The Derivation of the Nitrogen of Crop Plants, With Special Reference to Associated Growth

Nicol, Hugh

doi:10.1111/j.1469-185x.1934.tb01253.x

Cited by 27 publications

(9 citation statements)

References 41 publications

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“…This nitrogen, which was largely in the form of free ammo-acids (9), could be profitably utilised by not more than two oat plants grown in association with each pea. See review by Nicol (16).…”

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The effect of sodium nitrate on the growth and nitrogen content of a lucerne and grass mixture

Thornton

Nicol

1934

J. Agric. Sci.

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IX. Summary and Abstract1. Inoculated lucerne was grown alone and in association with Italian rye grass, in pots of sand watered with food solution and given three different doses of sodium nitrate.2. The dose of nitrate did not affect the dry weight or nitrogen content of lucerne when grown alone, save that the highest dose checked the root growth somewhat.3. When lucerne and Italian rye grass were grown in association, the growth of the grass varied directly with the dose of nitrate applied, and the growth of the lucerne varied inversely to it. Checking of the lucerne growth was probably due to root competition with the grass.

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The effect of sodium nitrate on the growth and nitrogen content of a lucerne and grass mixture

Thornton

Nicol

1934

J. Agric. Sci.

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“…The nutrients nitrogen, phosphorus and potassium were each supplied at three different levels in experiments of 3 3 factorial design. The levels of supply of the solution were chosen to cover much of the range of concentrations of nitrogen, phosphorus and potassium such as are reported to occur in soil solution (Burd & Martin, 1924;Nicol, 1934). Since diurnal, weekly or seasonal changes in soil solution are not well known the selected levels must of course be tentative, and their value is doubtful unless it can be shown that they give results which assist the interpretation of field trials.…”

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The nutrition of maize in sand culture I. The balance of nutrition with particular reference to the level of supply of nitrogen and phosphorus

Glover¹

1953

J. Agric. Sci.

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With Two Text-figures)As part of the overall programme of research directed towards an understanding of fertilizer needs of crop plants in East Africa a study of the nutrition of maize in sand culture has been made.The purpose of the work was to study growth and yield in relation to changes in the proportion and concentration of the major nutrients, nitrogen, phosphorus and potassium, and if possible to relate the results to the field behaviour of the crop in fertilizer trials conducted by another section of this organization. Simultaneously studies of the uptake of nitrogen and phosphorus were also undertaken. These latter are discussed in the second paper of this series.This first paper deals only with growth, yield and nutrient content in relation to the nitrogenphosphorus balance, though the methods now to be described were common to all experiments. MATERIAL AND METHODSThe experiments were conducted in a pot-culture house with a glass roof and no sides except for a retaining wall some 3£ ft. high, so that air circulated freely through the building.The containers were hardwood boxes whose walls were 1 in. thick. They were supported on legs which permitted the collection of the displaced nutrient solution from a drainage hole in the bottom. They were sealed with beeswax, which was first ironed into the wood with a hot iron, then a thick layer of beeswax was applied to the walls and floor. Tests showed that this coating did not deteriorate over long periods, and that nitrogen, phosphorus or potassium did not accumulate in it or pass through into the wood of the walls.Different sizes of boxes were used depending on whether the experiments were designed to run only for a few weeks or right through to maturity. The boxes used in the 'uptake' experiments were 18 x 12 x 12 in., and each contained two plants.An acid-washed quartz sand was used in all experiments, and its particle size was such that it held sufficient water to provide adequate supplies for transpiration between renewals of the nutrient solutions.The nutrient solutions were applied every alternate day, and their volume was such as to saturate the sand and completely displace the previous application. This complete displacement was essential for the measurement of uptake of the nutrients from the solutions.A series of preliminary experiments showed an unexplainable, high, apparent consumption of phosphorus. This was found to be due to the fixation of phosphorus by traces of iron in the sand which were difficult to remove even with repeated acid washings. An attempt was made to saturate the fixing capacity of the iron by continuous exposure of the washed sand to a solution containing phosphorus for several weeks. Although apparent saturation was attained, as shown by the nonremoval of phosphorus from fresh solutions which were allowed to percolate through the bulk sand, fixation continued when the bulk sand was distributed to the containers in preparation for the experiments. As a result blanks were run throughout the experiments to determine the amount ...

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“…There is some evidence that nonlegumes grown in association with legumes may benefit from the nitrogen-fixing activities of the latter (104,152), although all investigators are not wholly in agreement on this matter.…”

Section: Legume Inoculation For Better Soil Managementmentioning

confidence: 99%

Potential for Increasing Food Production Through Microbiology1

Dawson¹

1965

Bacteriological Reviews

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The Derivation of the Nitrogen of Crop Plants, With Special Reference to Associated Growth

Cited by 27 publications

References 41 publications

The effect of sodium nitrate on the growth and nitrogen content of a lucerne and grass mixture

The effect of sodium nitrate on the growth and nitrogen content of a lucerne and grass mixture

The nutrition of maize in sand culture I. The balance of nutrition with particular reference to the level of supply of nitrogen and phosphorus

Potential for Increasing Food Production Through Microbiology1

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