Bioaccumulation of Trace Elements in Trophic Levels of Wetland Plants and Waterfowl Birds

Present study investigates relationships between total and bioaccessibility of trace elements (Cd, Co, Cr, Cu, Mn, NI, Pb, V, and Zn) concentrations in sediment and their bioaccumulation in species in Shadegan wetland in southwest of Iran. Bioavailability factor (BAF) and translocation factor (TF) were calculated in plants and trophic transfer factor (TTF) was determined in bird species. For this purpose, sampling of sediments, aquatic plants including Phragmites australis, Typha australis, Scripus maritimus and two bird species encircling Porphyrio porphyrio and globally threatened Marmaronetta angustirostris were carried out during winter 2009. Result of chemical analysis show that bioaccessibility concentrations of Mn (8.31 mg/kg), V (1.33 mg/kg), and Pb (1.03 mg/kg) are higher than other metals. The uptake trend of trace elements in plant decreases as root > stem > leaf. Accumulation levels of trace elements in different tissues of P. porphyrio and M. angustirostris are almost identical and considerable. Accumulation and toxicity of Cd in birds is more than plants. In addition, BAF of V, Pb, and Cr indicates high accumulation by plants and great pollution rate in the area of study. In S. maritimus TF for Mn, Cu, Pb, and V are high whereas in T. australis, Cu and Pb posses the highest TF. Also Cr, Co, Mn, Ni, and Zn have higher TF from stem to leaf than root to stem in P. australis. Finally, TTFs were compared in various bird species.     

Comparison of the toxicity of heavy metals to cabbage growth

Summary Cabbage plants were grown for 55 days with a nutrient solution containing 1 and 10 ppm of V, Cr(III), Cr(VI), Mn, Fe, Co, Ni, Cu, Zn, Cd, Hg(I), orHg(II). A comparison of the plant growth and chemical analysis revealed that Cr(VI), Cu, Cd, and Hg(II) in the solution are most toxic to the plant growth (hence detrimental to the cabbage-head formation) and Mn, Fe, and Zn are less toxic than other heavy metals, and that Mn, Zn, Co, Ni, and Cd and translocated into all the plant organs while V, Cr(III), Cr(VI), Fe, Cu, Hg(I), and Hg(II) are accumulated in the roots.     

Chemistry of medicinal plants (review)]

Data on the chemical composition related to synthesis of physiologically active substances (alkaloids, terpenoids, glycosides, phenolic compounds, etc.), and accumulation of individual elements or groups of five to ten elements (e.g., Cr, Co, Mn, and Zn) in medicinal plants were reviewed. Chemical features of medicinal plants serve as an integral determinant of their species specificity and pharmacological properties and enabling their wide use in medical practice. The relationship between the synthesis of physiologically active substances and accumulation of elements is mediated by several levels of molecular regulation.     

Chemical Features of Medicinal Plants (Review)

Data on chemical composition related to the synthesis of physiologically active substances (alkaloids, terpenoids, glycosides, phenolic compounds, etc.) and to the accumulation of individual elements or groups of five to ten elements (e.g., Cr, Co, Mn, and Zn) in medicinal plants were reviewed. Chemical features of medicinal plants serve as an integral determinant of their species specificity and pharmacological properties and enable their wide use in medical practice. The relationship between the synthesis of physiologically active substances and accumulation of elements is mediated by several levels of molecular regulation.     

Cr and Mn total,accessible species,and protein-fraction contents in plants used for traditional anti-diabetes treatment

