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农学学报 ›› 2017, Vol. 7 ›› Issue (7): 77-83.doi: 10.11923/j.issn.2095-4050.cjas16110031

所属专题: 棉花

• 农业信息 农业气象 • 上一篇    下一篇

基于数码图像识别的棉花氮营养诊断研究

陈敏,郑曙峰,刘小玲,徐道青,王维,阚画春   

  1. 安徽省农业科学院棉花研究所/国家棉花改良中心安庆分中心,安徽省农业科学院棉花研究所/国家棉花改良中心安庆分中心,安徽省农业科学院棉花研究所/国家棉花改良中心安庆分中心,安徽省农业科学院棉花研究所/国家棉花改良中心安庆分中心,安徽省农业科学院棉花研究所/国家棉花改良中心安庆分中心,安徽省农业科学院棉花研究所/国家棉花改良中心安庆分中心
  • 收稿日期:2016-11-23 修回日期:2017-02-16 接受日期:2017-02-25 出版日期:2017-07-18 发布日期:2017-07-18
  • 通讯作者: 郑曙峰 E-mail:352850978@qq.com
  • 基金资助:
    院长青年创新基金项目“基于数码图像识别的棉花氮磷钾营养诊断模型研究”(12B0718);院学科建设项目“棉花氮肥减施绿色增效技术研 究”(16A0721);院长青年创新基金“棉花对重金属Cd、Cu的富集特性及耐性机理研究”(16B0714);院科技创新团队建设项目“棉花轻简化机械化关键 技术创新团队”(13C0707);安徽省油菜棉花产业技术体系专项经费。

Cotton Nitrogen Nutrition Diagnosis Based on Digital Image

  • Received:2016-11-23 Revised:2017-02-16 Accepted:2017-02-25 Online:2017-07-18 Published:2017-07-18

摘要: 研究田间试验条件下不同施肥处理棉花不同叶位图像色彩参数(G、NRI、NGI、NBI、G/R和G/B)与硝态氮含量、叶绿素测量值(SPAD)、叶绿素含量等营养指标间的相关性,确立棉花氮素营养诊断的最佳色彩参数和曲线方程,以期为新型数码图像技术在棉花氮素营养诊断的应用研究提供理论基础。于2012—2013年在安徽省农业科学院棉花研究所安庆试验基地进行不同施肥处理的田间试验,供试品种为‘湘杂棉8号’F1。设置8个施肥处理。分别在棉花蕾期、花铃期用Nikon D80数码相机获取棉花不同叶位图像并取样分析,研究数码相机进行棉花氮素营养诊断的最佳色彩参数,确定棉花氮素营养诊断的曲线方程。结果表明:(1)倒3叶硝态氮含量与红光标准化值NRI的相关性最好,R2=0.8754。功能叶倒4叶次之,R2=0.8013。(2)除倒1叶外,各叶位的SPAD值与数字化指标之间均有着良好的相关性。倒2叶与绿光标准化值NGI的相关性最好,相关系数为0.9591。(3)对于叶绿素含量,倒1叶与蓝光值B值相关性最好,为曲线正相关,R2=0.9444。其次为倒3叶、倒4叶,相关系数分别为0.9294、0.931。因此,在进行棉花不同叶位氮素营养诊断时,应选择上部叶位倒1叶、倒2叶、倒3叶、倒4叶,并选择色彩参数B值、蓝光标准化值NBI、NRI进行相关性分析与诊断。

关键词: 花生, 花生, 花针期, 追肥量, 光合特性, 产量

Abstract: To provide a scientific basis for digital image processing technique in nitrogen diagnosis of cotton, a field experiment under different fertilization treatments was carried out to explore relationship between the color parameters (G, NRI, NGI, NBI, G/R and G/B) of cotton leaves at different positions and stem sap nitrate concentration, SPAD readings and Chlorophyll content, determine the best digital parameter and regression equation. A field experiment was conducted with different nitrogen application rates from 2012-2013 at the Experimental Farm of Anhui Academy of Agricultural Sciences. Chosed xiangza8 as test cultivar. The pictures of cotton leaves were obtained with Nikon D80 digital camera at bud stage and boll forming stage, meanwhile, analyzed cotton sample of N status for determining the best color parameters and regression equations in cotton. The results showed that:(1) the correlation of stem sap nitrate content of inverse 3th leaf and NRI was best, R2=0.8754. And correlation of functional inverse 4th leaf was also good, R2=0.8013; (2)the SPAD readings and digital indicators had a good correlation of leaves at different positions except inverse 1st leaf. The best correlation was between inverse 2th leaf and NGI, the correlation coefficient was 0.9591; (3) as to the chlorophyll content, the correlation with B was the best of inverse first leaf, they had a positive curvilinear correlation, R2=0.9444. Followed by the inverse 3th leaf and 4th leaf, the correlation coefficients were 0.9294, 0.931. We should choose leaves of upper position which were inverse 1th, inverse 2th, inverse 3th and inverse 4th, and also select the color index B, NBI and NRI in cotton nitrogen nutrition diagnosis of leaves at different positions.

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