栽培条件对灵芝子实体中四种重金属含量的影响

以不同灵芝品种、不同栽培基质、不同栽培方式、不同生长时期获得的菌草灵芝和木屑灵芝为原料,对栽培基质及灵芝子实体中铅、砷、汞、镉4种重金属的含量参照国际标准进行检测,结果表明虽然菌草栽培基质中重金属含量高于木屑栽培基质,但菌草灵芝对重金属富集率远低于木屑灵芝,成熟期的菌草灵芝与木屑灵芝中的重金属含量均低于农业行业标准和国家标准。因此菌草可以替代木屑用作灵芝栽培的营养来源。     

湖北省双孢蘑菇子实体中重金属铅镉含量及来源分析

双孢蘑菇Agaricus bisporus子实体中重金属铅、镉含量分析结果表明,铅、镉的背景值含量分别为0.636mg/kg和0.127mg/kg,样品中铅含量的范围为0.087－2.40mg/kg,镉含量的范围为0.038－0.301mg/kg。在两种不同栽培模式下,子实体中铅含量均有显著差异,但镉的含量并无显著差异。相关性分析表明,子实体中铅来源于覆土而与培养料无关,而镉的来源与栽培方式有关,覆土和培养料中的镉含量均影响子实体中的镉含量。     

不同灵芝子实体及其粗多糖中微量元素及重金属含量分析*

利用电感耦合等离子发射光谱-质谱联用法(ICP-MS)、原子荧光法(AFS)和原子吸收法(AAS)对不同品种灵芝子实体中的生物必需微量元素、有毒的微量元素及重金属元素的含量进行了测定,并对其营养性和安全性进行了分析。与砷、镉、汞相比,在所有品种的灵芝中重金属铅的含量相对较高,但是在对全国各地收集的灵芝及其培养基分析,灵芝对铅没有生物富集的作用。另外,灵芝粗多糖中各种元素的含量均明显高于提取用的灵芝子实体,其中铅和砷含量高于国家标准,其安全性应该受到重视。     

不同灵芝子实体及其粗多糖中微量元素及重金属含量分析

利用电感耦合等离子发射光谱-质谱联用法（ICP-MS）、原子荧光法（AFS）和原子吸收法（AAS）对不同品种灵芝子实体中的生物必需微量元素。有毒的微量元素及重金属元素的含量进行了测定,并对其营养性和安全性进行了分析。与砷、镉、汞相比,在所有品种的灵芝中重金属铅的含量相对较高,但是在对全国各地收集的灵芝及其培养基分析,灵芝对铅没有生物富集的作用,另外,灵芝粗多糖中各种元素的含量均明显高于提取用的灵芝子实体,其中铅和砷含量高于国家标准,其安全性应该受到重视。     

‘新选七叶’油菜对土壤3种重金属的吸收和累积特征

以‘新选七叶’油菜为研究对象,采用土培方法,研究在不同浓度重金属(镉、铅、汞)胁迫下,油菜对重金属的吸收和积累特征,并探讨重金属在土壤—蔬菜间的迁移情况。结果表明:不同重金属在植物不同部位的分布和积累规律存在差异,镉和汞在植株上的积累规律为根叶茎,而铅在植株上的积累规律为根茎叶。油菜根部对重金属的累积能力远高于茎和叶,根部对三种重金属的吸收富集能力为镉汞铅。油菜各部位重金属含量与土壤重金属浓度呈显著正相关(r20.859)。以蔬菜可食部位重金属含量的最大限量为标准(GB 15201-1994、GB 14935-1994、GB 2762-1994),计算得出土壤中对应的镉、铅、汞临界值分别为0.362、43.62、2.892μg/g。     

