NITROGEN AND PHOSPHORUS TRANSFORMATIONS AS AFFECTED BY CROP RESIDUE MANAGEMENT-PRACTICES AND THEIR INFLUENCE ON CROP YIELD

被引:63
作者
BERI, V
SIDHU, BS
BAHL, GS
BHAT, AK
机构
[1] Department of Soils, Punjab Agricultural University, Ludhiana
来源
SOIL USE AND MANAGEMENT | 1995年 / 11卷 / 02期
关键词
NITROGEN; PHOSPHORUS; TRANSFORMATION; CROP RESIDUES; SOIL; WHEAT; RICE;
D O I
10.1111/j.1475-2743.1995.tb00496.x
中图分类号
S15 [土壤学];
学科分类号
0903 ; 090301 ;
摘要
A 15-year field experiment investigated crop residue management practices, with crop residue removal, burning and incorporation as the main treatments and nitrogen levels as subtreatments. The effects of crop residue management practices on rice and wheat yield were measured for 11 years. Surface soil samples were taken to study nitrogen and phosphorus immobilization/adsorption and their release under laboratory conditions. The field experiment indicated that residue burning and residue removal resulted in greater grain yields of rice (5.57 and 5.53 t/ha, respectively) and wheat (4.12 and 4.02 t/ha, respectively) than residue incorporation (4.51 t/ha rice and 3.72 t/ha wheat). Laboratory experiments indicated that by the addition of crop residues nitrogen and phosphorus were converted to unavailable forms through immobilization and adsorption, respectively. Crop residue management practices were discontinued after 13 years and wheat and maize crops were grown in sequence. There were significantly greater yields of wheat (3.57 t/ha in 1992-93 and 3.6 t/ha in 1993-94) and of maize (2.1 t/ha in 1993) in plots where the residues had previously been incorporated than where the residues were previously either removed or burned. This is attributed to release of nitrogen and phosphorus from the incorporated residues.
引用
收藏
页码:51 / 54
页数:4
相关论文
共 16 条
[1]  
Alexander M., Introduction to soil microbiology, (1977)
[2]  
Bahl G.S., Pasricha N.S., Aulakh M.S., Baddesha H.S., Effect of incorporation of crop straw residues on the yield of mustard and wheat, Soil Use and Management, 2, pp. 10-12, (1986)
[3]  
Beri V., Sidhu B.S., Bhat A.K., Nutrient balance and soil properties as affected by management of crop residues, Proceedings of the International Symposium on Nutrient Management for Sustained Productivity, 1, pp. 133-135, (1992)
[4]  
Black C.A., Goring C.A., Organic phosphorus in soils, Soil & fertilizer phosphate in crop nutrition, pp. 123-152, (1953)
[5]  
Chandrasekaran S., Yosmda T., Effect of organic acids on growth of rice plants, Soil Science and Plant Nutrition, 19, pp. 39-45, (1973)
[6]  
Derbano F.L., Gary E.E., Paul H.D., Effect of burning of Chaparral Soil, Soil Science Society of America Journal, 43, pp. 504-509, (1979)
[7]  
Ipinmidun W.B., Assessment of residues of phosphate application in some soils of Northern Nigeria. I. Examination of ‘L’ and ‘E’ values, Plant & Soil, 39, pp. 213-225, (1973)
[8]  
Ocio J.A., Brookes P.C., Jenkinson D.S., Field incorporation of straw and its effects on soil microbial biomass and soil inorganic N, Soil Biology and Biochemistry, 23, pp. 171-176, (1991)
[9]  
Olsen S.R., Cole C.V., Watanabe F.S., Dean L.A., Estimation of available phosphorus by extraction with sodium bicarbonate, U.S. Department of Agriculture Circular, 939, pp. 1-19, (1954)
[10]  
Page A.L., Miller R.H., Keeny D.R., Methods of soil analysis, Part 2, Chemical and microbiological properties, (1982)
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