微波消解-FAAS法分析并比较旱芹(Apium graveolens L.)不同部位八种金属元素的含量

采用微波消解法处理旱芹根、茎、叶,并用火焰原子吸收法测定其中的Na、K、Ca、Mg、Fe、Mn、Zn、Cu 8种金属元素的含量。结果表明:旱芹中富含人体必需的Na、K、Mg、Fe、Ca等元素,各元素在不同部位含量有一定差异。Fe元素在旱芹根中含量为883.57μg.g-1,明显高于茎和叶;Ca、Zn和Mn元素在旱芹叶中的含量分别为11 103.74,214.04,88.07μg.g-1,明显高于茎和根;K、Na和Mg元素在旱芹茎中的含量高于根和叶中,Cu元素含量在各部位差异不大。方法的加标回收率为96.8%～105.8%,相对标准偏差(RSD)≤3.36%。     

红花对土壤矿质元素的吸收和积累

采用电感耦合等离子体原子发射光谱法(ICP-AES)检测红花不同部位和时期以及栽培土壤中K、Ca、Na、Mg、Fe、Cu、Zn、Mn、Cr、Cd、Pb、Ba、Ni和Al元素的含量。结果表明:红花各部位矿质元素含量差异明显。在红花各不同部位中K、Fe、Zn元素在幼苗中含量最高,Ca、Mg元素在成熟叶中含量最高,Cu元素在种子中含量最高;而K和Ca元素在种子中含量最低,Mg、Fe、Cu和Zn元素分别在花、茎、成熟叶和茎中含量最低。红花的幼苗和花对K元素吸收积累明显,幼苗和种子对Cu元素吸收积累明显,Ca元素在成熟叶中积累较多,相应元素含量远比土壤中相应的元素含量高。红花对土壤不同矿质元素的吸收利用差异较大,在长期栽培红花的土壤中应注意对吸收利用多的元素结合施肥进行补充。     

棘茎楤木不同器官营养成分初步研究

对棘茎楤木不同器官养分进行分析,结果表明,棘茎楤木叶片中可溶性蛋白质和可溶性糖含量分别达60.40,15.41 g/kg,是茎皮的3.4和2.9倍,是根皮的4.5和3.0倍.叶片齐墩果酸含量最高,达179.42 mg/kg,分别是茎皮和根皮的1.6和1.7倍.棘茎楤木不同器官营养元素平均含量总体表现为K＞Mg＞ Ca ＞Mn ＞Zn＞ Fe＞Na＞ Cu.根皮中K、Ca、Fe、Cu含量较高,而茎皮中的Mg、Mn、Zn含量高于根皮和叶,Na的含量以叶片为高.     

水位变化对三峡库区消落带狗牙根种群营养特征的影响

为探讨三峡库区大尺度、反季节水位变化对消落带狗牙根种养元素吸收和分配特征的影响, 分别测定了三个样带的营养元素含量。结果表明: 根、茎、叶中大量元素含量顺序为N>K>P, 中量元素含量顺序为Ca>S>Mg, 微量元素为Fe>Zn>Cu>Mn。根系对K、Mg、S、Fe、Mn、Zn 的吸收均被促进, 而对P 和Ca 的吸收被显著抑制, 低水位根系对N、Cu 的吸收也被显著促进。高水位茎和叶中N、P、K、Mg、S、Cu 的含量呈降低趋势, Ca、Fe、Mn 含量呈显著增大趋势, 且茎中Zn 含量也呈增加趋势。随着水位的降低N、P、K、Mg、S、Zn 含量显著增加, 在叶片中的含量显著大于根、茎, 而Fe、Mn、Cu 表现出主要向茎分布的趋势, 且Ca 在叶中的分配显著被抑制, 而在茎中的分配被促进。随着水位降低新叶中N、P、K、Mg、S 的含量明显高于老叶, 而Fe、Ca、Mn、Zn 和Cu 则相反。随着分枝级数增大N、P、K 的含量呈递增趋势, Ca、Cu、Fe、Zn 呈递减趋势, 而Mg、S 含量呈“∨”形变化。因此, 库区水位已导致消落狗牙根种群营养特征发生显著的变化。     

