NITROGEN-FERTILIZATION OF DRY-SEEDED RICE IN SOUTH-EAST AUSTRALIA

被引：8

作者：

HUMPHREYS, E

CHALK, PM

MUIRHEAD, WA

WHITE, RJG

机构：

[1] CSIRO Division of Water Resources, Griffith, 2680, NSW

[2] School of Agriculture and Forestry, University of Melbourne, Parkville, 3052, VIC

来源：

FERTILIZER RESEARCH | 1992年 / 31卷 / 02期

关键词：

UREA; SCU; IBDU; SUPERGRANULE; DCD; PPD; NITRIFICATION INHIBITOR; UREASE INHIBITOR; CALROSE; PELDE; BANDED; BROADCAST;

D O I：

10.1007/BF01063296

中图分类号：

S15 [土壤学];

学科分类号：

0903 ; 090301 ;

摘要：

Dry-seeded rice is often fertilized by broadcasting prilled urea on the soil surface shortly before permanent flood commences. Although this method is more efficient than nitrogen application at other stages, nitrogen loss is still substantial (up to 40%). Therefore we compared the efficiency of broadcast urea prills with various forms of.urea banded below the soil surface shortly before permanent flood. Banding urea prills increased plant recovery of applied N-15 from 37% (broadcast) to 46% (banded), while recovery with point-placed urea supergranules was even higher (49%). Plant recovery from banded urea treated with DCD (dicyandiamide) or PPD (phenylphosphorodiamidate) was not higher than from banded urea prills. Loss of applied N-15 averaged 25%, with no significant differences between treatments. The increased plant nitrogen recovery with banding was associated with reduced immobilization of N-15 in the soil, rather than reduced losses. The increase in plant nitrogen recovery was relatively small compared with total nitrogen uptake by the plants, and consequently there was no significant improvement in yield or agronomic efficiency. There are practical difficulties associated with banding before permanent flood. When the soil is too wet, unacceptable amounts of soil disturbance and plant damage occur. On the other hand, when the soil is dry and cracked, the depth of banding is no greater than the depth to which broadcast urea prills, are transported by the irrigation water at the commencement of permanent flood.

引用

页码：221 / 234

页数：14

共 32 条

[1]

Bacon P.E., The effect of nitrogen application time on Calrose rice growth and yield in south-eastern Australia, Australian Journal of Experimental Agriculture, 25, pp. 183-190, (1985)

[2]

Bacon P.E., Heenan D.P., Nitrogen budgets for intensive rice growing in Southern Australia, Efficiency of Nitrogen Fertilizers for Rice, pp. 89-95, (1987)

[3]

Boerema E.B., Placement of nitrogen fertilizer for rice in Southern Australia, Int Rice Comm Newsl, 16, pp. 17-24, (1967)

[4]

Boerema E.B., Growth and yield of rice in the Murrumbidgee Valley as influenced by climate, method of sowing, plant density and nitrogen nutrition, (1974)

[5]

Cao Z.H., De Datta S.K., Fillery I.R.P., Effect of placement methods on floodwater properties and recovery of applied nitrogen (<sup>15</sup>N-labeled urea) in wetland rice, Soil Sci Soc Am J, 48, pp. 196-203, (1984)

[6]

Humphreys E., Muirhead W.A., Melhuish F.M., White R.J.G., Effects of time of urea application on combine-sown Calrose rice in south-east Australia. I. Crop response and N uptake, Australian Journal of Agricultural Research, 38, pp. 101-112, (1987)

[7]

Humphreys E., Muirhead W.A., Melhuish F.M., White R.J.G., Chalk P.M., Douglas L.A., Effects of time of urea application on combine-sown Calrose rice in south-east Australia. II. Mineral nitrogen transformations in the soil-water system, Australian Journal of Agricultural Research, 38, pp. 113-127, (1987)

[8]

Humphreys E., Chalk P.M., Muirhead W.A., Melhuish F.M., White R.J.G., Effects of time of urea application on combine-sown Calrose rice in south-east Australia. III. Fertilizer nitrogen recovery, efficiency of fertilization and soil nitrogen supply, Australian Journal of Agricultural Research, 38, pp. 129-138, (1987)

[9]

Humphreys E., Freney J.R., Muirhead W.A., Denmead O.T., Simpson J.R., Leuning R., Trevitt A.C.F., Obcemea W.N., Wetselaar R., Cai, Loss of ammonia after application of urea at different times to dry-seeded, irrigated rice, Fert Res, 16, pp. 47-57, (1988)

[10]

Humphreys E., Melhuish F.M., Muirhead W.A., White R.J.G., Blackwell J., Chalk P.M., The growth and nitrogen economy of rice under sprinkler and flood irrigation in south-east Australia. III.<sup>15</sup>N balance, Irrig Sci, 10, pp. 281-292, (1989)

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