BackgroundOur survey has found eleven plants that have being consumed for traditional treatment of diabetes mellitus, particularly in Saudi Arabia and generally in many countries across the world. The literature reported about trace elements such as Cr and Mn positively affecting diabetes mellitus. The aim of this work is to determine the total, accessible element species, and protein-fraction contents of Cr and Mn in the edible parts of those plants.MethodsThe total contents of Mn were determined by inductively coupled plasma-optical emission spectrometry (ICP-OES), while the total contents of Cr was determined by ICP-sector field (sf)-mass spectrometry (MS) due to lower concentration. The protein-fraction contents were determined in accessible element species by size-exclusion chromatography (SEC)-ICP-MS.Results and discussionThe separation was successfully carried out to quantify Cr and Mn bound up to 11 protein fractions. The examined plants recorded wide ranges of total contents (Cr 44.7–1880.0 μg/kg and Mn 3.7–59.0 mg/kg) and accessible element species contents (Cr 0.93–29.40 μg/kg and Mn 0.82–35.85 mg/kg). Also wide ranges of percentages of accessible element species contents to total contents of Cr (0.65–4.21%) and Mn (5.43–68.42%) were obtained. The hazardous indices of both trace elements Cr and Mn for all examined plants consumed by both children and adults were all < 1, indicating no probability of health risk to occur. Moreover, Cr as carcinogen element reported no probability of cancer risk to occur from the consumption of all examined plants. Irrespective of plant species, Cr was quantified in all SEC fractions (mainly protein fractions), with the exception of 1.9-3.7 kDa, while Mn was quantified in all SEC fractions with the exception of 100–120 and 1.3-3.7 kDa. Nevertheless, the majority of accessible Cr species contents bound to the 10–14 and 0.05–0.40 kDa fractions, while that of Mn bound to 0.05–0.40 kDa fraction. To gather, the benefits of specific plant species in terms of accessible Cr and Mn species contents, in addition to accessible Zn species contents reported in our previous study, Haloxylon Salicornicum, Olea Europaea Momordica and Charantia are recommended to be consumed for traditionally controlling T2DM.     

Inorganic chemical investigations in the Forest Biosphere Reserve near Kalinin,USSR

About 50 naturally occurring chemical elements were quantitatively determined by AAS, ICP/AES, ICP/MS and INAA in the main vegetation cover of the Forest Biosphere Reserve near Kalinin, USSR. The lichen Hypogymna physodes, which was studied and compared with other plant species, accumulates the elements Al, As, Br, Ce, Co, Dy, Eu, Fe, La, Lu, Pb, Pr, Sb, Sc, Sm, Th, Tm, V, Zn, and Zr. At the same time, a depletion of the alkaline elements Na, K, Rb, and Cs and the alkaline earth elements Mg and Ca is to be observed. Within the moss cover certain heavy metals are also accumulated by Polytrichum commune and the various Sphagnum species. As in Hypogymna physodes there is also a pronounced depletion of the alkaline earth metals Mg and Ca, but contrary to Hypogymna physodes there is a simultaneous accumulation of the alkaline metals K and Rb in Polytrichum commune and additionally of Na in the Sphagnum species. This is in agreement with studies showing different behaviour for the element potassium in Polytrichum formosum in the course of several vegetation periods. Potassium accumulation was found at the beginning of the vegetation period contrary to the dilution effect due to biomass supply. The depletion of Mg and Ca in all accumulator plants seems to be a direct consequence of heavy metal concentration since this phenomenon occurs irrespective of the site, as was shown by a comparison with data from a German forest ecosystem (Grasmoor near Osnabrück). Clear bioindication behaviour of Polytrichum commune, the various Sphagnum mosses and Hypogymna physodes was found for the elements Mn, Ni, Sn, Th, Cr, Mo, and S since the same accumulation and depletion behaviour was observed for all three plants as a function of site. These plant species could thus be used as bioindication cadasters in the sense of ARNDT. The higher shrub plants examined (Vaccinium vitis-idaea and Vaccinium myrtillus) show the already known accumulation of the elements Ba and Mn (up to 4000 mg/kg of Mn for Vaccinium myrtillus). In general the concentration ranges for many elements are more restricted in higher plants.     

Heavy metals in water,sediments, fish and plants of river Hindon,U.P., India

We analysed the concentrations of Cd, Co, Cr, Cu, Fe, Mn, Ni, Pb and Zn in the water, sediments, fish and plants of the River Hindon, U.P., India, at seven sampling stations, in the year 1982. Considerable variation in concentration between water, sediments, fish and plants were noted. The concentration in the water was in the order Fe > Zn > Cr > Mn > Cu > Pb > Ni > Co > Cd, in the sediments, Fe > Mn > Zn > Ni > Cr > - Co > Cu > Pb > Cd; in a fish (Heteropnuestes fossilis) Fe > Zn > Mn > Pb > Ni > Co > Cu > Cd > Cr, and in a plant (Eicchornia crassipes) Fe > Mn > Zn > Ni > Cu > Cr > Pb > Co > Cd.     

