Selenium accumulation in grains of wheat cultivars grown in selenium-rich areas in China

IF 1.6 4区农林科学 Q1 Agricultural and Biological Sciences Experimental Agriculture Pub Date : 2024-01-30 DOI:10.1017/s0014479723000261

Weilin Kong, Hafeez Noor, Aixia Ren, Linghong Li, Pengcheng Ding, Yongkang Ren, Zhiqiang Gao, Min Sun

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Abstract

Selenium (Se) is an essential micronutrient for human health, and Se concentration of wheat grain in China has no significant relationships with selenium concentration of wheat and with soil organic matter, nitrogen, phosphorus, potassium in the 0–20 cm soil layer. However, a significant indigenous positive correlation was found with soil Se concentration. Field experiments were conducted from 2018 to 2020 to clarify the differences in the Se accumulation in wheat plants grown in Se-rich areas. We used two common wheat (ZM-175, SN-20), two purple wheat (JZ-496, ZM-8555), and two black wheat (YH-161, LH-131) cultivars to investigate changes in Se build-up and transportation in plant organs. The grain Se concentration of six wheat genotypes in Se-rich areas varied between 178 and 179 μg Se kg−1, with organic Se accounting for 87 to 91%. All genotypes had more than 150 μg Se kg−1, the standard Se concentration in grains. Purple grain wheat had the highest total and organic Se concentrations. Purple wheat also exhibited significantly higher Se transfer coefficient in roots, stem and leaves, and glumes, when compared to common wheat. Moreover, purple wheat had the highest Se uptake efficiency (e.g., JZ-496 with 31%) when compared to common wheat and black wheat. Regardless of the color, wheat grains met the Se-enriched criteria (150 μg Se kg−1) when grown in a natural Se-enriched area. Due to higher Se uptake and accumulation, purple wheat grain genotypes, such as JZ-496, are recommended for wheat breeding programs aiming for high Se functional foods.

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中国富硒地区小麦品种籽粒中硒的积累

硒（Se）是人体健康必需的微量营养元素，中国小麦籽粒的硒浓度与小麦的硒浓度以及 0-20 厘米土层中的土壤有机质、氮、磷、钾无显著关系。但与土壤中的Se浓度存在明显的原生正相关关系。为了明确在富硒地区种植的小麦植株在硒积累方面的差异，我们于 2018 年至 2020 年进行了田间试验。我们使用了两个普通小麦（ZM-175、SN-20）、两个紫色小麦（JZ-496、ZM-8555）和两个黑色小麦（YH-161、LH-131）栽培品种，研究了植物器官中Se积累和运输的变化。在富Se地区，6个小麦基因型的籽粒Se浓度介于178至179微克Se kg-1之间，其中有机Se占87%至91%。所有基因型谷粒中的标准 Se 浓度都超过了 150 μg Se kg-1。紫粒小麦的总 Se 浓度和有机 Se 浓度最高。与普通小麦相比，紫粒小麦在根、茎叶和颖壳中的硒转移系数也明显更高。此外，与普通小麦和黑小麦相比，紫粒小麦的 Se 吸收效率最高（如 JZ-496 为 31%）。在天然富Se地区种植的小麦，无论颜色如何，麦粒都符合富Se标准（150微克Se kg-1）。由于紫色小麦籽粒具有更高的Se吸收和积累能力，建议将JZ-496等紫色小麦籽粒基因型用于以高Se功能食品为目标的小麦育种计划。

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来源期刊

Experimental Agriculture 农林科学-农艺学

CiteScore

2.50

自引率

6.20%

发文量

审稿时长

24 months

期刊介绍： With a focus on the tropical and sub-tropical regions of the world, Experimental Agriculture publishes the results of original research on field, plantation and herbage crops grown for food or feed, or for industrial purposes, and on farming systems, including livestock and people. It reports experimental work designed to explain how crops respond to the environment in biological and physical terms, and on the social and economic issues that may influence the uptake of the results of research by policy makers and farmers, including the role of institutions and partnerships in delivering impact. The journal also publishes accounts and critical discussions of new quantitative and qualitative methods in agricultural and ecosystems research, and of contemporary issues arising in countries where agricultural production needs to develop rapidly. There is a regular book review section and occasional, often invited, reviews of research.