利用叶色特征监测小麦叶片的碳氮状况

doi:10.17521/cjpe.2005.0060

植物生态学报 ›› 2005, Vol. 29 ›› Issue (3): 457-460.DOI: 10.17521/cjpe.2005.0060

利用叶色特征监测小麦叶片的碳氮状况

田永超, 朱艳, 曹卫星()

南京农业大学江苏省信息农业高技术研究重点实验室,南京210095

收稿日期:2004-01-12 接受日期:2004-07-06 出版日期:2005-01-12 发布日期:2005-05-30
通讯作者: 曹卫星
作者简介:*E-mail: caow@njau.edu.cn
基金资助:
国家自然科学基金重点(30400278);国家“863”计划(2002AA243011);江苏省自然科学基金(BK2003079);高校博士点基金(20030307017)

MONITORING LEAF CARBON AND NITROGEN STATUS IN WHEAT WITH LEAF COLOR CHARACTERISTICS

TIAN Yong-Chao, ZHU Yan, CAO Wei-Xing()

Hi-Tech Key Laboratory of Information Agriculture, Jiangsu Province, Nanjing Agricultural University, Nanjing 210095, China

Received:2004-01-12 Accepted:2004-07-06 Online:2005-01-12 Published:2005-05-30
Contact: CAO Wei-Xing

摘要/Abstract

摘要：

研究了不同土壤水氮条件下小麦 (Triticumaestivum) 抽穗后叶片碳氮状况及其比例与叶片叶色 (SPAD值 ) 的关系。结果表明, 小麦中后期叶片氮含量和可溶性糖含量与顶部 3张叶片叶色 (SPAD值 ) 均呈显著的指数正相关, 其相关程度大小为L1>L2 >L3, 但与不同叶位叶色间的差值或比值相关并不显著 ;而叶片碳氮比与各叶位叶色相关不显著, 但与顶 1叶和顶 3叶的叶色差值呈极显著直线相关, 据此建立了基于叶色特征的叶片氮含量、可溶性糖含量和碳氮比监测模型, 检验结果显示, 顶 1叶叶色和顶 1叶与顶 3叶叶色的差值可用来有效地评估小麦叶片的碳、氮含量及碳氮比状况。

关键词: 小麦, 叶色特征, 叶位, 叶片糖, 叶片氮, 碳氮比

Abstract:

Non-destructive monitoring of crop carbon, nitrogen and carbon to nitrogen ratios (C/N) is important for precision fertilizer management. This research was conducted to determine the relationships of leaf carbon, leaf nitrogen, and leaf C/N ratios to post-heading leaf color (SPAD values) in wheat (Triticum aestivum) under different nitrogen and water supply levels. The results showed that leaf soluble sugar content were positively exponentially related to leaf color in the top three leaves, but there were no significant relationships between color differences or ratios among different leaf positions. Similar trends were found for leaf nitrogen status. The correlation sequence was: L 1>L 2>L 3 (correlation coefficients were 0.92, 0.86 and 0.71 for leaf nitrogen content and 0.84, 0.77 and 0.49 for leaf soluble sugar content, respectively). The best leaf position for monitoring leaf nitrogen and carbon status was the first leaf from the top in wheat (LSSC= 4.080 8 e 0.026 9SPADL 1, R 2=707 5; LNC=0.697 2e 0.026 1SPADL 1, R 2=837 6), with a RMSE of 0.22 and 0.04, respectively, for model testing. In addition, leaf carbon to nitrogen ratios were not significantly related to leaf colors in different leaf positions but were linearly significantly related with color difference between L 1 and L 3 in wheat (C/N=0.071 3× (SPADL 1-SPADL 3) +4.459), with a RMSE of 0.07 for model testing. These results indicate that the leaf color of L 1 and color differences between L 1 and L 3 are good indicators of leaf soluble sugar content, nitrogen content and C/N in wheat leaves.

Key words: Wheat, Leaf color characteristics, Leaf position, Leaf sugar, Leaf nitrogen, Carbon to nitrogen ratios

田永超, 朱艳, 曹卫星. 利用叶色特征监测小麦叶片的碳氮状况. 植物生态学报, 2005, 29(3): 457-460. DOI: 10.17521/cjpe.2005.0060

TIAN Yong-Chao, ZHU Yan, CAO Wei-Xing. MONITORING LEAF CARBON AND NITROGEN STATUS IN WHEAT WITH LEAF COLOR CHARACTERISTICS. Chinese Journal of Plant Ecology, 2005, 29(3): 457-460. DOI: 10.17521/cjpe.2005.0060

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链接本文: https://www.plant-ecology.com/CN/10.17521/cjpe.2005.0060

https://www.plant-ecology.com/CN/Y2005/V29/I3/457

图/表 4

表1 小麦叶片氮含量和可溶性糖含量与叶色特征的相关性(R)

Table 1 The coefficients of correlation between leaf color characters and leaf nitrogen content and soluble sugar content in wheat (R)