硼在梨树苗不同部位的分布及与其他元素分配的关系

以‘翠冠'梨树苗为试验材料,采用微波消解提取灰分结合等离子发射光谱仪测定法,研究硼(B)添加对梨不同部位B分布及对P、K、Ca、Mg、Fe、Zn、Mn和Cu 8种元素吸收分配的影响.结果表明:‘翠冠'梨不同器官B浓度大小为叶片>根系>茎,随营养液B浓度增加,‘翠冠'梨根、茎、叶B浓度呈增加的趋势,营养液B浓度越高根系B浓度增加幅度越大,不同处理间差异显著.高B处理明显影响‘翠冠'梨苗8种矿质元素在根、茎、叶中的分配.根中P、K、Mg、Zn、Mn和cu浓度随营养液B浓度增加而提高,Ca和Fe浓度随营养液B浓度增加而降低,而转运系数均随B浓度增加而增大;茎中P、Ca、Mg、Zn、Mn和Cu浓度随营养液B浓度增加而提高,K和Fe随营养液B浓度增加而降低,P和K转运系数随B浓度增加而增大,Fe无明显变化,其他元素的转运系数随营养液B浓度增加而降低;叶中P、K、Mn和Cu浓度随营养液B浓度增加而提高,Fe和Zn则相反,而Ca和Mg则先升高后降低,除Zn与Mn外,其他元素的转运系数随营养液B浓度增加而增大.     

珍稀濒危植物矮牡丹体内矿质元素的研究

采用原子吸收分光光度法测定了矮牡丹体内的10种矿质元素,即K、Mg、Mn、Fe、Ni、Zn、Cu、Cd、Cr、Pb。分析了矿质元素在矮牡丹体内的分布规律及矮牡丹对各种元素的富集能力。结果表明:在不同器官中的矿质元素含量有显著差异, K、Mg、Mn、Ni、Cd、Cr、Pb以叶中为高, Fe、Zn、Cu分别以根、茎、叶柄中含量最高;大多数元素在叶柄中含量最低。矮牡丹对K、Mg、Mn、Fe、Zn有较强的吸收富集能力,一般叶的富集系数较其它器官为高。元素间相关分析表明:Zn、Cd、Cr、Pb、Mn、Fe、Ni、Cu之间有显著的相关性, K、Mg之间的相关性显著。此外,土壤与植物体内元素含量表现出显著的相关性。     

湘西地区木通果实微量元素的测定

采用马弗炉干法灰化消化样品,火馅原子吸收法连续测定白木通Akebia trifoliata var.australis (Cieli._Kehd、三叶木通A.trifoliata(Thumb.)Koidz、木通A.quinata Decne.果实中微量金属元素,检测出K,Ca,Na,Mg,Fe,Zn,Mn,Cu等8种元素含量。3种植物果实中K,Ca,Mg含量较高(＞0．1000mg/g),其中K元素远高于其他元素,Na,Cu含量较低(＜0．0100mg/g)。Fe,Zn,Mn的含量处于中等水平。白木通果实中K,Me,Zn,Mn 4种矿质元素高于三叶木通和木通。木通果实中Ca,Fe两种元素稍高于白木通、三叶木通。Na,Cu两种微量元素在3种果实中含量基本相拟。     

ICP-OES测定铁皮石斛干花中多种元素

用微波消解和马弗炉灰化消解分别处理云南、浙江、霍山三种产地的铁皮石斛干花,再用电感耦合等离子体发射光谱仪(ICP-OES)定量分析多种元素含量,构建一种快速测定石斛干花元素含量的方法。结果表明,微波消解结合ICP-OES测出三产地石斛花存在常量元素K、Ca、Na、Mg和微量元素Se、Co、Cu、Mn、Fe、Cr、Sr、Zn、B,且含量均高于马弗炉消解结合ICP-OES测定结果;有害元素As、Pb、Cd、Hg和潜在有害元素Sb、Ba、Sn、Al、Ni均未检出;内标回收率均在92.5%-110.0%之间,相对标准偏差(RSD)<10%。试验探究出微波消解和ICP-OES的结合不仅效率高,检测成本低,运行稳定且测定结果准确可靠,可用于铁皮石斛干花中多元素分析研究。     