Indicator ability of biosubstances in monitoring the moderate occupational exposure to toxic metals

In order to improve the monitoring system, watching influence of toxic metals on human health in industrial plants, indicator properties of different biosubstances were compared. Four types of samples (whole blood, plasma, urine, and hair) from 263 workers of the “Khimprom” chemical plant (Novocheboksarsk, Russia) were subjected to multielement analysis by ICP-AES/ICP-MS. 19–25 chemical elements, including main toxic metals (Cd, Hg, Pb, etc.) were determined. The results were calculated with regard to workers’ individual data on occupational exposure to chemical elements. Hair was found to be the most sensitive to toxic and conditionally toxic trace metals: Pb, Mn, Cr, Be, Ni, while occupational contact with macro elements (Na, P), trace metalloids (Si, B) and some other metals (Zn) was not reflected in hair. Whole blood relatively weakly indicated a moderate occupational level of metals except Pb and Mn, but effectively reflected deficiencies of essential elements: I, Cr, and shifts in K/Na ratio, which are likely to be secondary effects of harmful occupational factors. Blood plasma reflected only contact with Be, P; urine – only with Ni. In both whole blood and plasma the changes for the absolute majority of elements were similar. Thus, hair analysis is useful for monitoring the occupational exposure to toxic and conditionally toxic chemical elements, while a general estimation of occupational harmful influence on mineral metabolism requires simultaneous investigation of two biosubstances: hair and whole blood, or hair and blood plasma, with whole blood being more preferable. Analysis of urine is appropriate for monitoring particular chemical elements, e.g. nickel.     

Field-based investigation on phytoremediation potentials of Lemna minor and Azolla filiculoides in tropical,semiarid regions: Case of Ethiopia

This study investigated the concurrent accumulation of eight heavy metals by two floating aquatic macrophytes (Lemna minor and Azolla filiculoides) cultivated in ambient media and blended wastewaters in the semiarid regions of Ethiopia. Both species accumulated heavy metals in varying degrees with a significant concentration gradient within the immediate water media. Highest bioconcentration factor (BCF) was determined for Mn and Fe in both plants. Results revealed that L. minor was high phytoaccumulator for Fe, Mn, Zn, and Co but moderate for Cd, Cu, Ni, and Cr. On the other hand, A. filiculoides was a high accumulator for Fe, Mn, Zn, and Cu, but its potency was moderate for Co, Cr, and Ni, but lower for Cd. Both species exhibited significant difference in accumulating Co, Zn, and Mn (p < 0.05). In general, the BCFs for both plants were comparable within the same treatment. In this study, stronger associations between the heavy metal concentrations in the plant tissues and in the grown water media were observed for A. filiculoides.     

The Phytoremediation Potential of Native Plants on New Zealand Dairy Farms

Ecological restoration of marginal land and riparian zones in agricultural landscapes in New Zealand enhances the provision of above-ground ecosystem services. We investigated whether native endemic plant assemblages have remediation potential, through modifying soil nutrient and trace element mobility. Analysis of native plant foliage in situ indicated that selective uptake of a range of commonly deficient trace elements including Zn, B, Cu, Mn and Co could provide a browse crop to avoid deficiencies of these elements in livestock, although some native plants may enhance the risk of Mo and Cd toxicity. Native plant rhizospheres were found to modify soil physico-chemistry and are likely to influence lateral and vertical fluxes of chemical elements in drainage waters. Native plants on marginal land in agricultural landscapes could add value to dairy production systems whilst helping to resolve topical environmental issues.     

Is the bioavailability index applicable for trace elements in different types of soil?

Abstract

The bioavailability index (BI) is defined as the proportion of reduction in a plant’s accumulation of an element, caused by the removal of the extractable fraction of the element of interest from the soil. The BI and corresponding experimental methods were quantitatively applied to evaluate the bioavailability of trace elements in five Chinese soils. The soil was first extracted with various reagents (DTPA, HCl and NH₂OH.HCI) separately, to remove the extractable elements. The soil, after extraction, was washed with deionised water to eliminate the extractant used in the fractionation analysis. Then the pH of the soil was re-adjusted with CaO. The soil was then fertilised and incubated in a greenhouse for four weeks. Tests showed that after incubation the pH, cation exchange capacity (CEC) and organic matter (OM) of the treated soil were close to their original values. Wheat (Triticum aestivum L.) was planted in both the untreated and treated soil for eight weeks. After harvest the plant concentrations of the elements Cr, Mn, Co, Ni, Zn, Cu, Cd, and Pb were analysed by inductively coupled plasma mass spectrometry (ICPMS). Trace element accumulation by plants grown in the treated soil was reduced significantly compared with that of plants grown in the untreated soil. The results showed that BI values were in the order BI(DTPA)>BI(HCl)>BI(NH₂OH.HCl). This indicated that the DTPA-extractable fraction represented a highly available fraction of the total content. Variations of BI among different trace elements show that Cr, Mn, Zn and Co have a higher BI, in general for the elements tested, whereas, Cu, Cd and Pb have lower values. There are also slight differences in the BI among soils. However, no significant relationship could be found between the BI and the soil characteristics.     

