The Influence of Water and Nitrogen Availability on the Expression of End-Use Quality Parameters of Spring Wheat

The Influence of Water and Nitrogen Availability on the Expression of End-Use Quality Parameters of Spring Wheat

Wheat (<i>Triticum aestivum</i> L.) grain quality is determined by multiple physical and chemical attributes. However, previous studies mainly focused on protein quantity and composition, which may not be adequate for understanding grain quality, especially end-use quality. Field experim...

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Bibliographic Details
Main Authors: Rui Yang, Xi Liang, Jessica A. Torrion, Olga S. Walsh, Katherine O’Brien, Qian Liu
Format: Article
Language:English
Published: MDPI AG 2018-11-01
Series:Agronomy
Subjects:
baking quality
drought stress
N rate
gluten
protein
solvent retention capacity
Online Access:https://www.mdpi.com/2073-4395/8/11/257
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spelling doaj-6f383f11d1584e09bbbd33e644cc2a9f2021-04-02T14:46:11ZengMDPI AGAgronomy2073-43952018-11-0181125710.3390/agronomy8110257agronomy8110257The Influence of Water and Nitrogen Availability on the Expression of End-Use Quality Parameters of Spring WheatRui Yang0Xi Liang1Jessica A. Torrion2Olga S. Walsh3Katherine O’Brien4Qian Liu5Department of Plant Sciences, Aberdeen Research and Extension Center, University of Idaho, Aberdeen, ID 83210, USADepartment of Plant Sciences, Aberdeen Research and Extension Center, University of Idaho, Aberdeen, ID 83210, USANorthwestern Agricultural Research Center, Montana State University, Kalispell, MT 59901, USADepartment of Plant Sciences, Parma Research and Extension Center, University of Idaho, Parma, ID 83660, USAWheat Quality Lab, Aberdeen Research and Extension Center, University of Idaho, Aberdeen, ID 83210, USACollege of Food Science, Northeast Agricultural University, Harbin 150030, ChinaWheat (<i>Triticum aestivum</i> L.) grain quality is determined by multiple physical and chemical attributes. However, previous studies mainly focused on protein quantity and composition, which may not be adequate for understanding grain quality, especially end-use quality. Field experiments were conducted at two locations for two years to better understand how and to what extent water and nitrogen (N) availability affect flour end-use quality. Four drought stress levels (i.e., mild, moderate, severe, and well-watered) and four N rates (i.e., zero, low, medium, and high) were applied to two spring wheat cultivars (i.e., Dayn and Egan). Evaluated end-use quality traits, including milling quality, mixograph parameters, flour protein and gluten contents, solvent retention capacity (SRC), and baking quality. Most end-use quality parameters were not significantly different between the well-watered treatment and mild drought stress in both cultivars. Nitrogen availability above the low rate (168 kg N ha<sup>&#8722;1</sup>) failed to further improve most end-use quality traits in either cultivar. Among all the end-use quality traits, lactic acid SRC may be a reliable indicator of flour end-use quality. These results indicate that mild drought stress (i.e., a 25% reduction in irrigation throughout the growing season) may not negatively affect end-use quality and excessive N fertilization offers minimal improvement in end-use quality. Such information could facilitate the development of irrigation and fertilization guidelines targeting at grain quality.https://www.mdpi.com/2073-4395/8/11/257baking qualitydrought stressN rateglutenproteinsolvent retention capacity
collection DOAJ
language English
format Article
sources DOAJ
author Rui Yang
Xi Liang
Jessica A. Torrion
Olga S. Walsh
Katherine O’Brien
Qian Liu
spellingShingle Rui Yang
Xi Liang
Jessica A. Torrion
Olga S. Walsh
Katherine O’Brien
Qian Liu
The Influence of Water and Nitrogen Availability on the Expression of End-Use Quality Parameters of Spring Wheat
Agronomy
baking quality
drought stress
N rate
gluten
protein
solvent retention capacity
author_facet Rui Yang
Xi Liang
Jessica A. Torrion
Olga S. Walsh
Katherine O’Brien
Qian Liu
author_sort Rui Yang
title The Influence of Water and Nitrogen Availability on the Expression of End-Use Quality Parameters of Spring Wheat
title_short The Influence of Water and Nitrogen Availability on the Expression of End-Use Quality Parameters of Spring Wheat
title_full The Influence of Water and Nitrogen Availability on the Expression of End-Use Quality Parameters of Spring Wheat
title_fullStr The Influence of Water and Nitrogen Availability on the Expression of End-Use Quality Parameters of Spring Wheat
title_full_unstemmed The Influence of Water and Nitrogen Availability on the Expression of End-Use Quality Parameters of Spring Wheat
title_sort influence of water and nitrogen availability on the expression of end-use quality parameters of spring wheat
publisher MDPI AG
series Agronomy
issn 2073-4395
publishDate 2018-11-01
description Wheat (<i>Triticum aestivum</i> L.) grain quality is determined by multiple physical and chemical attributes. However, previous studies mainly focused on protein quantity and composition, which may not be adequate for understanding grain quality, especially end-use quality. Field experiments were conducted at two locations for two years to better understand how and to what extent water and nitrogen (N) availability affect flour end-use quality. Four drought stress levels (i.e., mild, moderate, severe, and well-watered) and four N rates (i.e., zero, low, medium, and high) were applied to two spring wheat cultivars (i.e., Dayn and Egan). Evaluated end-use quality traits, including milling quality, mixograph parameters, flour protein and gluten contents, solvent retention capacity (SRC), and baking quality. Most end-use quality parameters were not significantly different between the well-watered treatment and mild drought stress in both cultivars. Nitrogen availability above the low rate (168 kg N ha<sup>&#8722;1</sup>) failed to further improve most end-use quality traits in either cultivar. Among all the end-use quality traits, lactic acid SRC may be a reliable indicator of flour end-use quality. These results indicate that mild drought stress (i.e., a 25% reduction in irrigation throughout the growing season) may not negatively affect end-use quality and excessive N fertilization offers minimal improvement in end-use quality. Such information could facilitate the development of irrigation and fertilization guidelines targeting at grain quality.
topic baking quality
drought stress
N rate
gluten
protein
solvent retention capacity
url https://www.mdpi.com/2073-4395/8/11/257
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