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唐昌贵,罗顺福,芮文洁,严红梅,尹本林,杜丽娟.硒在辣木-土壤中的迁移转运规律[J].食品安全质量检测学报,2020,11(19):7135-7141

硒在辣木-土壤中的迁移转运规律

Migration and transportation of selenium in Moringa oleifera Lam.–soil system

投稿时间：2020-05-18 修订日期：2020-09-27

DOI：

中文关键词: 硒辣木土壤迁移转运

英文关键词:selenium Moringa oleifera Lam. soil migration transportation

基金项目:国家重点研发计划专项(2018YFD0800603)、云南省农业科学院应用基础研究专项(YJM201701)

作者	单位
唐昌贵	云南省农业科学院质量标准与检测技术研究所；永胜县六德乡农业综合服务中心
罗顺福	江城县农业环境保护监测站
芮文洁	永胜县六德乡农业综合服务中心
严红梅	云南省农业科学院质量标准与检测技术研究所
尹本林	云南省农业科学院质量标准与检测技术研究所
杜丽娟	云南省农业科学院质量标准与检测技术研究所

Author	Institution
TANG Chang-Gui	Institute of Agriculture Quality Standards & Testing Technique, Yunnan Academy of Agricultural Science；Agricultural Comprehensive Service Center of Liude Township Yongde County
LUO Shun-Fu	Agricultural Environmental Protection Monitoring Station
RUI Wen-Jie	Agricultural Comprehensive Service Center of Liude Township Yongde County
YAN Hong-Mei	Institute of Agriculture Quality Standards & Testing Technique, Yunnan Academy of Agricultural Science
YIN Ben-Lin	Institute of Agriculture Quality Standards & Testing Technique, Yunnan Academy of Agricultural Science
DU Li-Juan	Institute of Agriculture Quality Standards & Testing Technique, Yunnan Academy of Agricultural Science

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中文摘要:

目的研究硒在辣木中的富集效果以及土壤、辣木中硒含量的相关性。方法以盆栽辣木为实验材料, 以电感耦合等离子体质谱仪为检测手段, 以基施和喷施为外源硒添加方式进行研究。结果辣木是较好的硒富集植物, 喷施添加比基施添加对硒的富集作用明显, 喷施处理后, 辣木杆、根及土壤中硒含量比未添加分别增加了约10倍、6倍、1倍; 基施处理后, 辣木杆、根及土壤中硒含量比未添加分别增加了约2倍、2倍、3倍; 与基施相比, 喷施后硒的生物可利用性更高。硒添加后, 在辣木-土壤系统中迁移转运, 与从地下部分到地上部分的转运效率相比, 从地上部分到地下部分的转运效率更高, 且硒主要在杆中积累; 且随着喷施量的增加, 硒会逐渐迁移转运至根部, 并在根中积累, 富集效果: 杆＞根＞土壤。结论本研究为生产中通过施硒肥的外源调控措施来改善植物中硒含量, 为更合理地开发利用富硒产品提供了技术支撑。

英文摘要:

Objective To investigate the enrichment and transportation of selenium in Moringa oleifera Lam.-soil system. Methods The potted Moringa oleifera Lam. was used as the test materials, the inductively coupled plasma mass spectrometry was used as the detection method, and base application and spraying were used as the exogenous selenium addition way. Results Moringa oleifera Lam. was a better selenium-enriched plant. With the addition way of spraying and basing, the spray application was more effective than the addition of base to selenium. After spraying, the selenium content in rod, root and soil increased by about 10 times, 6 times and 1 time, respectively; The results showed that the content of selenium in rods, roots and soil increased by 2 times, 2 times and 3 times, respectively; Compared with no addition, and the bioavailability of selenium was higher after spraying. After selenium was added, the transportation efficiency from the aboveground part to the underground part was higher than that from the underground part to the aerial part in the soil-Moringa oleifera Lam.-soilsystem, and then selenium was mainly accumulated in the rod. As the amount of addition increased, selenium would gradually migrate to the soil and accumulate in the soil, thereby effectively improving the selenium deficiency state of the soil, and the enrichment effect of selenium was: rod>root>soil. Conclusion The experimental research provides a scientific basis for improving the availability of selenium in plants through exogenous regulation measures of selenium application in production, and provides technical support for more rational development and utilization of selenium-enriched products.

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