Regulatory role of elements in the formation and accumulation of alkaloids in Papaver somniferum L. seedlings

The effects of 12 elements on the formation and accumulation of isoquinolines were studied in opium poppy seedlings (Papaver somniferum L.). Three types of concentration dependences of the effects of the elements under study were determined. The elements served as activators (Co, Mo, W, Cr, and Cu) or inhibitors of these processes (B, Fe, V, Mn, and Ca). The molecular mechanisms of action of these regulators are discussed. The optimum concentrations of Co and Mo were tested under combined treatment conditions with these elements.     

Genetic aspects of the interrelation between alkaloids and chemical elements in Atropa belladonna L. and Glaucium flavum Grantz. plants

The variability of the contents of tropane and isoquinoline alkaloids, ashes, Na, K, Ca, Mg, Fe, Mn, Cu, Zn, Co, Mo, Cr, Al, Ba, V, Ni, Sr, Cd, Pb, J, and Ag was studied in individual plants of the industrial population of belladonna (Atropa belladonna L.) and yellow horned poppy (Glaucium flavum Crantz.). Numerous linear and nonlinear correlations of isoquinoline and tropane alkaloids with ashes and mineral elements were revealed by means of correlation and regression analyses. Alkaline earth elements (especially Sr and Ba) were shown to have a major role in the regulation of tropane alkaloid accumulation in belladonna leaves. K and Ni were of particular importance in the aerial part of yellow horned poppy. These elements at the suboptimal concentrations were most favorable for isoquinoline alkaloid accumulation in yellow horned poppy. Analytical mathematical models were derived for the regulation of alkaloid metabolism in test plants by some mineral elements (Ba, Mg, Al, Sr, Ni, Mn, and K). Our results indicate that the interrelation between alkaloids and elements in these plants is genetically determined.     

Regulatory role of elements in the formation and accumulation of alkaloids in Papaver somniferum L. seedlings

The effects of 12 elements on the formation and accumulation of isoquinolines were studied in opium poppy seedlings (Papaver somniferum L.). Three types of concentration dependences of the effects of the elements under study were determined. The elements served as activators (Co, Mo, W, Cr, and Cu) or inhibitors of these processes (B, Fe, V, Mn, and Ca). The molecular mechanisms of action of these regulators are discussed. The optimum concentrations of Co and Mo were tested under combined treatment conditions with these elements.     

Bioaccumulation and translocation of heavy metals by nine native plant species grown at a sewage sludge dump site

In the present study, nine native plant species were collected to determine their potential to clean up nine heavy metals from soil of a sewage sludge dump site. Almost all nine plant species grown at sewage sludge dump site showed multifold higher concentrations of heavy metals as compared to plants grown at the reference site. All the investigated species were characterized by a bioaccumulation factor (BF) > 1.0 for some heavy metals. BF was generally higher for Cd, followed by Pb, Co, Cr, Cu, Ni, Mn, Zn, and Fe. The translocation factor (TF) varied among plant species, and among heavy metals. For most studied heavy metals, TFs were <1.0. The present study proved that the concentrations of all heavy metals (except Cd, Co, and Pb) in most studied species were positively correlated with those in soil. Such correlations indicate that these species reflect the cumulative effects of environmental pollution from soil, and thereby suggesting their potential use in the biomonitoring of most heavy metals examined. In conclusion, all tissues of nine plant species could act as bioindicators, biomonitors, and remediates of most examined heavy metals. Moreover, Bassia indica, Solanum nigrum, and Pluchea dioscoridis are considered hyperaccumulators of Fe; Amaranthus viridis and Bassia indica are considered hyperaccumulators of Pb; and Portulaca oleracea is considered hyperaccumulator of Mn.     

