EFFECTIVENESS OF DIFFERENT PHOSPHATIC FERTILIZERS MEASURED USING LABELED SUPERPHOSPHATE AND PHOSPHORUS TAKEN UP BY PLANTS

被引:8
作者
BEZZOLA, LC
LOPEZ, SC
BARBARO, NO
机构
[1] Facultad de Ciencias Agrarias, U.C.A., Buenos Aires, 1426
[2] División Aplicaciones Agropecuarias. C.N.E.A., Buenos Aires, 1329
来源
FERTILIZER RESEARCH | 1994年 / 39卷 / 01期
关键词
COMPOST; DIAMMONIUM PHOSPHATE; PHOSPHORUS AVAILABILITY; FERTILIZER EFFECTIVENESS; P-32; ROCK PHOSPHATE; SUPERPHOSPHATE; WHEAT;
D O I
10.1007/BF00750154
中图分类号
S15 [土壤学];
学科分类号
0903 ; 090301 ;
摘要
The agronomic effectiveness of three P fertilizers (diamonium phosphate, rock phosphate and compost) was studied in a greenhouse experiment using wheat. A radioisotopic method, using triple superphosphate labelled with P-32, was used to evaluate the P in dried tops that was derived from i) the soil, ii) labelled superphosphate and iii) the fertilizer being studied. The ratio between P uptake from each fertilizer and P uptake from the soil was used to compare the effectiveness of the different fertilizers. P derived from diammonium phosphate was greater than P derived from the soil, except in one soil. P derived from rock phosphate was always lower than P derived from the soil. The effectiveness of compost depended on soil type. Compost can produce two kind of effects: i) a direct P contribution and ii) an indirect effect improving P uptake from the soil. The radioisotopic method can be used to study the effectiveness of fertilizers even when there are no differences in yield.
引用
收藏
页码:31 / 37
页数:7
相关论文
共 17 条
[1]  
Al-Showk A.M., Westerman R.L., Weeks D.L., Influence of P source and rate on soil pH, extractable phosphorous and DTPA-extractable micronutrients, Soil Science, 144, pp. 36-42, (1987)
[2]  
Official methods of analysis, (1975)
[3]  
Bezzola L.C., Lopez S.C., Barbaro N.O., Comparación de métodos radioisotópicos para la evaluación de fertilizantes fosfatados, Cienc Suelo, 10, 1-2, pp. 68-73, (1992)
[4]  
Bolland M.D.A., Gilkes R.J., How effective are Calciphos and Phospal?, Fert Res, 12, pp. 229-239, (1987)
[5]  
Bolland M.D.A., Gilkes R.J., Rock phosphate are not effective fertilizers in Western Australian soils: a review of one hundred years of research, Fert Res, 22, pp. 79-95, (1990)
[6]  
Bouldin D.R., Black C.A., Fertilizer evaluation: IV. Use of P<sup>32</sup>-labeled fertilizers, Soil Science Society of America Journal, 24, pp. 491-496, (1960)
[7]  
Chien S.H., Ada F., Khasawneh F.E., Henao J., Effects of combinations of triple superphosphate and reactive phosphate rock on yield and phosphorus uptake by corn, Soil Sci Soc Am J, 51, pp. 1656-1658, (1987)
[8]  
Ghelfi R.A., Quitegui M.C., Bujan A., Métodos radioisotópicos para la evaluación de la eficiencia de fertilizantes fosfóricos no marcados, Cienc Suelo, 2, pp. 107-113, (1984)
[9]  
Gupta A.P., Khanna S.S., Tomar N.K., Effect of sodicity on the utilization of phosphatic fertilizers by wheat, Soil Science, 139, pp. 47-52, (1985)
[10]  
Hammond L.L., Chien S.H., Polo J.R., Phosphorus availability from partial acidulation of two phosphate rocks, Fert Res, 1, pp. 37-49, (1980)
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