+ Site Statistics
+ Search Articles
+ PDF Full Text Service
How our service works
Request PDF Full Text
+ Follow Us
Follow on Facebook
Follow on Twitter
Follow on LinkedIn
+ Subscribe to Site Feeds
Most Shared
PDF Full Text
+ Translate
+ Recently Requested

Studies on nitrogen dynamics in various organs of the cereal plant during vegetative growth in relation to N fertilization as the basis of a method of plant analysis



Studies on nitrogen dynamics in various organs of the cereal plant during vegetative growth in relation to N fertilization as the basis of a method of plant analysis



Archiv fur Acker und Pflanzenbau und Bodenkunde 16(10): 741-750



In pot and field trials with spring wheat and winter wheat, it was shown that during vegetative growth, and particularly at the start of shooting, the N content decreased in whole above-ground plant parts, in the culms and, to a varying extent, in the leaf blades. For sampling under field conditions it was recommended that up to a plant height of 40 cm the whole plant should be sampled and that the total N content should be determined.

Please choose payment method:






(PDF emailed within 1 workday: $29.90)

Accession: 000205152

Download citation: RISBibTeXText


Related references

Studies on nitrogen dynamics in various organs of the cereal plant during vegetation in dependence on nitrogen fertilization as the basis of a method of plant analysis. Archiv fuer Acker- und Pflanzenbau und Bodenkunde 16(10): 747-749, 1972

Studies on nitrogen dynamics in various organs of the cereal plant during vegetation in dependence on nitrogen fertilization as the basis of a nethod of plant analysis. 1972

Studies on the change of the respiratory system in roots in relation to the growth of plants. 4. Relation between the respiration and the uptake of salts (ammoniacal, nitrogen, nitrate nitrogen and phosphorus) by the nodal roots of cereal crops with the aging of the plant. Soil Sci. Pl. Nutr, 15: 5, 222-5. Bibl. 9, 1969

Physiological studies on the nitrogen nutrition of wheat plant. 1. the effect of different levels of nitrogen supply on the total nitrogen, available ammonia and nitrate nitrogen contents of various plant organs. 1974

Growth rate and plant characters of rice varieties in relation to their response to nitrogen. Early vegetative growth and LAI. International Rice Research Institute Annual Report, 1968. 18-20, 1968

Relational model of the vegetative plant growth in relation to nitrogen nutrition and photosynthesis. Biologische Rundschau: 391-401, 1970

Specific features of branching in poly-gonum in relation to the development and growth of the vegetative and generative organs Plant morphogenesis. Specific features of branching in poly-gonum in relation to the development and growth of the vegetative and generative organs Plant morphogenesis [2] Osobennosti vetvleniya grechikhi v svyazi s razitiem i rostom vegetativnykh i generativnykh organov In: Morfogenez rastenii Plant morphogenesis [2] p 401-406, 1961

Plant analysis as a basis for nitrogen fertilization decisions in winter wheat production. Improved crop quality by nutrient management: 175-177, 1999

Relations between the nitrogen content of cereal plants during vegetative growth and yield as a basis for establishing critical nitrogen concentrations. Archiv fur Acker und Pflanzenbau und Bodenkunde 16(11): 819-826, 1972

Physiological studies on the nitrogen nutrition of wheat plant. II. The effect of different levels of nitrogen supply on the phosphorus content of various plant organs. 1974

Studies on the nitrogen, phosphorus and potassium metabolism of the rice plant. 1. The influence of nitrogen concentration in the culture solution on the growth of the rice plant, especially on the amount and form of nitrogen in the plant.. J. Sci. Soil Man. Japan 21: 23-28, 1950

Studies on the influence of irrigation and nitrogen fertilization on plant moisture, vegetative development and dry matter production as related to cane and sugar yields. Andhra Agric Jour 9(6): 305-314, 1962

Impact of nitrogen and sulfur fertilization on the composition of glucosinolates in relation to sulfur assimilation in different plant organs of broccoli. Journal of Agricultural and Food Chemistry 57(20): 9408-9417, 2009

Dynamics of microbial biomass nitrogen in relation to plant nitrogen uptake during the crop growth period in a dry tropical cropland in Tanzania. Soil Science & Plant Nutrition 56(1): 105-114, 2010

Beans (Phaseolus vulgaris L.) yield in relation to growth habit, plant density and nitrogen fertilization. Annual report 49(49): 253-254, 2006