植物中砷的形态分析

应用离子交换树脂静态吸附和溶剂萃取相结合的分离技术，分析了植物中砷的四种形态化合物：无机三价砷和五价砷，一甲基胂和二甲基胂。并用石墨炉原子吸收光谱法（ＧＦＡＡＳ）测定其含量。文中采用ＨＣｌ浸提植物的砷，并对ＨＣｌ的浓度、体积以及浸提时间作了详细的探讨。用２０ｍＬ１ｍｏｌ／ＬＨＣｌ对１．０ｇ干植物２ｄ的浸出量与传统消化法总量的比值为０．８５－１．００。对浸出液进行形态分析，总砷回收率为８６％－９３％     

砷污染对植物和人体健康的影响及防治对策

讨论了土壤环境背景值及来源，地植物和人体健康的影响，砷的环境质量标准，国内外砷对环境的情况，以及砷污染防治对策。。     

砷从农业土壤向人类食物链的迁移

综述了砷在土壤．植物．人类系统中的迁移,包括：砷在环境中的行为,农业系统中砷迁移的动力学过程和粮食中砷的含量,影响砷对植物有效性的各种因子,以及砷在人体内的分布、对人体的营养作用及不同形态对人体的毒性。     

植物样品中痕量砷的形态分析研究进展

介绍了近十年来国内外植物样品中包括药用植物中砷的形态分析研究进展。由于植物中的砷含量甚低,其主要的检测手段是:氢化物电感耦合等离子体原子吸收光谱法(HG-ICP-AAS)、高效液相色谱-等离子体质谱法(HPLC-ICP-MS)、氢化物原子荧光光谱法(HG-AFS)。     

硝酸-过氧化氢敞口消解/ICP-MS测定植物样品砷含量

选取了玉米秸秆与籽粒、小麦秸秆与籽粒、烟草等5种不同的植物样品,加入硝酸-过氧化氢,进行敞口消解,消解液中As(⁷⁵As)采用电感耦合等离子体质谱仪He碰撞模式测定,以⁷²Ge为内标元素。结果表明：2个国家生物成分分析标准物质GBW10011(GSB-2,小麦)和GBW10020(GSB-11,柑橘叶)砷的测定值在标准确认值范围内;在植物样品中加入砷标准溶液,加标回收率在87%~104%之间;方法检出限为0.0055 μg/g,灵敏度较高;对4个植物样品分别重复测定5次,相对标准偏差均小于10%。本文结论认为电感耦合等离子体质谱仪He碰撞模式可以用于测定硝酸-过氧化氢敞口消解植物样品中砷含量,该方法测定结果准确可靠,重现性好,灵敏度高。     

无机砷甲基化研究进展

砷是一种生物活性元素。长期接触砷会导致癌症、心脏病、糖尿病等疾病的发生。无机砷甲基化是砷在动物体内的主要代谢方式,被公认为砷元素的解毒过程,因此无机砷甲基化的研究引起了科学家们的广泛关注并取得了重要进展。本文综述了近年来国内外学者及作者研究组在"砷甲基化酶","无机砷甲基化机制"及"无机砷甲基化抑制"等方面的研究进展。     

氢化物发生-原子荧光光谱法测定植物提取物中砷

建立了测定植物提取物中微量砷的原子荧光光谱方法,方法灵敏度高,准确度好。在选定的实验条件下,荧光强度与砷浓度在0～17ng／mL范围内成线性关系,相关系数0．9993,检出限0．4ng／mL,回收率92．3％～98．1％,相对标准偏差不超过4．2％。     

HPLC-ICP-MS测定植物样品中6种砷形态化合物

通过优化色谱分离、样品前处理条件,同时对比了电感耦合等离子体质谱的标准模式(STD)、碰撞模式(KED)、氧气反应模式(Oxygen-DRC)、甲烷反应模式(Methane-DRC)的检测结果,建立了一种有效分离植物样品中砷甜菜碱(AsB)、二甲基砷酸(DMA)、亚砷酸(As(Ⅲ))、砷胆碱(AsC)、一甲基砷酸(MMA)、砷酸(As(Ⅴ))6种砷形态化合物的高效液相色谱-电感耦合等离子体质谱(HPLC-ICP-MS)分析方法。样品以1%HNO₃溶液为提取溶剂,90℃加热提取2.5 h,RP小柱净化,然后采用AS7阴离子交换柱分离,25~80 mmol/L(NH₄)₂CO₃溶液梯度洗脱,在STD模式下测定,6种砷形态化合物在9 min内完全分离。方法检出限为0.10~0.25μg/L,加标回收率为87.5%~117.8%,相对标准偏差(RSDs)为1.2%~1.8%。方法适用于植物样品中6种砷形态化合物的测定。     

砷形态分析

综述了近几年砷形态分析方法的最新研究进展.以常见砷形态分析方法发展为主线,讨论了不同砷形态分析方法的发展过程和应用情况,对不同方法的优缺点进行了扼要评述.早期的砷形态分析方法主要是以色谱和原子光谱联用为主要手段,随着不同的、更为有效的砷化合物检测手段的出现,砷形态分析方法也不断进行完善、发展.目前,在定量分析方面以液相色谱和电感耦合等离子体质谱联用方法为主要常规分析手段;在砷化合物定性分析方面,色谱-电感耦合等离子体质谱与电喷雾质谱相互补充的联用方法逐渐成为了主要分析手段.砷形态分析在环境健康和毒理学方面的应用是目前该领域的主要研究方向,结合国际上最新的研究进展,讨论了砷形态分析方法在环境毒理学等研究中发挥的重要作用.     

