The response of sugar beet to fertilizer and the effect of farmyard manure

Adams, S. N.

doi:10.1017/s0021859600010170

Cited by 17 publications

(20 citation statements)

References 4 publications

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“…The results from the two groups of field experiments confirmed earlier findings of Boyd, Garner & Haines (1957) that sugar beet was not usually responsive to P fertilizer (Adams, 1961(Adams, , 1962. No more recent tests have been made on mineral soils except where farmyard manure was also given (Draycott, 1969); these experiments are not included here as the farmyard manure supplied a variable amount of P. The general mean responses of sugar beet to 126 kg/ha P 2 O 6 (P 2 -P o ) were only 143 kg/ha sugar in group 1 and 198 kg/ha sugar in group 2, respectively about 2 and 3£% of their mean yields (Table 1); the value of these responses at 1970 prices did not exceed the cost of the fertilizer.…”

Section: Mean Responses To Phosphate Fertilizersupporting

confidence: 87%

“…Field experiments Group 1. There were 55 experiments testing O (P o ), 63 (P x ) and 126 kg/ha P 2 O 6 (P 2 ) (0, 0-5 and 1-0 cwt/acre (P 2 O 6 ) as superphosphate factorially •with three levels of nitrogen and potash (Adams, 1962). The interactions between the fertilizers were negligible so we used the mean response to phosphate averaged over all nitrogen and potash dressings.…”

Section: Methodsmentioning

confidence: 99%

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The relationship between soil phosphorus and response by sugar beet to phosphate fertilizer on mineral soils

1971

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Results of two groups of experiments testing phosphate fertilizer for sugar beet were re-examined; there were 53 experiments made between 1957 and 1960 in group 1 and 25 experiments between 1957 and 1959 in group 2. The mean response of total sugar to 126 kg/ha P a O 6 was only 160 kg/ha but on a few fields response exceeded 1000 kg/ha. Response seemed to be greater in 1958 than in the other years, but between-site variance accounted for most of the difference from year to year.Stored soil samples were analysed for phosphorus by four methods; the results were compared and related to the yield response to phosphate fertilizer. After allowing for experimental error, the percentages of the between-sites variance of the responses accounted for by log (soil P) were (group 1 first): sodium bicarbonate, 60 and 62 %; anion resin, 52 and 30%; ammonium acetate/acetic acid, 52 and 0%; and calcium chloride, 42 and 2 %. When soil pH was included in the regression equation, prediction of response by anion resin much improved and equalled that of sodium bicarbonate. Ammonium acetate/acetic acid was ineffective on soils with much free calcium carbonate.As two-thirds of the soils had sodium bicarbonate-soluble phosphorus concentrations between 15 and 45 ppm P with mean response 65 kg/ha sugar, there is only limited scope for increasing the profitability of the crop by improving P manuring. However, more P fertilizer can be recommended for the few soils with =S 10 ppm P and P fertilizer can be withheld from fields with more than 45 ppm. The dressings we recommend are 180, 120, 60, 30 and 0 kg/ha P 2 O 5 (approximately 1-5, 1-0, 0-5, 0-25 and 0 cwt/acre P 2 O 6 ) on soils with < 10, 11-15, 16-25, 26-45 and ^45 ppm sodium bicarbonatesoluble P respectively.

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Section: Mean Responses To Phosphate Fertilizersupporting

confidence: 87%

Section: Methodsmentioning

confidence: 99%

The relationship between soil phosphorus and response by sugar beet to phosphate fertilizer on mineral soils

1971

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“…1). The same conclusion was drawn by ADAMS (1962) and DRAY-COTT (1969) in England and DE HAAN (1979) in the Netherlands.…”

Section: Growth Of Sugar Beetsupporting

confidence: 74%

Effect of Long‐term Application of Farmyard Manure on Growth and Quality of Sugar Beet