盐胁迫对沙枣幼苗不同部位矿质元素含量的影响

沙枣(Elaeagnus angustifolia L.)是我国北方生态脆弱地区造林绿化的一个先锋树种,为进一步揭示其耐盐生理机制,本文采用温室水培方法,研究了0(CK)、100和200mmol·L-1NaCl胁迫下沙枣实生幼苗不同部位(根、茎、叶和地上部分)Na、Cl、K、Ca、Mg、Fe、Cu、Mn、NO_3~--N、SO_4~(2-)-S、P等11种主要矿质元素含量、含量比值以及转移系数的变化。结果表明:(1)与对照相比,盐胁迫沙枣幼苗根、茎、叶以及地上部分Na和Cl含量急剧增加,转移能力显著降低。200 mmol·L-1盐胁迫植株根、茎、叶和地上部分离子含量分别为对照的16.2、7.2、9.6和8.7倍(Na)以及4.8、2.7、3.7和3.4倍(Cl),Na和Cl转移系数分别为对照的53.6%和69.6%。根系成为Na和Cl含量最高的器官,200 mmol·L-1盐胁迫幼苗根Na含量分别是茎、叶Na含量的4.3和2.9倍,根Cl含量分别是茎、叶Cl含量的3.7和1.5倍;(2)盐胁迫沙枣幼苗根、茎、叶和地上部分K、Ca、Mg、Fe、Cu、NO_3~--N、SO_4~(2-)-S、P含量均低于或显著低于对照,K/Na、Ca/Na、Mg/Na比值均大幅低于对照,而Mg、Fe、Cu、SO_4~(2-)-S、P的转移系数则不同程度的高于对照;(3)Ca和Mn的转移系数随着盐胁迫浓度的升高而依次显著升高,K和Ca的转移系数始终维持在较高水平(分别为1.07~1.14和1.03~1.42),且植株体内的K、Ca和Mn优先向叶片分配。综合分析推测,沙枣耐盐主要是通过根系对Na和Cl的聚积与限制作用以及茎有效地限制Na向功能叶片运输来实现的,同时也与沙枣具有较强的K、Ca和Mn转移能力有关。     

北京百花山附近杂灌丛的化学元素含量特征

绒毛绣线菊、荆条和蚂蚱腿子是百花山地区杂灌丛中的3种共优势植物。通过对植物(叶、主枝、侧枝、主根、侧根5个部位)和土壤中10种元素(N、K、Ca、Mg、Mn、Cu、Zn、Fe、Al和Na)的测定,发现在不同植物、同种植物的不同器官里,各种元素的含量有着显著的差异,而且还存在着季节性的变化。10种元素在群落里的积累量以Ca为最高,其次是N。在灌木层里的顺序为Ca>N>K>Mg>Fe>Al,在草本层里则为Ca>N>Al>Fe>K>Mg,而在枯枝落叶层里又为Ca>N>Al>Fe>Mg>K。土壤中营养元素的贮藏也以Ca为最高,其次是N,其它8种元素的顺序为Na>Mg>K>Ma>Al>Fe>Zn>Cu。植物富集系数以K、Fe和Al较高,最低是Na。Na是唯一在土壤中的含量大于植物中的一种元素。     

微波消解ICP-AES法测定糙苏不同部位中的微量元素

利用微波消解电感耦合等离子发射光谱(ICP-AES)法测定野生中药糙苏根、茎、叶、花和籽中钠、钾、钙、铁、锌、镁、锰、铜、镍、钼、铅和镉的含量,并进行了分析比较。糙苏不同用药部位的微量元素含量存在差异,其中钠、钾、钙、铁、镁在根、茎、叶、花和籽中的含量均较高,锌、锰、铜、镍、钼的含量较少,铅和镉只在根和茎中痕量存在,结果表明糙苏中含有大量人体必需的微量元素,可为进一步探讨糙苏中元素含量与其药效的相关性提供科学的理论依据。     

Studies on the Characteristic of Element Contents in the Dominant Plant Species of the Three gorges Region in China

