Abstract
An increased awareness of environmental protection and sustainable production raise the necessity of incorporating the selection of low nitrogen-tolerant winter wheat cultivars for high yield and quality in the breeding process. This selection can be assisted by using stress screening indices. Our study aimed to evaluate and compare a number of stress screening indices and to determine and select the most nitrogen deficiency-tolerant winter wheat cultivars for further breeding. The experiment included forty-eight winter wheat cultivars from eight different countries that were grown for two consecutive years at three different locations under low-nitrogen (LN) and high-nitrogen (HN) conditions. The results emphasized the importance of applying the appropriate stress screening indices in evaluating and selecting nitrogen deficiency-tolerant wheat cultivars. The promising stress screening indices were the mean productivity index (MP), geometric mean productivity index (GMP), harmonic mean index (HM), stress tolerance index (STI) and yield index (YI). They identified cultivars Sofru, BC Opsesija and MV-Nemere as the most tolerant cultivars to LN conditions for grain yield. The same indices classified U-1, OS-Olimpija, Forcali, Viktoria and BC Tena cultivars as the most tolerant to LN conditions for the grain protein content. Using the tolerance index (TOL), yield stability index (YSI) and relative stress index (RSI), the Katarina and Ficko cultivars were denoted as LN-tolerant cultivars in terms of the grain yield and Isengrain, Tosunbey, Vulkan and BC Darija in terms of the grain protein content.
Highlights
IntroductionPublisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
In this study 48 winter wheat cultivars were evaluated under high-nitrogen (HN) and low-nitrogen (LN) conditions
We determined Sofru, BC Opsesija and MV-Nemere as the most tolerant cultivars for the grain yield in low-nitrogen conditions based on five selection indices and potentially useful as parental donors
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. As one of the essential nutrients for plant growth, development and productivity, is a substantial requirement for efficient and profitable crop production. Its deficiency may lead to changes in the gene expression, plant metabolism, growth rates and, crop yield and quality reduction [1,2]. In order to avoid crop failure, N fertilizers are usually applied in large quantities. The excessive application of N fertilizers beyond nitrogen plant requirements has adversely affected the environment, and it has become obvious that, due to a number of various damaging effects on the environment and economic costs, the high-nitrogen fertilizer consumption has to be optimized [3]
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