Maidl¹,

Fischbeck²

1989

J Agronomy Crop Science

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Field trials were conducted for two years on two farms which differed in long-term application of pig slurry in order to study the effects of long-term organic manuring, timing of slurry application (no slurry, sluny autumn, slurry spring) and additional doses of mineral N-fertilizer (0, 80, 160, 240 kg N/ha) on growth and quality of sugar beet.The results can he summarized as follows:1. The effect of slurry application on growth of sugar beets varied markedly with the long-term differences in farm management. On the "arable farm" yield of beet roots increased substantially after slurry application and could not be replaced by higher doses of mineral N fertilizer. It is concluded therefore that "special effects" of farmyard manure are involved. On the "livestock farm", however, highest beet yields were obtained on plots without slurry. Additionally slurry application caused a significant decrease in beet yields.2. Sugar beets without slurry treatment always developed higher sugar contents and lower concentrations of alpha-amino-N, sodium and potassium as compared to beets from plots with slurry application.3. Despite the decline in sugar content, sugar yield greatly increased by slurry application on the "arable farm". The average increase in sugar yield was lOdt/ha (= 8 %) with slurry application in autumn and amounted to 16dt/ha (= 14%) with spring application. On the livestock farm however, additional applications of slurry caused a decline in sugar yields in both years because of lower sugar contents and decrease in beet yields.4. The utilization rate of slurr)'-N, depending mainly on time of application, annual rainfall and soil N mineralization, varied from 6-41 %. On the "livestock farm" the utilization of slurry-N was only half of the rate obtained on the "arable farm". 5. The application of small doses of slurry may cause a significant yield increase on farms without or only less livestock, while on farms with intensive livestock production continous slurry application needs to be considered as an expensive form of waste disposal. Therefore farms with high livestock density are advised to sell slurry to neighbouring farms without or only low animal production at a fair price for their mutual advantage.

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“…Since then year1 application of between the plots have decreased. Field experiments on the Newport series (Adams, 1962;Boyd and Dermott, 1964) indicate a lower-than-average tendency to 'fix' phosphate in unavailable forms. and Burnham, 1966).…”

Section: Newport Seriesmentioning

confidence: 99%

THE EFFECT OF _pH ON PHOSPHATE ADSORPTION IN SOILS

López‐Hernández

Burnham

1974

Journal of Soil Science

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The correlation between pH and phosphate retention was not significant for a group of mixed soils, but a group of pedologically similar soils differing mainly in p H gave a highly significant (P = 0.001) decrease in retention with increasing pH. A similar decrease occurred for field plots of one soil adjusted to differing pH values many years ago, but liming soil from the most acid of these in the laboratory did not have the same effect in reducing phosphate retention as for the limed field plot at a similar pH. A large decrease in exchangeable A1 and acetateextractable A1 with increasing pH accompanied to some extent the decrease in phosphate retention.

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The response of sugar beet to fertilizer and the effect of farmyard manure

Cited by 17 publications

References 4 publications

The relationship between soil phosphorus and response by sugar beet to phosphate fertilizer on mineral soils

The relationship between soil phosphorus and response by sugar beet to phosphate fertilizer on mineral soils

Effect of Long‐term Application of Farmyard Manure on Growth and Quality of Sugar Beet

THE EFFECT OF _pH ON PHOSPHATE ADSORPTION IN SOILS

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The response of sugar beet to fertilizer and the effect of farmyard manure

Cited by 17 publications

References 4 publications

The relationship between soil phosphorus and response by sugar beet to phosphate fertilizer on mineral soils

The relationship between soil phosphorus and response by sugar beet to phosphate fertilizer on mineral soils

Effect of Long‐term Application of Farmyard Manure on Growth and Quality of Sugar Beet

THE EFFECT OF pH ON PHOSPHATE ADSORPTION IN SOILS

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THE EFFECT OF _pH ON PHOSPHATE ADSORPTION IN SOILS