期刊文献+

水稻氮素和叶绿素SPAD叶位分布特点及氮素诊断的叶位选择 被引量:121

Spatial Distribution of Leaf N Content and SPAD Value and Determination of the Suitable Leaf for N Diagnosis in Rice
下载PDF
导出
摘要 【目的】研究分析水稻氮素和SPAD值的叶位分布特点,并试图提出SPAD计诊断氮素营养状况的最佳测定叶位。【方法】在95-38、武育粳3号、镇稻5394、9915等4个粳型品种和1个籼型品种R161-10的盆播氮肥试验和宁粳2号大田氮肥试验的基础上,研究水稻氮素和叶绿素含量(SPAD值)随叶位的空间分布特征,并对不同叶位叶片的含氮率、叶绿素含量、SPAD值之间及其与总叶片含氮率和植株含氮率之间的相关性进行分析,比较不同叶位叶片SPAD测定值的变异系数。【结果】水稻不同叶位叶片含氮率、叶绿素含量、SPAD值均存在差异,增加施氮量能提高叶片含氮率、叶绿素含量和SPAD值,同时减少叶位间的差异;SPAD值对氮素的敏感性顺序为顶4叶、顶3叶和顶2叶,而顶1叶的敏感性排序因品种不同而不同;穗分化期、齐穗期和成熟期均以顶3叶与总叶片及植株含氮率相关系数最高;且适宜氮素水平下,穗分化期顶3叶SPAD值的变异系数最小。【结论】以某一特定叶片的SPAD值或以叶色差的大小来诊断水稻氮素营养状况和推荐水稻穗肥施用时,顶3叶是较为理想的指示叶或参照叶。 【Objective】 In order to investigate the spatial distribution characteristics of leaf nitrogen (N) and SPAD (Soil Plant Analysis Development) value, and to determine the best leaf position for N diagnosis in rice with SPAD meter. 【Method】 Based on the rice pot experiment involving five varieties (four were Japonica, one was Indica) and two N treatments and field experiment with different N treatments, the spatial differences of N and Chlorophyll content (SPAD value) in the four upper fully expanded leaves an...
出处 《中国农业科学》 CAS CSCD 北大核心 2007年第6期1127-1134,共8页 Scientia Agricultura Sinica
基金 "十一五"科技支撑计划(2006BAD02A03)
关键词 氮素诊断 SPAD值 叶位 氮含量 Nitrogen diagnosis SPAD value Leaf position Nitrogen content
  • 相关文献

参考文献10

  • 1[3]Balasubramanian A C.Adaptation of the chlorophyll meter (SPAD) technology for real-time N management in rice:a review.International Rice Research Notes,2000,25(1):4-8
  • 2[4]Reeves D W.Determination of wheat nitrogen status with a hand-held chlorophyll meter:Influence of management practices.Journal of Plant Nutrition,1993,16:781-796.
  • 3[5]Follett R H,Follett R F.Use of a chlorophyll meter to evaluate the nitrogen status of dryland winter wheat.Communation in Soil Science and Plant Analysis,1992,23:687-697.
  • 4[6]Wood C W,Reeves D W,Duffield R R,Edmisten K L.Field chlorophyll measurement for evaluation of corn nitrogen status.Journal of Plant Nutrition 1992,15:487-500.
  • 5[7]Wu F,Wu L,Xu F.Chlorophyll meter to predict nitrogen sidedress requirements for short-season cotton (Gossypium hirsutum L.).Field Crops Research,1998,56:309-314.
  • 6[8]Peltonen J,Virtanen A,Haggren E.Using a chlorophyll meter to optimize nitrogen fertilizer application for intensively-managed small cereals.Journal of Agronomy and Crop Science,1995,174:309-318.
  • 7[9]Rodrigues M A.Establishment of continuous critical levels for Indices of plant and presidedress soil nitrogen status in the potato crop.Communation in Soil Science and Plant Analysis,2004,35:2067-2085.
  • 8[10]Zhou Q F,Wang J H.Comparison of upper leaf and lower leaf of rice plants in response to supplemental nitrogen levels.Journal of Plant Nutrition,2003,26:607-617.
  • 9[15]Turner F T,Jund M F.Chlorophyll meter to predict nitrogen topdress requirement for semidwarf rice.Agron.J,1991,83:926-928.
  • 10[17]S Wang,Y Zhu,H Jiang,W Cao.Positional differences in nitrogen and sugar concentrations of upper leaves relate to plant N status in rice under different N rates.Field Crops Research,2006,96:224-234.

同被引文献1620

引证文献121

二级引证文献1159

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部