冬虫夏草与产地植物及土壤的重金属含量测定

本文测定了野生采集和人工培育冬虫夏草、人工培育冬虫夏草子实体、冬虫夏草发酵菌液、冬虫夏草寄主蝙蝠蛾昆虫食物(蕨麻Potentilla anserine和珠芽蓼Polygonum viviparum),以及野生冬虫夏草产地土壤中5种重金属元素(铜Cu、铅Pb、砷As、镉Cd、汞Hg)的含量。结果表明,人工培育冬虫夏草、人工培育冬虫夏草子实体、冬虫夏草发酵菌液、蕨麻块根、珠芽蓼种子的5种重金属元素含量符合《中医药-中药材重金属限量》ISO国际标准;而野生冬虫夏草,除砷含量(6.170 mg/kg)超标外,铜、铅、镉、汞元素含量均符合要求。按国家标准《土壤环境质量农用地土壤污染风险管控标准(试行)》(GB 1516-2018),四川产地土壤(KDX)与青海产地土壤(GD、HN)的5种重金属含量均低于农用土壤污染风险筛选值;而四川产地土壤(KDT),除镉含量(0.923 mg/kg)高于风险筛选值而低于风险管制值外,其余4种元素含量均低于风险筛选值。结果为人工培育冬虫夏草的质量控制提供了参考。     

5种湿地植物对土壤重金属的富集转运特征

选择芦苇、水葱、千屈菜、扁秆藨草、长苞香蒲5种湿地植物进行盆栽实验,比较它们对土壤中的5种重金属镉、铬、汞、铅、锌的富集特性,分析重金属在各植物体和土壤中的动态分布,以评价所测植物对土壤中重金属的综合富集能力,为利用植物修复金属污染土壤提供理论依据和技术支持。结果表明:(1)种植湿地植物对土壤重金属的富集效果显著高于无植物对照,且随着处理时间的延长,土壤中重金属镉、铬、汞、铅、锌的含量均呈下降趋势。(2)湿地植物对重金属镉、铬、汞、铅、锌的富集效果差异显著,其中水葱根部对重金属镉的富集系数最大,芦苇根部对重金属铬、汞、铅、锌的富集系数均最大,千屈菜、扁秆藨草和长苞香蒲根部对5种重金属的富集系数均较小;芦苇地上部分对金属镉的富集系数最大,千屈菜地上部分对金属铬、汞、铅的富集系数均最大,水葱地上部分对金属锌的富集系数最大。(3)5种湿地植物对重金属镉、铬、汞、铅、锌的转移系数差异显著,其中扁秆藨草对土壤中镉、铬、铅、锌的转移系数均为最大,对铬和锌的转移系数均大于1,长苞香蒲对铬的转移系数大于1,仅次于扁秆藨草。其他3种植物对5种重金属的转移系数均小于1。研究表明,5种湿地植物对重金属Cd、Cr、Hg、Pb、Zn都有富集和转移的能力,但不同植物对不同重金属的富集效果不同。     

西安市蔬菜中重金属污染分析评价

采用原子吸收光谱法和原子荧光光度法,测定了西安市郊区10种蔬菜40个样品中汞、砷、铅、铬和镉的含量;并以国家标准(GB18406.1-2001)为依据.对蔬菜重金属污染状况进行分析评价,以明确西安市蔬菜中重金属污染状况.结果表明,西安市10种蔬菜总体合格率为83%,铅是蔬菜中的主要污染元素,在测定的10种蔬菜中普遍存在,总体超标率为77.5%;汞和铬只在芹菜和茼蒿上出现污染,总体超标率分别为10%和2.5%;叶菜类蔬菜铅污染>茄果类蔬菜;砷和镉含量均末超过国家标准规定,合格率为100%.铅的污染程度按蔬菜种类依次为:生菜>茼蒿>韭菜>茄子>芹菜>豇豆>青椒>油麦菜>西红柿>黄瓜,按不同生产区域依次为:西郊>北郊>东郊>南郊.     

中国主要食用菌子实体γ-氨基丁酸含量测定及产量影响因素

γ-氨基丁酸(γ-aminobutyric acid,GABA)是一种功能性非蛋白氨基酸,在维持人体健康方面发挥着重要作用。为探明食用菌子实体的GABA含量水平和影响食用菌GABA产量的因素,本研究通过对食用菌GABA提取和衍生条件优化,建立了食用菌GABA检测的9-芴甲氧羰酰氯(FMOC-Cl)柱前衍生HPLC法;利用该方法测定了20种中国主要食用菌子实体的GABA含量,并进一步探究了培养料氮源含量和种类、栽培时间对GABA含量的影响。食用菌GABA提取的最佳料液比、时间和温度分别为1:100、1 h和65 ℃。20种食用菌子实体的GABA含量在0.20-3.02 mg/g DW,存在显著种间差异,其中黄白银耳GABA含量最高(3.02 mg/g DW),香菇、银耳、金针菇、双孢蘑菇的GABA含量也较高,为1-2 mg/g DW。增加培养料含氮量可显著促进GABA积累,且添加尿素的促进效果明显优于添加麦麸。栽培时间也可影响子实体GABA产量,第二茬和三茬子实体的GABA含量显著高于第一茬子实体。综上可知,食用菌GABA含量不仅与品种密切相关,而且受到培养料中氮源含量和种类、栽培时间的影响。     