	叶色特征 Leaf color character
	L₁	L₂	L₃	L₁/L₂	L₁/L₃	L₂/L₃	\|L₁-L₂\|	\|L₁-L₃\|	\|L₂-L₃\|
叶片氮含量Leaf nitrogen content	0.92	0.86	0.71	0.27	0.25	0.24	0.00	0.23	0.29
叶片可溶性糖含量 Leaf soluble sugar content	0.84	0.77	0.49	0.28	0.20	0.12	0.01	0.34	0.42

图1 小麦冠层叶片可溶性糖含量 (A) 和叶片含氮量 (B) 与顶1叶SPAD值的关系

Fig.1 Relationships of canopy leaf soluble sugar contents (A), nitrogen contents (B) to leaf SPAD values in wheat

图2 小麦冠层叶片碳氮比与顶1和顶3叶叶色差的关系

Fig.2 Relationship between color difference of L1 and L3 and ratio of canopy leaf carbon to nitrogen in wheat

图3 基于叶色特征的小麦冠层叶片可溶性糖含量、氮含量和碳氮比预测值与实测值的比较

Fig.3 Comparisons of measured with predicted canopy leaf soluble sugar content, nitrogen content and C/N from the leaf color characters in wheat

参考文献 12

[1]	Bronson KF, Chua TT, Booker JD, Keeling JW, Lascano RJ (2003). In-seasonnitrogenstatussensinginirrigatedcotton:II.Leafnitrogenandbiomass. SoilScienceSocietyofAmericaJour nal, 67,1439-1448.
[2]	Chen F (陈防), Lu JW (鲁剑巍) (1996). PreliminarystudyonrapiddiagnosisofcropnutrientstatususingtheSPAD-502chlorophyllmeter. HubeiAgriculturalSciences (湖北农业科学), 2,31-34. (inChinese).
[3]	Jin XC (金先春), Xu WS (徐威生), Zhang L (张玲), Qin F (秦峰), Huang SR (黄淑荣) (1994). Influenceofphysiologi calcharacteristicsatgrainfillingstageondyinggreenofwheatplantsindifferentvarieties. ActaAgronomicaSinica (作物学报), 20,99-105. (inChinesewithEnglishabstract).
[4]	Peng S, Garcia FV, Laza RC, Gassman KG (1993). Adjustmentforspecificleafweightimproveschlorophyllmeter'sestimateofriceleafnitrogenconcentration. AgronomyJournal, 83,926-928.
[5]	Shen ZQ (沈掌泉), Wang K (王珂), Zhu JY (朱君艳) (2002). Preliminarystudyondiagnosisofthenitrogenstatusoftworicevarietiesusingthechlorophyllmeter. BulletinofScienceandTechnology (科技通报), 18 (3),173-176. (inChinesewithEnglishabstract).
[6]	Singh B, Singh Y, Ladha SK, Bronson KF, Balasubramanian V, Singh J, Khind CS (2002). Chlorophyllmeter-andleafcolorchart-basednitrogenmanagementforriceandwheatinnorthwest ernIndia. AgronomyJournal, 94,821-829.
[7]	Turner CJ, Jund MF (1991). Chlorophyllmetertopredictnitrogentopdressrequirementforsemidwarfrice. AgronomyJournal, 83,926-928.
[8]	Wang SH (王绍华), Liu SH (刘胜环), Wang QS (王强盛), Ding YF (丁艳锋), Huang PS (黄丕生), Ling QH (凌启鸿) (2002a). Relationshipbetweenyieldformationandleafnitrogencontentandcolorinriceplant. JournalofNanjingAgriculturalUniversity (南京农业大学学报), 25 (4),1-5. (inChinesewithEnglishabstract).
[9]	Wang SH (王绍华), Cao WX (曹卫星), Wang QS (王强盛), Ding YF (丁艳锋), Huang PS (黄丕生), Ling QH (凌启鸿) (2002b). Positionaldistributionofleafcoloranddiagnosisofni trogennutritioninriceplant. ScientiaAgriculturaSinica (中国农业科学), 35,1461-1466. (inChinesewithEnglishab stract).
[10]	Wu LH (吴良欢), Tao QN (陶勤南) (1999). Nitrogenfertilizerapplicationbasedonthediagnosisofnitrogennutritionofriceplants. JournalofZhejiangAgriculturalUniversity (浙江农业大学学报) 25,135-138. (inChinesewithEnglishabstract).
[11]	Yang WH, Peng SB, Huang J, Sanico AL, Buresh RJ, Witt C (2003). Usingleafcolorchartstoestimateleafnitrogenstatusofrice. AgronomyJournal, 95,212-217.
[12]	Zhang QJ (张庆江), Zhang LY (张立言), Bi HW (毕桓武) (1997). Theabsorption, accumulationandtranslocationofnitro genandtheirrelationshipstograinproteincontentinspringwheatvariety. ActaAgronomicaSinica (作物学报), 23,712-718. (inChinesewithEnglishabstract).

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利用叶色特征监测小麦叶片的碳氮状况

MONITORING LEAF CARBON AND NITROGEN STATUS IN WHEAT WITH LEAF COLOR CHARACTERISTICS

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