TISSUE TESTING FOR PHOSPHORUS IN DRIED TOPS AND SEED - EFFECT OF FERTILIZER TYPE, PLANT-SPECIES, AND TIME OF SAMPLING WITHIN A YEAR AND IN DIFFERENT YEARS

被引：11

作者：

BOLLAND, MDA

机构：

[1] Division of Plant Industries, Department of Agriculture, South Perth, 6151, Western Australia, Baron-Hay Court

来源：

FERTILIZER RESEARCH | 1991年 / 28卷 / 02期

关键词：

PLANT SPECIES; ROCK PHOSPHATE; SUPERPHOSPHATE; TIME OF SAMPLING; TISSUE TESTING FOR PHOSPHORUS;

D O I：

10.1007/BF01049745

中图分类号：

S15 [土壤学];

学科分类号：

0903 ; 090301 ;

摘要：

The apparent relationship between yield and phosphorus (P) concentration in dried whole tops or seed was studied in field experiments. Yield and P concentration in tissue were measured at the time of sampling for several harvests within each year to estimate the current P status of the plants. For each sampling time, there were close relationships between yield and P concentration in tissue that gave a good indication of the current P status of the plants. For the same site and plant species, the relationship did not differ for different fertilizer types (superphosphate or rock phosphate) or method of applying the fertilizer. However, the relationship did differ for different harvests within and between years, and differed for different plant species. Tissue test for P values are sometimes used to predict future plant yields. In the experiments, the P concentrations measured in tissue harvested earlier during the growth of the annual plants were related to subsequent plant yields measured later on within each year. The relationship between future plant yields and tissue test for P values differed for different P fertilizer types and for different sampling times, both within and between years. It also differed for different plant species.

引用

页码：147 / 162

页数：16

共 24 条

[1] Official methods of Analysis, (1975)
[2] Bolland M.D.A., Residual value for wheat of phosphorus from Calciphos, Duchess rock phosphate and triple superphosphate on a lateritic soil in south-western Australia, Australian Journal of Experimental Agriculture, 25, pp. 198-208, (1985)
[3] Bolland M.D.A., Responses of serradella and subterranean clover to phosphorus from superphosphate and Duchess rock phosphate, Australian Journal of Experimental Agriculture, 25, pp. 902-912, (1985)
[4] Bolland M.D.A., Effectiveness of topdressed and incorporated superphosphate and Duchess rock phosphate for subterranean clover on sandy soils near Esperance, Western Australia, Australian Journal of Experimental Agriculture, 27, pp. 87-92, (1987)
[5] Bolland M.D.A., Allen D.G., Gilkes R.J., The influence of seasonal conditions, plant species and fertilizer type on the prediction of plant yield using the Colwell bicarbonate soil test for phosphate, Fert Res, 19, pp. 143-158, (1989)
[6] Bolland M.D.A., Baker M.J., Lunt R.J., Effectiveness of superphosphate and crandallite-milliste rock phosphates on a deep, very sandy soil as assessed by plant growth and soil extractable phosphate, Australian Journal of Experimental Agriculture, 27, pp. 647-656, (1987)
[7] Bolland M.D.A., Barrow N.J., Effect of level of application on the relative effectiveness of rock phosphate, Fert Res, 15, pp. 181-192, (1988)
[8] Bolland M.D.A., Gilkes R.J., Reactive rock phosphate fertilizers and soil testing for phosphorus: the effect of particle size of the rock phosphate, Fert Res, 21, pp. 75-93, (1989)
[9] Bolland M.D.A., Gilkes R.J., Rock phosphates are not effective fertilizers in Western Australian soils: a review of one hundred years of research, Fert Res, 22, pp. 79-96, (1990)
[10] Bolland M.D.A., Weatherley A.J., Gilkes R.J., Bowden J.W., Granular reactive apatite rock phosphate is not an effective phosphorus fertilizer in the short term on lateritic soils in south-western Australia, Australian Journal of Experimental Agriculture, 26, pp. 217-225, (1986)

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