龙胜县丘陵山区土壤与罗汉果重金属含量及潜在生态危害评价——以宝赠村为例

桂林市龙胜县作为罗汉果的三大主产区之一,种植区土壤重金属含量及罗汉果质量影响到该区罗汉果产业的健康发展。为探索龙胜县丘陵山区典型贫困村罗汉果园的安全性,该文研究了宝赠村典型罗汉果园土壤及罗汉果果实中砷、铜、锌、铅、镉、铬、汞7种重金属含量,并采用Hankanson指数法分析了其潜在生态风险。结果表明:(1)龙胜丘陵山区罗汉果园土壤(0~10 cm,10~20 cm)重金属含量均达到国家农业用地土壤筛选值标准(GB15618-2018),其中0~10 cm土壤中砷、铜、锌、铅、镉、铬、汞的含量分别为3.67、18.00、58.39、17.01、0.10、28.57、0.08 mg·kg^-1,10~20 cm土壤中砷、铜、锌、铅、镉、铬、汞的含量分别为1.93、12.56、21.47、10.51、0.04、17.09、0.02 mg·kg^-1。(2)在0~10 cm和10~20 cm土层中,重金属的生态风险状况总体上处于轻微生态风险等级,综合生态风险指数分别为105.29和38.96;0~10 cm土层不同重金属潜在的生态风险顺序为汞>镉>铅>铜>砷>锌>铬,汞、镉的生态风险分别为50.16、42.05,在总重金属风险中贡献率分别占所有重金属的47.6%和39.9%,已达中等生态风险等级;在10~20 cm土层中,7种重金属的生态风险大小关系为镉>汞>铜>铅>砷>铬>锌。(3)研究区罗汉果果实中砷、铜、锌、铅、镉、铬、汞的含量分别为0.00024、0.273、1.10、0.0016、0.00013、0.00013、0.00012 mg·kg^-1,其生态风险状况均处于轻微风险等级,7种重金属的生态风险顺序为汞>铜>镉>锌>铅>砷>铬,综合生态风险指数为0.21193,几乎不存在生态风险。因此,在龙胜县丘陵山区典型贫困村——乐江镇宝赠村推广种植的罗汉果达到了安全质量标准。     

Detection and Analysis of 12 Heavy Metals in Blood and Hair Sample from a General Population of Pearl River Delta Area

To detect the content of 12 heavy metals in blood and hair sample from a general population of Pearl River Delta area, and to analyze the influence of duration of residence, gender, age, smoking and drinking on the heavy metal content. Use inductively coupled plasma mass spectrometry to detect the content of 12 heavy metals lead (Pb), mercury (Hg), cadmium (Cd), aluminum (Al), arsenic (As), copper (Cu), chrome (Cr), manganese (Mn), nickel (Ni), zinc (Zn), tin (Sn) and antimony (Sb) in blood and hair samples of a total of 50 subjects from a general population, collected by multistage stratified cluster random sampling method. The geometric mean of heavy metal content in blood samples of general population (μg/L): blood aluminum 214.00; blood chrome 92.82; blood manganese 21.43; blood nickel 20.59; blood copper 0.67; blood zinc 11.50; blood arsenic 0.55; blood cadmium 2.45; blood tin 0.00; blood antimony 1.92; blood lead 158.84; and blood mercury 1.19. The geometric mean of heavy metal content in hair samples of general population (μg/g): hair aluminum is 84.65; hair chrome 0.00; hair manganese 2.44; hair nickel 0.61; hair copper 28.49; hair zinc 136.65; hair arsenic 0.75; hair cadmium 0.46; hair tin 1.04; hair antimony 0.05; hair lead 8.97; and hair mercury 0.69. Some heavy metals were correlated with duration of residence, gender, age, smoking and drinking. This was the first time that simultaneously detecting heavy metal content in blood and hair was used to analyze the internal heavy metal burden in resident population of Pearl River Delta area. These data can serve as reference for further research.     