The characteristics of the contents of 20 elements (Al, Fe, Mn, Ca, Mg, K, S, Si, P, Cd, Cu, Zn, Ti, Ni, Sr, Mo, Na, B, Cr, V) in 16 plant species collected from the Three Gorges Region in China were investigated. The average contents of Ca, K and Mg were higher than 1 000 μg·g-1, that of Al, P, Si, Fe, S and Mn ranged between 100—1 000 μg·g-1 and Ti, Cu, Ni, Cr, Mo, Cd and V were less than 10 μg·g- 1. The level of Na content was less than that of the reported. The main character of the element contents was of the Ca> K type. The contents of P, S, Ca and K in different plant samples showed a normal distribution pattern, while Al and Mn showed a elements lognormal distribution pattern. Plant species differed greatly in the element contents. On analyzing the coefficient of variation (C. V., % ), Al, Mn, Mg, Ni, Sr and Fe had higher C.V., while the C.V. of K, S, P, Cr, Cd and Cu was less than 60%, and Cu had the lowest C.V. The correlations between Al and Fe, Al and Ti, Al and Cr, A1 and V, Cd and Sr, Cd and Mo, Fe and V, Zn and Cr, Ni and Sr, Mg and Ni, Mo and Sr, Ca and Sr, Cr and Mo, Na and Mg, Na and P, P and S were statistically significant in different plant species. The classification of the 16 plant species and 20 dements by two-way indicator species analysis (TWINSPAN) method may suggest the difference in dement contents of the different plant species.     

Accumulation of Minerals by Leccinum scabrum from Two Large Forested Areas in Central Europe: Notecka Wilderness and Tuchola Forest (Pinewoods)

Leccinum scabrum sporocarps and associated topsoils from two areas in Poland have been characterized for contents and bioconcentration potential of Ag, Al, Ba, Ca, Cd, Co, Cu, Fe, Hg, K, Mg, Mn, Na, Ni, P, Pb, Rb, Sr and Zn. Topsoil and fruitbody element composition varied between the two study sites, most likely as a result of local soil geochemistry. Element content of the labile fraction in topsoil from both sites followed the ‘pseudo‐total’ fraction and median values (mg kg^?1 dry matter) were: K 380 and 340, Mg 760 and 840, P 1100 and 920, Al 3800 and 8100, Ag 0.31 and 0.28, Ba 28 and 37, Ca 920 and 790, Cd 0.23 and 0.23, Co 2.0 and 1.7, Cu 3.2 and 3.6, Fe 2800 and 6300, Mn 280 and 180, Na 99 and 110, Ni 7.8 and 8.8, Pb 12 and 18, Rb 1.3 and 2.1, Sr 4.8 and 4.0 and Zn 22 and 19, respectively. Only for some elements such as K, Mg, Al, Ag, Ca, Co, Mn, Na, Ni, Sr and Zn we found concentration differences between the two study sites for the caps of sporocarps. With the exception of Al, Mn, Na and Pb, stipes showed a similar tendency. Caps had a higher concentration of K, Rb, P, Mg, Al, Ag, Cu, Fe, Zn, Cd, Pb and Ni compared to stipes, while Na, Ba and Sr contents were higher in stipes. The comparison of soil and fruitbody concentrations indicates that L. scabrum bioconcentrate some elements while others are bioexcluded.     

Trace element contents in hair of residents from Harbin (China), Medan (Indonesia), and Tokushima (Japan)

The concentrations of 19 trace element in hair samples from 1273 residents of Harbin (China), Medan (Indonesia), and Tokushima (Japan) were measured by inductively coupled plasma emission spectrometry. The mean concentrations of Ba, Ca, and Se were significantly higher in the Harbin hair samples when compared to those from Medan, but Al, B, Cu, Fe, Mn, Na, Pb, Ti, Zn, and K were significantly higher in Medan than in Harbin hair samples. The differences in the mean concentrations of As, Cr, Mg, P, Sn, and Sr between the Medan and Harbin lots were not significant. In the Tokushima hair samples, Na and K were significantly higher, but As, B, Ba, Ca, Cr, Mg, Mn, Pb, Sn, Sr, and Se were significantly lower than in the Harbin hair samples. The differences in the mean concentrations of Al, Cu, Fe, P, Ti, and Zn between Harbin and Tokushima were not significant. In the Medan hair samples, Al, As, B, Ba, Ca, Cr, Cu, Fe, Mg, Mn, Pb, Sn, Sr, Ti, and Zn were significantly higher, but P and Se were significantly lower than in Tokushima hair samples. Differences in mean concentrations of Na and K between Tokushima and Medan were not significant.     

