Effect of Different Fertilizer Level and Planting Density on Nitrogen Absorption and Yield of Super-High-Yielding Soybean(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:

2011年05期

Page:

769-776

Research Field:

Publishing date:

Info

Title:

Effect of Different Fertilizer Level and Planting Density on Nitrogen Absorption and Yield of Super-High-Yielding Soybean

Author(s):

XIAO Yi-nong¹; XIE Fu-ti²; XIAO Wan-xin³

1.College of Soil and Environment，Shenyang Agricultural University，Shenyang 110866;

2.College of Agronomy，Shenyang Agricultural University，Shenyang 110866;?

3.Maize Research Institute，Liaoning Academy of Agricultural Sciences，Shenyang 110161，Liaoning，China

Keywords:

Soybean; Super-high-yielding; Diammonium phosphate; Planting density; Nitrogen; Yield

PACS:

S565.1

DOI:

10.11861/j.issn.1000-9841.2011.05.0769

Abstract:

The variation of matter production ability between super-high-yielding soybean cultivar and common soybean cultivar was uncertain before.The experiment was conducted as a double split-plot design with three replications.Main plots were diammonium phosphate treatments，split plots were planting density treatments and the split-split plots were cultivars.The results showed as follows:diammonium phosphate treatment could promote N accumulation in stem，leaf，pod wall，seed and the whole plant.N accumulation in every part was decreased with planting density increased.N accumulation in petiole of super-high-yielding cultivar was higher than those of common cultivar at reproductive stage.Maximum accumulation rate of nitrogen increased with diammonium phosphate level and planting density enhanced, and that of of super-high-yielding cultivar was higher than common cultivar.Diammonium phosphate treatment could decrease N accumulation of producing 100 kg seed in super-high-yielding cultivar with different degrees.The highest N accumulation of producing 100 kg seed in two cultivars was at 22.5×104 plant·hm^-2 planting density.Nutrient absorption amount of super-high-yielding cultivar was less than that of common cultivar.The seed yield of super-high-yielding cultivar was increased with diammonium phosphate level and planting density enhanced，the highest one was at 300 kg·hm^-2 diammonium phosphate treatment and 22.5×104 plant·hm^-2 planting density.The highest seed yield of common cultivar was at 150 kg·hm^-2 diammonium phosphate treatment and 15.0×104 plant·hm^-2planting density.

References:

[1]袁立海，张晓，舒权，等.大豆氮肥增产效应的研究[J].大豆科学，1984，3(3):243-250.（Yuan L H，Zhang X，Shu Q，et al.Research on yield effect of nitrogen on soybeans[J].Soybean Science，1984，3(3):243-250.）

[2]董钻.大豆栽培生理[M].北京:中国农业出版社，1995，3-76.（Dong Z.Cultivation physiology of soybeans[M].Beijing:China Agricultural Press，1995:3-76.）

[3]索全义，王文玲，索凤兰.内蒙古东北旱作春大豆氮磷钾营养特性的研究[J].内蒙古农业科技，1998(增刊):205-207.（Suo Q Y，Wang W L，Suo F L.Research on NPK nutritional characteristics of Northeast rainfed spring soybean in Inner Mongolia[J].Inner Mongolia Agricultural Science and Technology，1998(S1):205-207.）

[4]王海英，谢甫绨，张惠君，等.施肥对不同来源大豆品种氮素积累分配的影响[J].大豆科学，2008，27(5):814-818.(Wang H Y，Xie F T，Zhang H J，et al.Effect of fertilizer level on nitrogen accumulation and distribution of soybean cultivars from different regions[J].Soybean Science，2008，27(5):814-818.)

[5]董钻，祁明楣，罗文春，等.大豆亩产450斤的生理参数及栽培措施初探[J].大豆科学，1982，1(2):131-140.（Dong Z，Qi M M，Luo W C，et al.Preliminary studies on the physiological parameters and cultural measures for soybean plants producing a yield of 450 jin per mu[J].Soybean Science，1982，1(2):131-140.）

[6]董钻，祁明媚，蒋工颖.大豆养分吸收和施肥效果试验初报[J].中国油料，1988(1):56-62.（Dong Z，Qi M M，Jiang G Y.Preliminary studies on nutrition absorption and fertilizer effect of soybeans[J].Chinese Journal of Oil Crop Sciences，1988(1):56-62.）

[7]董钻，蒋工颖，张显，等.大豆产量程序设计及栽培措施优化的研究.第二报，大豆群体的养分吸收模式[J].辽宁农业科学，1989(4):6-11.（Dong Z，Jiang G Y，Zhang X，et al.Yield program design and optimization in soybean[J].Liaoning Agricultural Sciences，1989(4):6-11.）

[8]王立刚，刘景辉，刘克礼，等.大豆氮素积累、分配与转移规律的研究[J].作物杂志，2004(5):20-22.（Wang L G，Liu J H，Liu K L，et al.Research on nitrogen accumulation，distribution and transformation of soybeans[J].Crops，2004(5):20-22.）

[9]Hanway J J，Weber C R.Accumulation of N，P，and K by soybean[Glycine max(L.)Merrill]plants[J].Agronomy Journal，1971，63:406-408.

[10]肖能逞，李志玉.苗期施氮对大豆生长发育及产量的影响[J].中国油料作物学报，1982(4):40-44.（Xiao N C，Li Z Y.Effect of seedling nitrogen on growth and yield of soybean[J].Chinese Journal of Oil Crop Sciences，1982，4:40-44.）

[11]蒋工颖，董钻.大豆养分吸收动态及施肥效果研究[J].作物学报，1989，15(2):167-173.（Jiang G Y，Dong Z.Studies on the trends of nutrient uptake and effect of fertilizer application on soybean[J].Acta Agronomica Sinica，1989，15(2):167-173.）

[12]魏建军，张力，杨相昆，等.超高产大豆氮磷钾吸收分配动态及模式的研究[J].大豆科学，2010，29(3):413-419.（Wei J J，Zhang L，Yang X K，et al.Dynamics and models of N，P₂O₅，K₂O absorption and partition in surper-high yielding soybeans[J].Soybean Science，2010，29(3):413-419.）

[13]刘玉平，李志刚，李瑞平.不同密度与施氮水平对高油大豆产量及品质的影响[J].大豆科学，2011，30(1):79-82，88.（Liu Y P，Li Z G，Li R P.Effect of different planting density and N-fertilizer levels on yield and quality of soybean[J].Soybean Science，2011，30(1):79-82，88.）

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