The Physiological Role of Boron on Health

Environmental factors have been implicated in the etiology of autism spectrum disorder (ASD); however, the role of heavy metals has not been fully defined. This study investigated whether blood levels of mercury, arsenic, cadmium, and lead of children with ASD significantly differ from those of age- and sex-matched controls. One hundred eighty unrelated children with ASD and 184 healthy controls were recruited. Data showed that the children with ASD had significantly (p < 0.001) higher levels of mercury and arsenic and a lower level of cadmium. The levels of lead did not differ significantly between the groups. The results of this study are consistent with numerous previous studies, supporting an important role for heavy metal exposure, particularly mercury, in the etiology of ASD. It is desirable to continue future research into the relationship between ASD and heavy metal exposure.     

上海市食用菌重金属污染状况的研究

本文通过对上海不同区域的金针菇、蘑菇、平菇、鸡腿菇及香菇5种常见鲜食用菌进行实地抽样,采用微波消解前处理,电感耦合等离子体质谱法(ICP-MS)测定食用菌中铅(Pb)、砷(As)、汞(Hg)、镉(Cd)的含量,考察鲜食用菌的重金属污染状况.研究结果表明,不同食用菌中重金属的污染状况随其种类和地域的不同而呈现显著差异.As、Pb、Cd和Hg在食用菌中的平均含量分别为0.177 mg/kg、0.094 mg/kg、0.082 mg/kg和0.004 mg/kg,均低于GB 2762-2012《食品安全国家标准食品中污染物限量》中的限量标准,说明上海市售鲜食用菌的重金属含量总体上是安全的.但在这5种食用菌中,部分蘑菇样品中的砷残留存在安全风险,样品超标率为27.3%;但进一步研究表明,超标蘑菇样品中无机砷占总砷的比例仅为4.4%~6.3%,最高含量仅为0.370 mg/kg,以无机砷含量替代总砷含量进行考察,则这些样品也是食用安全的.虽然在不同地区的食用菌中,这4种重金属的含量有显著差异,但均低于国标限定值,说明在上海市不同地区出售的食用菌总体上是安全的,可以放心食用.     

大肠杆菌拓扑异构酶I结合重金属的特性及功能影响

【背景】大肠杆菌拓扑异构酶Ⅰ(Escherichia coli topoisomerase I,E.coli TopA)在DNA复制、转录、重组和基因表达调控等过程发挥关键作用。研究表明E.coli TopA只有结合锌离子才具有活性,然而E.coli TopA能否结合其他金属离子尤其是重金属离子,以及结合其他金属后是否具有活性,目前仍不清楚。【目的】探究大肠杆菌拓扑异构酶Ⅰ是否结合环境中常见重金属离子,研究重金属离子结合E.coli TopA蛋白后对其活性的影响。【方法】在分别添加有锌、钴、镍、镉、铁、汞、砷、铬、铅、铜离子的M9基础培养中表达、纯化出E.coli TopA蛋白,并对纯化得到的蛋白用电感耦合等离子体质谱仪进行相应金属离子含量的测定;利用表达E.coli TopA锌指结构的突变体蛋白鉴定重金属离子的结合位点;通过体外超螺旋DNA松弛实验测定不同金属结合E.coli TopA的拓扑异构酶活性;通过测定蛋白内源性荧光推测不同金属结合E.coli TopA的空间构象差异。【结果】E.coli TopA在体内除了能结合锌和铁之外,还能够结合钴、镍、镉3种离子,但是不能结合汞、砷、铬、铅、铜离子。钴、镍、镉结合形式的E.coli TopA,每个蛋白分子最多可以结合3个相应的金属离子,他们与TopA蛋白的结合位点也是位于3个锌指结构域,而且每个锌指结构域结合1个金属离子。此外,E.coli TopA结合钴、镍、镉离子后,其DNA拓扑异构酶活性并未受到影响,可能是由于钴、镍、镉离子结合形式的E.coli TopA蛋白,其空间构象与锌结合形式相比并未发生显著变化。【结论】由于DNA拓扑异构酶在维持细胞正常生理功能中发挥关键作用,研究表明E.coli TopA的功能不会受到常见重金属的干扰(不结合或者结合后活性无影响),这也有可能是大肠杆菌在进化过程中产生的对抗环境中重金属离子毒害作用的一种自我保护和耐受机制,具有重要的生理意义。     