Regulation of Mineral Redistribution in Pod-Bearing Soybean Explants

On the way from the roots to the seeds during reproductive developmentin soybean (Glycine max), a large proportion of the mineralspass through the leaves rather than travelling directly viathe xylem. This direct and indirect movement of mineral nutrientshas important implications for mineral redistribution, seeddevelopment and leaf senescence. Therefore, we have studiedthe role of cytokinin and mineral flux from the roots in regulatingmineral redistribution from the leaves to the seeds using explants,i.e. a leaf, a pod and a subtending stem segment, with theirbases immersed in treatment solutions. Thus, defined solutionscontaining cytokinin and/or minerals can be substituted forthe roots. When explants (excised at early-mid podfill) aresupplied H₂O only, leaf N, P, K, Mo, Mg, Zn, Fe, B, Cu, Ca,and Mn decline, ranging from 93% for Mo to 38% for Fe. In explantson H₂O, N, P, K, Mo, Mg, Zn, and Fe appear to be redistributedfrom the leaves to the seeds, while the B, Cu, Ca, and Mn lostfrom the leaves do not seem to move to the seeds. Although amixture of minerals resembling xylem sap can delay net lossof these elements from the leaves, it does not prevent the decreases.The cytokinin zeatin (4.6 µM) inhibits the loss of N,IC, Mo, Mg, Zn, Fe, B, Cu, Ca, and Mn from the leaves, but notthat of P. When combined with minerals, zeatin not only preventsthe loss of the minerals from the leaves but may even greatlyincrease them with the possible exception of Zn, Fe, and Cu.Supplying the mineral nutrient mixture increases the quantitiesof N, P, K, Mg, Cu, and B in the seeds but not Zn, Fe, Mn, Ca,and Mo. For those minerals, especially N, where zeatin inhibitsefflux from the leaves, it may reduce the amounts in the seeds,but it does not change P, K, Mg, and Ca. The accumulation andredistribution patterns of the different mineral nutrients showmany dissimilarities thereby suggesting differences in the controlof their distribution. Key words: Cytokinin, mineral transport, seed development, senescence     

Comparison of Trace Elements in the Scalp Hair of Malignant and Benign Breast Lesions Versus Healthy Women

Trace elements including Al, Ca, Cd, Co, Cr, Cu, Fe, K, Mg, Mn, Na, Ni, Pb, Sb, Sr, and Zn were analyzed in the scalp hair samples of women with malignant breast lesions, women with benign breast lesions, and healthy donors using atomic absorption spectrophotometric method. In the scalp hair of malignant-tumor patients, the highest average concentration was shown by Ca (1,187 μg/g), followed by Na (655 μg/g), Mg (478 μg/g), Zn (391 μg/g), Sr (152 μg/g), Fe (114 μg/g), and K (89.8), while in the case of benign-tumor patients, the average estimated element levels were 1,522, 1,093, 572, 457, 217, 80.4, and 74.7 μg/g, respectively. Most of the elements exhibited non-normal distribution evidenced by large spread, standard error, and skewness values. Mean concentrations of Ca (634 μg/g), Zn (206 μg/g), Mg (162 μg/g), Fe (129 μg/g), and Na (82.1 μg/g) were noteworthy in the scalp hair of healthy women. Average levels of Na, Sr, K, Cd, Co, Pb, Mg, Ca, Zn, Ni, Sb, and Mn were revealed to be significantly higher in the hair of malignant and benign patients compared to the healthy women; however, Fe, Cu, Al, and Cr were not significantly different in the scalp hair of the three groups. The quartile distributions of Ca, Cd, Co, Cr, K, Mg, Mn, Na, Ni, Pb, Sb, and Sr revealed maximum spread in the scalp hair of malignant and benign groups; nevertheless, Al, Cu, Fe, and Zn exhibited almost comparable quartile levels in the three groups. Strong correlation coefficients were found between Fe and Cd, Al and Na, Mn and Sr, Co and Cr, Cd and Cr, Pb and K, Pb and Mn, Cu and Na, and Al and Fe in the scalp hair of malignant-tumor patients, while Fe and K, Cd and Co, Na and Co, and Cr and Pb showed strong correlations in the scalp hair of benign-tumor patients, both of which were significantly different compared with the healthy subjects. Multivariate cluster analysis also revealed divergent clustering of the elements in the scalp hair of malignant and benign patients in comparison with the healthy women.     

