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New Zealand Journal of Agricultural Research Volume 50, 2007 - Issue 5
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Original Articles

Evaluation of variable‐rate nitrogen recommendation of winter wheat based on SPAD chlorophyll meter measurement

Zhao Chunjiang National Engineering Research Center for Information Technology in Agriculture, Room 519, Beijing Agricultural Science Mansion, Building, Banjing, Haidian district, Beijing, 100097, PR China
,
Jiang Aning National Engineering Research Center for Information Technology in Agriculture, Room 519, Beijing Agricultural Science Mansion, Building, Banjing, Haidian district, Beijing, 100097, PR China; Inner Mongolia Agricultural University Huhhot, 010019, China
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Huang Wenjiang National Engineering Research Center for Information Technology in Agriculture, Room 519, Beijing Agricultural Science Mansion, Building, Banjing, Haidian district, Beijing, 100097, PR China E-mail: [email protected]
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Liu Keli Inner Mongolia Agricultural University Huhhot, 010019, China
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Liu Liangyun National Engineering Research Center for Information Technology in Agriculture, Room 519, Beijing Agricultural Science Mansion, Building, Banjing, Haidian district, Beijing, 100097, PR China
&
Wang Jihua National Engineering Research Center for Information Technology in Agriculture, Room 519, Beijing Agricultural Science Mansion, Building, Banjing, Haidian district, Beijing, 100097, PR China
Pages 735-741 | Received 10 Aug 2007, Accepted 10 Aug 2007, Published online: 22 Feb 2010
 
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Abstract

To develop a time‐Specific and time‐critical spatial variable rate nitrogen application (VRN) method and to overcome the limitations of traditional field sampling methods, this study focused on the relationship between SPAD chlorophyll meter readings and nitrogen content in leaves in order to determine the amount of nitrogen fertilisation required for agricultural objectives. Field experiments were conducted in three wheat growth duration stages from 2003 to 2006. Grain yields and soil NO3‐N contents were measured in all plots. Our results indicated that VRN technology reduced wheat yield spatial variability. The benefits of VRN included low soil residual NO3‐N content and NO3‐N leaching potential, suggesting that VRN technology based on SPAD readings can potentially reduce groundwater pollution and therefore protect our limited environmental resources.

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