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      The end-use quality of wheat can be enhanced by optimal water management without incurring yield loss

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          Abstract

          In China, water-saving irrigation is playing important roles in ensuring food security, and improving wheat quality. A barrel experiment was conducted with three winter wheat (Triticum aestivum L.) genotypes and two irrigation pattens to examine the effects of regulated deficit irrigation (RDI) on wheat grain yield, water-use efficiency (WUE), and grain quality. In order to accurately control the soil water content, wheat was planted in the iron barrels set under a rainproof shelter, and the soil water content in the iron barrel was controlled by gravity method. The mechanisms whereby water management influences the end-use functional properties of wheat grain were also investigated. The results revealed that RDI improved the end-use functional properties of wheat and WUE, without significant yield loss (less than 3%). Moderate water deficit (60% to 65% field capacity) before jointing and during the late grain-filling stage combined with a slight water deficit (65% to 70% field capacity) from jointing to booting increased grain quality and WUE. The observed non-significant reduction in wheat yield associated with RDI may be attributed to higher rate of photosynthesis during the early stage of grain development and higher rate of transfer of carbohydrates from vegetative organs to grains during the later stage. By triggering an earlier rapid transfer of nitrogen deposited in vegetative organs, RDI enhances grain nitrogen content, which in turn could enhance dough elasticity, given the positive correlation between grain nitrogen content and dough midline peak value. Our results also indicate that the effects of RDI on grain quality are genotype dependent. Therefore, the grain end-use quality of some specific wheat genotypes may be enhanced without incurring yield loss by an optimal water management.

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          A Flexible Growth Function for Empirical Use

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            Grain filling of cereals under soil drying.

            Monocarpic plants require the initiation of whole-plant senescence to remobilize and transfer assimilates pre-stored in vegetative tissues to grains. Delayed whole-plant senescence caused by either heavy use of nitrogen fertilizer or adoption of lodging-resistant cultivars/hybrids that remain green when the grains are due to ripen results in a low harvest index with much nonstructural carbohydrate (NSC) left in the straw. Usually, water stress during the grain-filling period induces early senescence, reduces photosynthesis, and shortens the grain-filling period; however, it increases the remobilization of NSC from the vegetative tissues to the grain. If mild soil drying is properly controlled during the later grain-filling period in rice (Oryza sativa) and wheat (Triticum aestivum), it can enhance whole-plant senescence, lead to faster and better remobilization of carbon from vegetative tissues to grains, and accelerate the grain-filling rate. In cases where plant senescence is unfavorably delayed, such as by heavy use of nitrogen and the introduction of hybrids with strong heterosis, the gain from the enhanced remobilization and accelerated grain-filling rate can outweigh the loss of reduced photosynthesis and the shortened grain-filling period, leading to an increased grain yield, better harvest index and higher water-use efficiency.
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              How to fit nonlinear plant growth models and calculate growth rates: an update for ecologists

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                Author and article information

                Contributors
                Journal
                Front Plant Sci
                Front Plant Sci
                Front. Plant Sci.
                Frontiers in Plant Science
                Frontiers Media S.A.
                1664-462X
                10 November 2022
                2022
                : 13
                : 1030763
                Affiliations
                [1] 1 School of Hydraulic Engineering, Yellow River Conservancy Technical Institute , Kaifeng, China
                [2] 2 College of Life Science and Technology, Henan Institute of Science and Technology , Xinxiang, China
                [3] 3 Farmland Irrigation Research Institute, Chinese Academy of Agricultural Sciences , Xinxiang, China
                Author notes

                Edited by: Mirza Hasanuzzaman, Sher-e-Bangla Agricultural University, Bangladesh

                Reviewed by: Sawsen Ayadi, National Agricultural Institute of Tunisia, Tunisia; Muhammad Rizwan, Nuclear Institute of Agriculture, Pakistan

                †These authors have contributed equally to this work and share first authorship

                This article was submitted to Plant Abiotic Stress, a section of the journal Frontiers in Plant Science

                Article
                10.3389/fpls.2022.1030763
                9684672
                36438148
                2d772c4c-2d05-4496-92d5-0e236956b55c
                Copyright © 2022 Sheng, Xu, Wang, Lei and Duan

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                : 29 August 2022
                : 24 October 2022
                Page count
                Figures: 10, Tables: 3, Equations: 7, References: 83, Pages: 17, Words: 9491
                Categories
                Plant Science
                Original Research

                Plant science & Botany
                wheat quality,water deficit,regulated deficit irrigation,grain growth,grain nitrogen content

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