不同预处理方法对巴戟中砷限量检查的影响

采用５种不同预处理方法对巴戟药材进行处理，并用古蔡氏砷斑法检测其含量，发现不同处理方法的检测结果相差甚大，为中药砷限量检查中正确选择样品预处理方法提供了参考。     

Plant polyphenols

Summary Hyperoside and rhododendrin have been isolated from the leaves ofRhododendron aureum Georgi; the presence of quercetin and rhododendrol has been shown by paper chromatography.Khimiya Prirodnykh Soedinenii, Vol. 1, No. 4, pp. 289–292, 1965     

Plant polyphenols

Summary Hyperoside and quercitrin have been isolated from the flowers ofGodetia whitneyi and identified.Khimiya Prirodnykh Soedinenii, Vol. 1, No. 5, pp. 347–350, 1965     

Plant polysaccharides

IR spectroscopy has been used to detect a mannan inUngernia bulbs. The mannan was determined qualitatively and quantitatively directly in a preparation of ground bulbs, avoiding the process of extracting the polysaccharide.Institute of the Chemistry of Plant Substances, Academy of Sciences of the Republic of Uzbekistan, Tashkent, fax (3712) 40 64 75. Translated from Khimiya Prirodynykh Soedinenii, No. 5, pp. 683–685, September–October, 1997.     

Pyrolysis Process of Plant Fibers北大核心CSCD

The natural plant fiber has a large molecular weight and complex structure and composition,and its thermal cracking products and the composition distribution are also more complex. The fast pyrolysiscomprehensive two-dimensional gas chromatography with time-of-flight mass spectrometry（Py-GC×GC-TOF/MS）,thermogravimetry-Fourier transform infrared spectroscopy（TG-FT-IR）,and in situ Fourier transform infrared spectroscopy（in situ FT-IR）methods were used to study the thermal pyrolysis process of six different natural fibers. The distribution of thermal pyrolysis products of different fibers under different pyrolysis temperatures was investigated and the product form was fully discussed. The research results show that the products of fiber pyrolysis mainly include alcohols,aldehydes,ketones,acids,esters,hydrocarbons, dehydrated sugars and CO2,etc. The types of pyrolysis products of different natural plant fibers are obviously different,and the main product types obtained are all different. At the same time,the results of in situ infrared spectroscopy and mass spectrometry show that pyrolysis products are closely related to the pyrolysis temperature. The results of in situ infrared experiments show that when the pyrolysis temperature is lower than 100 °C,the adsorbed water on the surface of the fiber structure is desorbed,but the fiber structure does not change significantly. When the pyrolysis temperature range is 100~200 °C,the temperature has little effect toward the pyrolysis process. When the temperature exceeds 300 °C,the fiber pyrolysis reaction intensifies and the surface structure changes significantly,and the main products are aldehydes and ketones. © 2022, Science Press (China). All rights reserved.     

镉对植物根系的毒害作用

镉是一种毒性很强的重金属,可严重影响植物的生长。当镉对植物产生毒害作用时,首先表现在根系的形态和生理功能改变上。综述了镉胁迫下植物根系的形态学变化及生理生化改变,以及镉在植物体内的代谢过程,初步探讨了根际土壤对植物吸收镉的影响,并简单介绍了目前测定根系指标的常用方法。     

Contexts and Limits of Lavoisier's Analytical Plant Chemistry: Plant Materials and their Classification

Abstract

This paper concerns eighteenth- and early nineteenth-century chemists' ontologies of materials, along with their modes of classification. The focus is on plant substances, their place in the "chemical revolution" in the last third of the eighteenth century, and the ways in which chemists individuated, identified, and ordered plant substances in the five decades before and after that event. The main goal of the paper is to describe the problems that the "new chemists" confronted in their attempts to assimilate plant materials into their analytical taxonomic programme. Historical analysis shows that there were both external and internal obstacles to that assimilation, and these can be illuminated by studying the programme's broader historical context.     

HR-MAS NMR Applications in Plant Metabolomics

Metabolomics is used to reduce the complexity of plants and to understand the underlying pathways of the plant phenotype. The metabolic profile of plants can be obtained by mass spectrometry or liquid-state NMR. The extraction of metabolites from the sample is necessary for both techniques to obtain the metabolic profile. This extraction step can be eliminated by making use of high-resolution magic angle spinning (HR-MAS) NMR. In this review, an HR-MAS NMR-based workflow is described in more detail, including used pulse sequences in metabolomics. The pre-processing steps of one-dimensional HR-MAS NMR spectra are presented, including spectral alignment, baseline correction, bucketing, normalisation and scaling procedures. We also highlight some of the models which can be used to perform multivariate analysis on the HR-MAS NMR spectra. Finally, applications of HR-MAS NMR in plant metabolomics are described and show that HR-MAS NMR is a powerful tool for plant metabolomics studies.     

Hydroxyproline-Containing Plant Proteins

Data on hydroxyproline-containing proteins of plant cell walls were reviewed. Structure-function relationships were discussed.