Spatial Distribution and Correlative Study of the Total and the Available Heavy Metals in Soil From a Typical Lead Smelting Area,China

Representative soil samples (n = 453) were collected from a lead smelting area in central China. The total and the available contents of several hazardous elements, including lead, cadmium, arsenic and mercury were determined. Inorganic acid were used for the pretreatment of the total element analysis. DTPA (Diethylene triamine pentacetate acid) digestion, an effective pretreatment procedure for the biological availability assessment of heavy metals, was used for bio-available assessment in this study. Graphite furnace atomic absorption spectrometry (GFAAS), inductively coupled plasma-optical emission spectrometer (ICP-OES) and inductively coupled plasma-mass spectrometry (ICP-MS) were employed for the instrumental analysis. The results indicated that the soil samples were seriously polluted by mercury, arsenic, lead and cadmium around the smelting factories, comparing to many other cities in China. Spatial distributions of the metal contents were then illustrated with maps. For 220 samples in pollution areas, average bio-effectiveness rates of cadmium, lead, mercury and arsenic in soils were 25.9%, 17.2%, 0.58% and 0.11%, respectively. The relationships of the total and the available contents of metals were investigated, among which lead and cadmium were found to can be expressed as linear and power function. These equations were tested inversely and further verified by the data from six randomly selected sites. The results will be helpful to assess the bioavailable contents of lead and cadmium fast and accurately only by the total contents and functional calculation in similar study.     

Metals sorption from aqueous solutions by Kluyveromyces marxianus: Process optimization,equilibrium modeling and chemical characterization

The dead Kluyveromyces marxianus biomass, a fermentation industry waste, was used to explore its sorption potential for lead, mercury, arsenic, cobalt, and cadmium as a function of pH, biosorbent dosage, contact time, agitation speed, and initial metal concentration. The equilibrium data fitted the Langmuir model better for cobalt and cadmium, but Freundlich isotherm for all metals tested. At equilibrium, the maximum uptake capacity (Qmax) was highest for lead followed by mercury, arsenic, cobalt, and cadmium. The RL values ranged between 0–1, indicating favorable sorption of all test metals by the biosorbent. The maximum Kf value of Pb showed its efficient removal from the solution. However, multi-metal analysis depicted that sorption of all metals decreased except Pb. The potentiometric titration of biosorbent revealed the presence of functional groups viz. amines, carboxylic acids, phosphates, and sulfhydryl group involved in heavy metal sorption. The extent of contribution of functional groups and lipids to biosorption was in the order: carboxylic>lipids>amines>phosphates. Blocking of sulfhydryl group did not have any significant effect on metal sorption.     

The cycling of cadmium and mercury between substrate and fruiting bodies of Agrocybe aegerita (a fungal model system)

Summary The cycling of cadmium and mercury between substrate and fruiting bodies in a model system with wood colonizing basidiomycete Agrocybe aegerita was studied. When radiolabeled ¹⁰⁹CdCl₂ and ²⁰³HgCl₂ were applied to the fruiting bodies of the first flush, they were translocated via substrate into successive harvests. Cadmium and mercury displayed different patterns of distribution in the system. On a percent basis, more cadmium went from the fruiting bodies into the substrate and was retained there. Only minor portions of the metal were translocated into consecutive crops. In contrast, more mercury was retained in the treated fruiting bodies. The fraction which had penetrated into the substrate, however, was more easily translocated into fruiting bodies of successive crops. When calculated on a dry weight basis, the amount of both metals decreased in consecutive harvests.At the end of the experiment, in following distribution patterns for cadmium and mercury were observed: Cd²⁺: first crop (treated), 9.5%; substrate, 77%; combined successive crops (untreated), 9.5%; Hg²⁺: first crop (treated), 36.5%; substrate 21.5%; combined successive crops (untreated), 37%. The patterns reveal that mercury is more mobile in the substrate and therefore more easily translocated to successive fruiting body generations. Hence, from a nutritional point of view, mercury would seem to be more hazardous than cadmium.