Distortion of the SPAD 502 chlorophyll meter readings by changes in irradiance and leaf water status

Agronomie Pub Date : 2004-01-01 DOI:10.1051/AGRO:2003060
Dana Martinez, J. Guiamet
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引用次数: 190

Abstract

- The SPAD 502 Chlorophyll Meter can estimate leaf chlorophyll content as a surrogate measure of the nitrogen (N) status of plants, and therefore, it can be used to assess the N requirements of crops. In this work, we show that irradiance, leaf water status and time of measurement (i.e., morning vs. afternoon), may interfere with the SPAD 502 measurements. SPAD values increased by 2-3 units as relative leaf water content decreased from 94 to 87.5 57492768n wheat leaves. A change in irradiance (from 1100 to 600-650 mmol m-2 s-1) caused an increase of about 2 SPAD units in potted maize plants. Throughout the day, SPAD values varied by up to 4 units in well-watered plants of maize growing under field conditions. The slope of the response of the SPAD meter to chlorophyll content was steeper in the morning than in the afternoon. Since the range of SPAD values that may separate N deficiency from N surplus in a crop are often relatively narrow, time of measurement, irradiance and plant water status must be taken into account to precisely monitor crop N needs with the SPAD 502.
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辐照度和叶片水分状态变化对SPAD 502叶绿素计读数的畸变
SPAD 502叶绿素计可以估算叶片叶绿素含量,作为植物氮(N)状态的替代测量,因此,它可以用来评估作物对氮的需求。在这项工作中,我们表明,辐照度、叶片水分状态和测量时间(即上午与下午)可能会干扰SPAD 502的测量。随着叶片相对含水量从94降低到87.5 57492768n, SPAD值增加了2 ~ 3个单位。辐照度变化(从1100到600-650 mmol m-2 s-1)导致盆栽玉米植株SPAD增加约2个单位。在田间条件下,水分充足的玉米植株的SPAD值全天变化高达4个单位。SPAD仪对叶绿素含量的响应斜率在上午大于下午。由于SPAD值可能区分作物缺氮和过剩氮的范围通常相对较窄,因此必须考虑测量时间、辐照度和植物水分状况,以便使用SPAD 502精确监测作物的氮需求。
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