| 东北特早熟棉区不同群体棉花氮临界浓度稀释模型的建立初探 |
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| 引用本文: | 王子胜,金路路,赵文青,吴晓东,赵志强,王友华,周治国. 东北特早熟棉区不同群体棉花氮临界浓度稀释模型的建立初探[J]. 棉花学报, 2012, 24(5): 427-434. DOI: 1002-7807(2012)05-0427-08 |
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| 作者姓名: | 王子胜 金路路 赵文青 吴晓东 赵志强 王友华 周治国 |
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| 作者单位: | 南京农业大学/农业部作物生长调控重点开放实验室,南京,210095 |
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| 基金项目: | 国家自然科学基金(30771279,30971735);公益性行业(农业)科研专项(nyhyzx07-005-18,200903003) |
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| 摘 要: | 选用辽棉19号(生育期125 d)和新棉33B(生育期135 d)为材料,于2009年在东北特早熟棉区(辽宁辽阳,41°26'N,123°14'E)设置棉花种植密度(7.50万,9.75万,12.00万株·hm-2)和施氮量(0,120,240,360,480 kg·hm-2)试验,研究不同种植密度下棉花氮临界浓度的变化并建立东北特早熟棉区不同群体棉花氮临界浓度稀释模型。结果表明:不同种植密度下棉花氮临界浓度与地上部最大生物量间均符合幂函数关系(N=aW-b),模型参数 a ,b 值在不同种植密度下存在差异。同一品种生产相同生物量的需氮量随种植密度的增加而增大,而同一密度下生产相同的生物量新棉33B的氮素吸收量高于辽棉19号。基于氮临界浓度稀释条件下的异速生长参数,氮素营养指数以及动态氮素临界累积量等指标得到的东北特早熟棉区不同群体适宜施氮量的结果一致,表明9.75万株·hm-2密度下240 kg·hm-2施氮量为东北特早熟棉区最佳种植密度和施氮量。
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| 关 键 词: | 东北特早熟棉区 棉花 种植密度 施氮量 稀释模型 |
| 收稿时间: | 2011-05-12; |
Preliminary Development and Application of a Critical Nitrogen Concentration Dilution Model for Cotton Grown in Northeast China |
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| WANG Zi-sheng , JIN Lu-lu , ZHAO Wen-qing , WU Xiao-dong , ZHAO Zhi-qiang , WANG You-hua , ZHOU Zhi-guo. Preliminary Development and Application of a Critical Nitrogen Concentration Dilution Model for Cotton Grown in Northeast China[J]. Cotton Science, 2012, 24(5): 427-434. DOI: 1002-7807(2012)05-0427-08 |
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| Authors: | WANG Zi-sheng JIN Lu-lu ZHAO Wen-qing WU Xiao-dong ZHAO Zhi-qiang WANG You-hua ZHOU Zhi-guo |
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| Affiliation: | (Key Laboratory of Crop Growth Regulation,Ministry of Agriculture,Nanjing Agricultural University,Nanjing,Jiangsu 210095,China) |
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| Abstract: | To determine the critical nitrogen(N) concentration dilution curve for cotton grown in the extremely early-maturation region of northeast China, field experiments were carried out in Liaoyang (41°26'N, 123°14'E) with cultivars of Liaomian 19 and NuCOTN 33B. Three plant population densities (7.5×104, 9.75×104, and 12×104 plants·hm-2) and five nitrogen rates (0, 120, 240, 360, and 480 kg·hm-2) were applied. The results showed that the relationship between shoot dry matter and critical N concentration could be described by a power equation(N=aW-b). The coefficients a and b of the critical N dilution curve for cotton depended on cotton genotype and plant density. At higher plant densities, cotton plants had a higher capacity for N accumulation in shoot biomass than at lower densities. Variety NuCOTN 33B had a higher capacity for N accumulation in shoot biomass than did Liaomian 19 at the same plant density. Based on the critical N dilution model and the allometric relationship between N uptake and dry matter accumulation in shoots, models for potential growth and yield were developed for N nutrition index(NNI) and for N demand at different growth stages. According to the allometric growth coefficient, NNI, and N accumulation rate below the critical N concentration, we confirmed that the optimal rate of N application at a density of 9.75×104 plants·hm-2 was 240 kg·hm-2, which was lower than that at densities of 7.5×104 or 12 ×104 plants·hm-2 in the cotton extremely early-maturation region in northeast China. |
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| Keywords: | cotton planting population nitrogen rates dilution curve |
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