A COMPARISON OF 5 SOIL-PHOSPHORUS TESTS FOR 5 CROP SPECIES FOR SOIL PREVIOUSLY FERTILIZED WITH SUPERPHOSPHATE AND ROCK PHOSPHATE

被引：12

作者：

BOLLAND, MDA

KUMAR, V

GILKES, RJ

机构：

[1] Western Australian Department of Agriculture, South Perth, 6151, Western Australia

[2] Soil Science and Plant Nutrition, School of Agriculture, University of Western Australia, Nedlands, 6009, Western Australia

来源：

FERTILIZER RESEARCH | 1994年 / 37卷 / 02期

关键词：

P(I); COLWELL; BRAY-1; CALCIUM ACETATE LACTATE (CAL); AND TRUOG SOIL TEST REAGENTS; TRIPLE SUPERPHOSPHATE; NORTH-CAROLINA ROCK PHOSPHATE; QUEENSLAND ROCK PHOSPHATE; AND CALCIPHOS ROCK PHOSPHATE; LUPINS; (LUPINUS-ANGUSTIFOLIUS); BARLEY; (HORDEUM-VULGARE); OATS(AVENA-SATIVA); TRITICALE (X TRITICOSECALE) AND RAPESEED (BRASSICA-NAPUS) PLANT SPECIES;

D O I：

10.1007/BF00748553

中图分类号：

S15 [土壤学];

学科分类号：

0903 ; 090301 ;

摘要：

The P(i), Colwell, Bray 1, calcium acetate lactate (CAL) and Truog phosphorus (P) soil test reagents were assessed in two field experiments on lateritic soil's in Western Australia that had been fertilized four years previously (1984) with triple superphosphate, North Carolina rock phosphate, Queensland rock phosphate, and in one experiment, Calciphos. Soil samples to measure soil P test were collected February 1987. Soil P test was related to seed (grain) yields measured later in 1987. Different crop species were grown on different sections of the same plot at each site. The species were lupins (Lupinus angustifolius), barley (Hordeum vulgare) and oats (Avena sativa) at one site, and lupins, oats, triticale (x Triticosecale) and rapeseed (Brassica napus) at the other site. For each reagent, the soil P test calibration, which is the relationship between yield, expressed as a percentage of the maximum yield, and soil P test, generally differed for different plant species and for different fertilizer types. Variations in soil P test required to produce half the maximum yield of each species at each site was least for the CAL reagent followed by the Colwell reagent.

引用

页码：125 / 132

页数：8

共 23 条

[11]

Colwell J.D., Fertilizer requirements, Soils: An Australian Viewpoint, pp. 795-815, (1983)

[12]

Dahnke W.C., Olson R.A., Soil test correlation, calibration, and recommendation, Soil Testing and Plant Analysis, pp. 45-71, (1991)

[13]

Fixen P.S., Grove J.H., Testing soils for phosphorus, Soil Testing and Plant Analysis, pp. 141-180, (1991)

[14]

Gilkes R.J., Palmer B., Calcined Christmas Island Cgrade rock phosphate fertilizers: mineralogical properties, reversion and assessment by chemical extraction, Australian Journal of Soil Research, 17, pp. 467-481, (1979)

[15]

Hoare J., Phosphorus raw materials and fertilizers. II. A case history of marginal raw materials, The Role of Phosphorus in Agriculture, pp. 121-128, (1980)

[16]

Kumar V., Gilkes R.J., Bolland M.D.A., The residual value of rock phosphate and superphosphate from field sites assessed by glasshouse bioassay using three plant species with different external P requirements, Fert Res, 32, pp. 195-207, (1992)

[17]

Kumar V., Gilkes R.J., Bolland M.D.A., A comparison of seven soil P tests for plant species with different external P requirements grown on soils containing rock phosphate and superphosphate residues, Fert Res, 33, pp. 35-45, (1992)

[18]

Kumar V., Gilkes R.J., Bolland M.D.A., Forms of phosphate in soils fertilized with rock phosphate and superphosphate as measured by chemical fractionation, Aust J Soil Res, 31, pp. 465-480, (1993)

[19]

Menon R.G., Chien S.H., Hammond L.L., Development and evaluation of the P<sub>i</sub> soil test for plant-available phosphorus, Commun Soil Sci Plant Anal, 21, pp. 1131-1150, (1990)

[20]

Menon R.G., Chien S.H., Abd el Nabi, Comparison of Olsen and P<sub>i</sub> soil tests for evaluating phosphorus bioavailability in a calcareous soil treated with single superphosphate and partially acidulated phosphate rock, Fert Res, 29, pp. 153-158, (1991)

← 1 2 3 →