The effect of soil type and related factors on sugar beet yield

Webster, R.; Hodge, C.A.; Draycott, A. P.; Durrant, M. J.

doi:10.1017/s0021859600034973

Cited by 16 publications

(3 citation statements)

References 21 publications

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“…The increases in dry matter yield in the current study may be partially attributed to recent advances in sugar beet breeding (Loel et al, 2014;Hoffmann and Kenter, 2018) and changes in agronomic practices (Scott and Jaggard, 2000;El-Geddawy et al, 2008;Curcic et al, 2018). Location differences, including soil type (Goodman 1968;Webster et al, 1977) and temperature regime (Milford et al, 1980;Milford et al, 1985;Tsialtas and Maslaris, 2014) may also contribute to yield differences between the two studies.…”

Section: Amount and Rate Of Dry Matter Accumulationmentioning

confidence: 67%

In-season Accumulation and Partitioning of Macronutrients and Micronutrients in Irrigated Sugar Beet Production

De¹,

Moore²,

Mikkelsen³

2019

JSBR

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The yield of sugar beet (Beta vulgaris L.) has almost doubled from 1993 to 2018 in the U.S. There is interest in understanding how increased root yield potential in sugar beet production systems has influenced the in-season nutrient uptake patterns in the plants. In 2014, a study was conducted to evaluate amounts and rates of dry matter, macro-(N, P, K, Ca, Mg, S, and Na) and micro-nutrients (Fe, Mn, Zn, Cu, and B) accumulated by a single herbicide-resistant sugar beet variety (BTS 21RR25) on an irrigated Portneuf silt loam soil of southern Idaho. Nitrogen, P, and K fertilizers were applied at agronomic rates based on soil test values. Whole plants were destructively sampled at 16-d intervals from 9 June (germination) to 30 September 2014 (at harvest), separated into tops and roots, and analyzed for dry matter amount and nutrient concentrations to estimate amounts and rates of nutrient accumulation. Mean root yield was 67.5 tonne ha -1 . Mean total accumulation at harvest was

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Section: Amount and Rate Of Dry Matter Accumulationmentioning

confidence: 67%

In-season Accumulation and Partitioning of Macronutrients and Micronutrients in Irrigated Sugar Beet Production

De¹,

Moore²,

Mikkelsen³

2019

JSBR

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“…The response of sugar beet to fertilizer nitrogen and soil mineral nitrogen was also higher on sandy soils, although to a much lesser extent than in the case of pota toes. Draycott & Durrant (1973) and Webster et al (1977) also found that sugar beet required more nitrogen on sandy soils than on heavier soils. Nitrogen losses as a result of the higher risk of leaching are probably responsible for the somewhat stronger response on sands.…”

Section: Soil Typementioning

confidence: 94%

An analysis of the response of sugar beet and potatoes to fertilizer nitrogen and soil mineral nitrogen.

Neeteson¹,

Zwetsloot²

1989

NJAS

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A statistical analysis was performed to investigate if, and to what extent, the response of sugarbeet and potatoes to fertilizer N depended on the amount of mineral N already present in the soil, soil type, and prior application of organic manures. For this purpose the results of 150 field trials with sugarbeet and 98 with potatoes were used. The analysis was focussed on the within-block stratum of variation in yield, where regression models were fitted to describe the response to N. For both sugarbeet and potatoes the best fit was obtained when not only fertilizer N was taken into account, but also soil mineral N, soil type and prior application of organic manures. The response to fertilizer N was weaker as the amount of soil mineral N was larger. The optimum amount of fertilizer N plus soil mineral N required was larger on sandy soils than on loam and clay soils. The difference was about 20 kg N/ha for sugarbeet and 100 kg N/ha for potatoes. When organic manures were applied prior to the application of fertilizer N, the optimum for both sugarbeet and potatoes was 15-50 N/ha lower than without application of organic manures. (Abstract retrieved from CAB Abstracts by CABI’s permission)

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“…The most widespread classification systems, USDA Soil Taxonomy and the World Reference Base for Soil Resources (WRB) (ROSSITER et al, 2017;ESFANDIARPOUR et al, 2018;SALEHI, 2018) were compared according to parent material (SOROKIN et al, 2021), classification levels, physical and chemical properties, and other features by many researchers. SHRADER et al (1960) WEBSTER et al (1977, ALLGOOD & GRAY (1978), OGUNKULE & BECKETT (1988), BUOL et al (2011 studied the utility of soil classification systems for predicting selected properties and productivity, and our work follows this tradition.…”

Section: Introductionmentioning

confidence: 98%

Class separability, correlation to biomass, parsimony and homogeneity of classes as criteria to decide on the goodness-of-classification when comparing Hungarian soil classification to World Reference Base inside a slightly saline plot

Tóth

Novák

Makó

et al. 2022

Agrokem

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As a means of assisting the selection of promising soil classification systems, a set of criteria were presented and tested. Inside the studied slightly saline plot World Reference Base (WRB) and Hungarian soil classification (HU) were compared at all four levels in terms of class separability, correlation to biomass, parsimony and homogeneity of classes. WRB surpassed HU in terms of the very important homogeneity of classes only, but HU performed better in terms of class separability, correlation to biomass and parsimony of classes. With many possible classification units WRB categorized the soil into a large number of classes, but 67% and 78% of them were single-profile classes at levels 3 and 4, respectively inside the ca 0.9 km2 area.

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The effect of soil type and related factors on sugar beet yield

Cited by 16 publications

References 21 publications

In-season Accumulation and Partitioning of Macronutrients and Micronutrients in Irrigated Sugar Beet Production

In-season Accumulation and Partitioning of Macronutrients and Micronutrients in Irrigated Sugar Beet Production

An analysis of the response of sugar beet and potatoes to fertilizer nitrogen and soil mineral nitrogen.

Class separability, correlation to biomass, parsimony and homogeneity of classes as criteria to decide on the goodness-of-classification when comparing Hungarian soil classification to World Reference Base inside a slightly saline plot

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