暴露在土壤中的风化和新鲜纳米颗粒及离子态锌促进小麦（Triticum aestivum L.）的籽粒产量，并调节其养分吸收。

Exposure to Weathered and Fresh Nanoparticle and Ionic Zn in Soil Promotes Grain Yield and Modulates Nutrient Acquisition in Wheat ( Triticum aestivum L.).

机构信息

International Fertilizer Development Center (IFDC) , Muscle Shoals , Alabama 35662 , United States.

The Center for Nanotechnology and Agricultural Pathogen Suppression (CeNAPS) , New Haven , Connecticut 06511 , United States.

出版信息

J Agric Food Chem. 2018 Sep 19;66(37):9645-9656. doi: 10.1021/acs.jafc.8b03840. Epub 2018 Sep 10.

DOI:10.1021/acs.jafc.8b03840

PMID:30169030

Abstract

This study evaluated weathered and fresh ZnO-nanoparticles and Zn-salt effects on nutrient acquisition and redistribution in wheat. Weathered and fresh ZnO-nanoparticles and Zn-salt significantly increased grain yield by 15% and 29%, respectively. Postharvest soil acidification indicated ZnO-nanoparticles dissolved during growth. Zn was significantly bioaccumulated from both Zn types, but with low root-to-shoot bioaccumulation efficiency: 24% and 20% for weathered nanoparticles and salt, and 48% and 30% for fresh nanoparticles and salt. Grain Zn content was increased 186% and 229% by weathered nanoparticles and salt, and 229% and 300% by fresh nanoparticles and salt. Shoot-to-grain translocation efficiency was high: 167% and 177% for weathered nanoparticles and salt, and 209% and 155% for fresh nanoparticles and salt. However, Zincon assay indicated grain Zn does not exist as ions. This study demonstrates that ZnO-nanoparticles and Zn-salt vary in their effects on nutrient acquisition in wheat, with relevance for biofortification of Zn for human nutrition.

摘要

本研究评估了风化和新鲜的氧化锌纳米粒子和 Zn 盐对小麦养分吸收和再分配的影响。风化和新鲜的氧化锌纳米粒子和 Zn 盐分别显著增加了 15%和 29%的籽粒产量。收获后土壤酸化表明，纳米粒子在生长过程中溶解。两种 Zn 类型均显著被生物累积，但根到茎的生物累积效率较低：风化纳米粒子和盐为 24%和 20%，新鲜纳米粒子和盐为 48%和 30%。风化纳米粒子和盐使籽粒 Zn 含量增加了 186%和 229%，新鲜纳米粒子和盐使籽粒 Zn 含量增加了 229%和 300%。茎到籽粒的转运效率很高：风化纳米粒子和盐为 167%和 177%，新鲜纳米粒子和盐为 209%和 155%。然而，Zincon 分析表明，谷物中的 Zn 并不以离子形式存在。本研究表明，氧化锌纳米粒子和 Zn 盐对小麦养分吸收的影响不同，对人体营养 Zn 生物强化具有重要意义。

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暴露在土壤中的风化和新鲜纳米颗粒及离子态锌促进小麦（Triticum aestivum L.）的籽粒产量，并调节其养分吸收。

Exposure to Weathered and Fresh Nanoparticle and Ionic Zn in Soil Promotes Grain Yield and Modulates Nutrient Acquisition in Wheat ( Triticum aestivum L.).

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