Determination of Major and Minor Elements in the <Emphasis Type="Italic">Malva sylvestris</Emphasis> L. from Turkey Using ICP-OES Techniques

In this work, Malva sylvestris var. mauritiana (L.) leaves were collected from different points in Muradiye region of Manisa-Turkey. The leaves were dissolved by wet digestion method using a mixture of mineral acid. Concentrations of Ag, Al, B, Ba, Bi, Ca, Cd, Co, Cr, Cu, Fe, K, La, Mg, Mn, Na, Ni, Pb, Sn, Sr, Sb, Si, Ti, U, Zn, and Zr in prepared solutions were determined by using inductively coupled plasma optical emission spectrometry (ICP-OES). High Ca (13,848 mg/kg) and Mg (1,936 mg/kg) concentrations were found at the leaves. Obtained values were compared with the internationally permitted (standard) values. The results of elements were analyzed statistically (analysis of variance test). For different leaf sizes, concentration factors were calculated.     

The importance of belowground mineral element stores in cattails (Typha latifolia L.)

We measured the amount of N, P, K, Ca, Mg, Fe, B, Mn, Na, Sr, Cu and Zn in above- and belowground parts of cattails (Typha latifolia L.) every 2 weeks during the growing season (April–October) in plants growing in a marsh on the shore of Lake Mendota, Wisconsin. Elements differed considerably in their distribution between above- and belowground parts and the amount of apparent exchange between parts. The ratio of the amount of an element in aboveground plant parts to that belowground (A:B) was between 1:1 and 2:1 for most elements, as compared with the 2.2:1 ratio of biomass. The maximum amounts of Fe and Zn belowground exceeded their aboveground maxima, while K, Ca and Mn had A:B ratios greater than 2:1. N, P and K in belowground plant parts decreased considerably during the spring, and belowground decreases were large enough to be potentially important sources of these elements for shoot growth. Belowground stores of Ca, Mg, Mn, Na and Sr decreased little in the spring and do not function as reserves.     

Evaluation of Populus and Salix continuously irrigated with landfill leachate I. Genotype-specific elemental phytoremediation

There is a need for the identification and selection of specific tree genotypes that can sequester elements from contaminated soils, with elevated rates of uptake. We irrigated Populus (DN17, DN182, DN34, NM2, NM6) and Salix (94003, 94012, S287, S566, SX61) genotypes planted in large soil-filled containers with landfill leachate or municipal water and tested for differences in inorganic element concentrations (P, K, Ca, Mg, S, Zn, B, Mn, Fe, Cu, Al, Na, and Cl) in the leaves, stems, and roots. Trees were irrigated with leachate or water during the final 12 wk of the 18-wk study. Genotype-specific uptake existed. For genera, tissue concentrations exhibited four responses. First, Populus had the greatest uptake of P, K, S, Cu, and Cl. Second, Salix exhibited the greatest uptake of Zn, B, Fe, and Al. Third, Salix had greater concentrations of Ca and Mg in leaves, while Populus had greater concentrations in stems and roots. Fourth, Populus had greater concentrations of Mn and Na in leaves and stems, while Salix had greater concentrations in roots. Populus deltoides x P. nigra clones exhibited better overall phytoremediation than the P. nigra x P. maximowiczii genotypes tested. Phytoremediation for S. purpurea clones 94003 and 94012 was generally less than for other Salix genotypes. Overall, concentrations of elements in the leaves, stems, and roots corroborated those in the plant-sciences literature. Uptake was dependent upon the specific genotype for most elements. Our results corroborated the need for further testing and selecting of specific clones for various phytoremediation needs, while providing a baseline for future researchers developing additional studies and resource managers conducting on-site remediation.