Genetic aspects of the interrelation between alkaloids and chemical elements in <Emphasis Type="Italic">Atropa belladonna</Emphasis> L. and <Emphasis Type="Italic">Glaucium flavum</Emphasis> Crantz. Plants

The variability of the contents of tropane and isoquinoline alkaloids, ashes, Na, K, Ca, Mg, Fe, Mn, Cu, Zn, Co, Mo, Cr, Al, Ba, V, Ni, Sr, Cd, Pb, J, and Ag was studied in individual plants of the industrial population of belladonna (Atropa belladonna L.) and yellow horned poppy (Glaucium flavum Crantz.). Numerous linear and nonlinear correlations of isoquinoline and tropane alkaloids with ashes and mineral elements were revealed by means of correlation and regression analyses. Alkaline earth elements (especially Sr and Ba) were shown to have a major role in the regulation of tropane alkaloid accumulation in belladonna leaves. K and Ni were of particular importance in the aerial part of yellow horned poppy. These elements at the suboptimal concentrations were most favorable for isoquinoline alkaloid accumulation in yellow horned poppy. Analytical mathematical models were derived for the regulation of alkaloid metabolism in test plants by some mineral elements (Ba, Mg, Al, Sr, Ni, Mn, and K). Our results indicate that the interrelation between alkaloids and elements in these plants is genetically determined.     

Plant Seeds as Mineral Nutrient Resource for Seedlings--A Comparison of Plants from Calcareous and Silicate Soils

Mineral nutrients of seeds constitute a significant source ofessential elements to seedlings and developing individuals ofvascular plants. In spite of their potential ecological significance,seed nutrient pools have attracted little attention with respectto calcifuge–calcicole behaviour of plants. The objectivesof this study were, therefore, to compare concentrations of13 macro- and micronutrients (K, Rb, Mg, Ca, Mn, Fe, Co, Cu,Zn, Mo, B, P and S) in seeds and leaves of 35 mainly herbaceousvascular plant species growing on both limestone (calcareous)and silicate (non-calcareous) soils. Concentrations of Rb andCo in seeds of plants originating from limestone soils were,on average, about half of those from silicate soils. Concentrationsof Mn, Mg, Zn and P of seeds were, or tended to be, lower orslightly lower in limestone-soil plants, whereas mean Ca andMo concentrations were higher. Comparing seed and leaf concentrationsof the same species from limestone and silicate soils generallydemonstrated a high P enrichment ratio, but a particularly lowK enrichment ratio in seeds, valid for both types of soil. Itwas also apparent that Fe and Mn, micronutrients which are lessreadily solubilized and taken up by plants on limestone soils,had significantly higher seed:leaf concentration ratios in plantsfrom limestone than from silicate soils, whereas the oppositewas true for Ca. This indicates a ‘strategy’ tosatisfy the demand of seedlings for elements which are lessreadily available in the soil.Copyright 1998 Annals of BotanyCompany Seed, leaf, plant, nutrient, content, calcareous, silicate, acid, soil.     

Analysis of the distribution of chemical elements in Adelie penguin bone using synchrotron radiation X-ray fluorescence

We performed synchrotron radiation X-ray fluorescence (SR-XRF) analysis of Adelie penguin bones, collected in the maritime Antarctic. This method enabled us to determine the microscopic concentration profiles of chemical elements in transverse bone sections. Results show that: (1) there are different concentration profiles for elements in the bones; (2) the inter-correlation of elements in the bones is complex; (3) some trace elements, including toxic ones like Rb, Sr, Fe, Mn, Cu, Co, Ni, Ti, Zr, Br, As, Hg, and Cr, are also detected somewhere in the cross section of the bones. It is suggested that further studies be conducted to establish an SR-XRF database for polar and non-polar animals. This will be greatly beneficial for characterizing penguins by the microscopic distribution of elements in bone and for the understanding of elements' roles in animal metabolism.     

海南岛86种植物的化学成分特点及元素间的关系研究

收集了海南岛49个植物采样点约300个样品,用光谱法和化学法测定了植物中大量元素(N、P、K、Ca、Mg)和微量元素(Zn、Cu、Mo、Pb、Cr、Ni、Cd、Fe、As、Hg)的含量。在应用数理统计处理数据的基础上,对海南岛86种植物的化学成分特点及各元素间的相关关系进行了分析和讨论,初步建立海南岛植物元素间的相关方程式,从而可了解元素间含量变化的特征。     

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.