INFLUENCE OF PLANT NUTRIENT CONCENTRATION ON GROWTH-RATE - USE OF A NUTRIENT INTERRUPTION TECHNIQUE TO DETERMINE CRITICAL CONCENTRATIONS O N, P AND K IN YOUNG PLANTS

被引:57
作者
BURNS, IG
机构
[1] Horticulture Research International, Wellesbourne, CV35 9EF, Warwick
关键词
CRITICAL CONCENTRATION; DEFICIENCY; DIAGNOSIS; GROWTH RATE; LETTUCE; LUXURY CONSUMPTION; NITROGEN; NITRATE; NUTRIENT REQUIREMENT; PETIOLE SAP; PHOSPHORUS; PHOSPHATE; POTASSIUM;
D O I
10.1007/BF00010968
中图分类号
S3 [农学(农艺学)];
学科分类号
0901 ;
摘要
A method is described for determining the way in which growth rate varies with plant nutrient concentration using a simple nutrient interruption technique incorporating only 2 treatments. The method involves measuring the changes in growth and nutrient composition of otherwise well-nourished plants after the supply of one particular nutrient has been withheld. Critical concentrations are estimated from the relationship between the growth rate (expressed as a fraction of that for control plants of the same size which remained well-nourished throughout) and the concentration of the growth-limiting nutrient in the plants as deficiency developed. Trials of the method using young lettuce plants showed that shoot growth rate was directly proportional to total N (nitrate plus organic N) concentration, and linearly or near-linearly related to K and P concentration over a wide range; the corresponding relationship for nitrate was strongly curvi-linear. Critical concentrations (corresponding to a 10% reduction in growth rate) determined from these results were similar to critical values calculated from models derived from field data, but were generally higher than published estimates of critical concentration (based on reductions in shoot weight) for plants of a similar size. Reasons for these discrepancies are discussed. Nitrate, phosphate or potassium concentrations in sap from individual leaf petioles were highly sensitive to changes in shoot growth rate as deficiency developed, with the slope of the relationships varying with leaf position, due to differences both in their initial concentration and in the rates at which they were utilized in individual leaves. Each nutrient was always depleted more quickly in younger leaves than in older ones, providing earlier evidence of deficiency for diagnostic purposes. Although the plants were capable of accumulating nitrate, phosphate and potassium well in excess of that needed for optimum dry matter production during periods of adequate supply, the rate of mobilization of these reserves was insufficient to prevent reductions in growth rate as the plants became deficient. This brings into question the validity of the conventional concept that luxury consumption provides a store of nutrients which are freely available for use in times of shortage. The implications of these results for the use of plant analysis for assessing plant nutrient status are discussed.
引用
收藏
页码:221 / 233
页数:13
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