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Comprehensive Evaluation of Low Nitrogen Tolerance in Oat (Avena sativa L.) Seedlings

Yue Wang, Kaiqiang Liu, Guoling Liang, Zhifeng Jia, Zeliang Ju, Xiang Ma, Qingping Zhou

2023Agronomy13 citationsDOIOpen Access PDF

Abstract

In oat production, the over-application of nitrogen (N) fertilizer in fields due to low N fertilizer use efficiency not only increases production costs but also causes environmental pollution. Currently, mining low N-tolerant oat varieties is an important way to promote sustainable agriculture. In this study, 30 oat varieties were grown in a seedling culture with two treatments of normal N (10 mM NH4NO3) and low N (1.25 mM NH4NO3), and the correlations between agronomic traits and plant N content and low N tolerance coefficients and indices were determined, which can be used as indicators for the evaluation of low N-tolerant oat varieties. Coefficient of variation, correlation analysis, principal component analysis, partial least-squares discrimination analysis, random forest analysis, least absolute shrinkage and selection operator regression and model evaluation, and membership function analysis were used for in-depth analysis of these indicators. Plant N content, root–crown ratio, and dry weight of aboveground plant parts were found to be important indicators of low N tolerance in oats. According to the membership function ranking of the 30 selected oat varieties, Jiayan 2, Qingyongjiu 035, and Qingyin 2 had strong tolerance to low N stress and Qingyongjiu 003, Qingyongjiu 021, and Qingyongjiu 016 had poor tolerance to low N stress. Thus, this study provides a reliable and comprehensive method for evaluating the low N tolerance of oat varieties as well as a reference for screening other low N-tolerant plants.

Topics & Concepts

AvenaBiplotAmmiAgronomyMathematicsSeedlingFertilizerRegression analysisHorticultureBiologyStatisticsGene–environment interactionGeneGenotypeBiochemistryPlant nutrient uptake and metabolismCrop Yield and Soil FertilitySoil Carbon and Nitrogen Dynamics