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  1. 4 Polish Journal of Environmental Studies

  2. 3 Polish Journal of Ecology

  3. 2 Journal of Elementology

  4. 1 Acta Hydrobiologica

  5. 1 Acta Microbiologica Polonica

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  1. 2 Pawlik-Skowronska B.

  2. 1 Ahmed E. A.

  3. 1 Bakiyaraj R.

  4. 1 Baskaran L.

  5. 1 Beeby A.

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  1. 1 2016

  2. 1 2015

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  5. 3 2010

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1
Artykuł dostępny w postaci pełnego tekstu - kliknij by otworzyć plik
Content available

The effect of humic acid on metal accumulation by Unio tumidus

100%
Formicki G., Stawarz R., Guzik M., Gal A., Kuczkowska-Kuzniar A., Ciaglo A.
Folia Malacologica
|
2012
|
tom 20
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nr 1
2

Heavy metal content in common sorrel plants [Rumex acetosa L.] obtained from natural sites in Malopolska province

84%
Gaweda M.
Polish Journal of Environmental Studies
|
2009
|
tom 18
|
nr 2
213-218
17 samples of common sorrel were collected from natural sites in the Małopolska region. The content of selected heavy metals (zinc, copper, manganese, iron, chromium, nickel, lead and cadmium) were determined in individual plant organs. The greatest diversification occurred for cadmium, manganese and zinc; the smallest differences were noted for copper. Correlation coefficients between total soil heavy metal concentrations and their content in sorrel were generally low and very low; only the coefficients for cadmium and lead may be considered as high and very high. Allowable lead content was exceeded in all samples of sorrel leaves, whereas cadmium concentrations were in about 90% of the samples. Sorrel roots most strongly accumulated the metals, whereas the smallest content was found in the stems.
3
Artykuł dostępny w postaci pełnego tekstu - kliknij by otworzyć plik
Content available

The influence of heavy metal ions on neustonic bacteria

84%
Donderski W., Walczak M., Mudryk Z., Skorczewski P.
Baltic Coastal Zone. Journal of Ecology and Protection of the Coastline
|
1999
|
tom 03
4

The protective effects of zinc and vitamin E supplementation against kidney toxicity by lithium in rats

84%
Hossam El-Din M.Omar H. E.-D. M., Ibrahim A. T., Magdy M. A., Ahmed E. A.
European Journal of Biological Research
|
2016
|
tom 06
|
nr 1
5

Differences in metal distribution and concentration in algal species living in a highly acidic, metal-rich pond of a pyrite mine in Portugal

84%
Turnau K., Henriques F. S., Wolowski K.
Acta Protozoologica
|
2009
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tom 48
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nr 4
341-345
6

The use of sewage sludge as an organic matter source in apple trees

84%
Bozkurt M. A., Yarilgac T., Yazici A.
Polish Journal of Environmental Studies
|
2010
|
tom 19
|
nr 2
267-274
The objective of this experiment was to evaluate the effects of different doses of sludge on fruit yield, growth, nutrition and heavy metal accumulation of apple trees on a calcareous soil 1999-2003. Sewage sludge was added to the soil at rates of 0, 10, 20, 40 and 60 kg tree-1. Manure was applied to the soil at a rate of 25 kg tree⁻¹. According to four-years data, cumulative application of sewage sludge to apple trees significantly increased fruit yield, trunk cross-sectional area, shoot growth and leaf N, Mg, Fe, Mn, Zn and Cu contents at the end of the study. Leaf Ni slightly increased with sludge addition in 2003 only. The four-year results of this study indicated that repeated sewage sludge application to apple trees did not cause toxicity in leaves and fruits. However, long-term sewage sludge application may result in the accumulation of Zn, Cu and Ni in the soil and plant.
7

Gastrointestinal and tissue levels of nickel in deer mice Peromyscus maniculatus and woodrats Neotoma fuscipes from serpentine and non-serpentine areas

84%
Oswald C.
Acta Theriologica
|
2004
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tom 49
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nr 3
Serpentine geologic formations have soils high in nickel. Nickel exerts deleterious effects on several body systems, and often accumulates in organs of laboratory animals exposed to nickel. To establish if deer mice Peromyscus maniculatus Wagner, 1845 and dusky-footed woodrats Neotoma fuscipes Baird, 1858 of serpentine areas ingest nickel, and to determine if nickel accumulates in body tissues, I measured nickel in several organs and tissues of animals from serpentine and nonserpentine sites in southern Oregon. Nickel was present in significantly greater concentrations in the contents of the stomachs and small intestines of P. maniculatus and N. fuscipes from serpentine areas than in those of animals from nonserpentine areas. Nickel was not detected, or was present in only trace amounts, in the livers, kidneys, spleens, hearts, lungs, brains, skeletal muscles, and bones of both species from both serpentine and nonserpentine sites. P. maniculatus from serpentine areas had significantly greater concentrations of nickel in the seminal vesicles, testes, and uteri and ovaries than did P. maniculatus from nonserpentine areas.
8

