research was to evaluate six N sources available to sugarbeet producers, including three dry products (urea and two enhanced‐efficiency urea products) and three fluid products [urea‐ammonium‐nitrate (UAN)‐32 and two enhanced‐efficiency fluid products]. Products were evaluated at two application timings (split preplant and side dress, and all preplant) and two rates (typical grower rate and soil‐test‐based rate). Results show subtle but possibly economically important differences in sugar yield, with knife‐injected fluid UAN‐based products performing best. These fluid N sources performed as well at soil‐test‐based N rates as at the higher N rates.

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“…Compared to other crops, sugarbeets require a relatively narrow range of N supply to optimize yield, quality and economic return. Many research studies have been conducted to evaluate N management in sugarbeet production across the U.S. (Adams et al, 1983;Anderson and Petersen, 1988;Carter et al, 1974 andHartman, 1975 and1980;Halvorson et al, 1978;Hills and Ulrich, 1976;Hills et al, 1978 andLamb and Moraghan, 1993;Stark et al, 1997;and Stevens et al, 2007). In Idaho, the Cooperative Fertilizer Evaluation Program (CFEP) was conducted from 1993 to 1997 to update fertilizer recommendations for sugarbeets using 37 on-farm trials (Stark et al, 1997).…”

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confidence: 99%