Michel C. Nolin scite author profile

Plant-based diagnostic techniques are used to determine the level of crop N nutrition but there is limited comparative research on the diff erent methods. Our objectives were to establish the relationship between chlorophyll meter (CM) readings and N nutrition index (NNI) during the corn (Zea mays L.) growing season, and to compare both methods as diagnostic tools for predicting grain yield response to N fertilization. Th e study was established at eight site-years using four to seven N fertilization rates. Th e CM readings from the youngest collared leaf were taken on fi ve to eight sampling dates in 2004, 2005, and 2006 along with NNI determinations. Generally, CM readings and NNI increased with increasing N rates. Chlorophyll meter readings and relative CM (RCM) readings were related to NNI, but the intercepts and/or slope of the response curves varied with site-year. Because they are site-specifi c, these relationships may not be reliable indicators of corn N status. Th e relationship between CM readings and relative grain yield (RY) at stage of development ≈V12 was also site-specifi c. Relative CM readings (RY = −0.64 + 1.65 RCM if RCM ≤ 0.98 and RY = 0.97 if RCM > 0.98; R 2 = 0.60) and NNI (RY = −0.34 + 1.47 NNI if NNI ≤ 0.88 and RY = 0.96 if NNI > 0.88; R 2 = 0.79) at stage of development ≈V12 were related to RY. Th ese two relationships were stable across site-years and could be used to detect and quantify N defi ciencies of corn.

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Determination of a Critical Nitrogen Dilution Curve for Spring Wheat

Ziadi

et al. 2010

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Plant‐based diagnostic tools of N deficiency can be based on the concept of critical N dilution curves describing whole‐plant critical N concentration (Nc; g kg−1 of dry matter [DM]) as a function of shoot biomass (W; Mg DM ha−1). This has been tested for several crops, including winter wheat (Triticum aestivum L.) but has not been tested for spring wheat. Our objectives were to determine a critical N dilution curve specific to spring wheat, to compare this curve with existing critical N dilution curves for winter wheat, and to assess the plausibility of using it to estimate the level of N nutrition. The study was conducted at six site‐years (2004–2006) in Québec, Canada, with four to eight N fertilization rates (0–200 kg N ha−1). Shoot biomass and N concentration were determined on five to eight sampling dates during the growing season, and grain yield was measured at harvest. A critical N dilution curve (Nc = 38.5 W−0.57) was determined for spring wheat and was different from those reported for winter wheat. The N nutrition index (NNI = Nobserved/Nc) calculated from this spring wheat critical N dilution curve was significantly related (R2 = 0.70; P < 0.001) to relative grain yield. This critical N dilution curve and the resulting NNI adequately identified situations of limiting and nonlimiting N nutrition and could be used to establish the N nutrition status.

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Soil management zones delineated by electrical conductivity to characterize spatial and temporal variations in potato yield and in soil properties

et al. 2006

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Critical Nitrogen Curve and Nitrogen Nutrition Index for Corn in Eastern Canada

et al. 2008

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A gronomy J our n al • Volume 10 0 , I s sue 2 • 2 0 0 8 ABSTRACT Plant-based diagnostic methods of N nutrition require the critical N concentration (N c ) to be defi ned, that is the minimum N concentration necessary to achieve maximum growth. A critical N curve (N c = 34.0W −0.37 with W being shoot biomass in Mg DM ha −1 ), based on whole plant N concentration, was determined for corn (Zea mays L.) in France. Our objectives were to validate this critical N curve in eastern Canada and to assess its plausibility to estimate the level of N nutrition in corn. Shoot biomass and N concentration were determined weekly during the growing season at three sites for 2 yr (2004 and 2005); four to seven N treatments were used at each site. Data points were divided into two groups representing either nonlimiting or limiting N conditions according to signifi cant diff erences in shoot biomass at each sampling date. All data points included in the limiting N group were under the critical N curve and most data points of the nonlimiting N group were on or above the critical N curve, hence confi rming the validity of the critical N curve determined in France. Th e nitrogen nutrition index (NNI), calculated as the measured N concentration divided by the predicted N c , ranged from 0.30 to 1.35. A signifi cant relationship between relative grain yield (RY) and NNI (RY = -0.11 + 1.17 NNI if NNI < 0.93 and RY = 0.98 if NNI > 0.93; R 2 = 0.89) was determined. Th e critical N curve from France is valid in eastern Canada and the NNI calculated from that curve is a reliable indicator of the level of N stress during the growing season of corn.

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Critical Nitrogen Curve and Nitrogen Nutrition Index for Corn in Eastern Canada

Ziadi

Brassard

Bélanger

et al. 2008

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Michel C. Nolin

Chlorophyll Measurements and Nitrogen Nutrition Index for the Evaluation of Corn Nitrogen Status

Determination of a Critical Nitrogen Dilution Curve for Spring Wheat

Soil management zones delineated by electrical conductivity to characterize spatial and temporal variations in potato yield and in soil properties

Critical Nitrogen Curve and Nitrogen Nutrition Index for Corn in Eastern Canada

Critical Nitrogen Curve and Nitrogen Nutrition Index for Corn in Eastern Canada

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