A comparative study of lead uptake by three populations of the snail Helix aspersa Muller

84%
Richmond L., Beeby A.
Polish Journal of Environmental Studies
|
1992
|
tom 01
|
nr 1
Pb uptake by three populations of the snail Helix aspersa was measured in a series of experiments supplying PbS04 in an agar diet. Uptake rates in snails from a site grossly polluted with Pb were lower than in the two other populations and were unafected by the initial body burdens of Pb. Populations of snails from a Pb-free site showed much greater variability in tissue Pb burdens and faster rates of accumulation than populations from the polluted site. Snails from a site with Pb concentrations between the other two sites showed intermediate rates of uptake. It is suggested that snails from the highly contaminated site have adapted to high environmental levels of Pb and that this adaptation is genetically based.
9

Isotopic evaluations of dynamic and plant uptake of N in soil amended with 15N-labelled sewage sludge

67%
Kchaou R., Khelil M. N., Gharbi F., Rejeb S., Henchi B., Hernandez T., Destain J. P.
Polish Journal of Environmental Studies
|
2010
|
tom 19
|
nr 2
363-370
Field experiments were conducted to evaluate the use of a novel ¹⁵N isotope technique for comparing the dynamics of N derived from sewage sludge applied to sorghum to the dynamics of N derived from the commercial fertilizer, urea. The treatments included a control, sludge applied at three rates (3, 6 and 9 t/ha, or 113, 226 and 338 kg N/ha) and N-urea applied at three rates (150, 250 and 350 kg N/ha). Recovery of ¹⁵N-labelled sludge was similar for the different nitrogen rates applied, with a mean value of 27%. However, the recovery of ¹⁵N-urea decreased as the rate of N application increased (from 38% to 27%). Approximately 22% and 19% of the ¹⁵N from sludge and urea, respectively, remained in the 0-60 cm layer of soil, most of which was present in the 0-20 cm layer. Furthermore, losses of ¹⁵N-labelled fertilizer were not affected by the N fertilization source, and the greatest losses, which were measured in response to the highest N application rate, were 59%.
10
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Chromium toxicity in Sesbania sesban (L.) Merr

67%
Bakiyaraj R., Mahakavi T., Baskaran L.
International Letters of Natural Sciences
|
2014
|
tom 04
Chromium is one of the most common toxic metals present in the environment that induces various toxic effects in plants. A pot experiment was conducted to determine the effects of chromium on germination percentage, seedling growth, chlorophyll ‘a’, ‘b’ and proline content of Sesbania sesban (L.) Merr. The seedlings were treated with different concentrations of control, 0.10, 0.25, 0.50, 0.75 and 1.00 g kg-1 of chromium. The parameters such as germination percentage, root and shoot length, seedling fresh weight dry weight, chlorophyll ‘a’, ‘b’ and proline content of leaves were measured. Our results indicated that a significant inhibitory effect was observed at all levels of chromium compared to control. Increasing the concentration of chromium to 1.00 g kg-1 showed a significant decrease in seed germination, shoot and root length, fresh weight, dry weight and chlorophyll ‘a’ and ‘b’ content of plant. While proline, catalase and peroxidase contents were increased by increasing Cr concentration. It was also noted that accumulation of chromium in the roots was much higher than the shoots of the seedlings under treatment.
11

A comparative seasonal pollution assessment study on Ennore Estuary with respect to metal accumulation in the grey mullet, Mugil cephalus

67%
Padmini E., Vijaya Geetha B.
Oceanological and Hydrobiological Studies
|
2007
|
tom 36
|
nr 4
91-103
12

Metal resistance of soil algae [Chlorophyta] occurring in post-flotation Zn-Pb and Cu-tailing ponds

67%
Kalinowska R., Pawlik-Skowronska B.
Polish Journal of Ecology
|
2008
|
tom 56
|
nr 3
415-430
Algae as pioneer organisms are important in extreme environments. We isolated several green algae (Chlorophyta) from Zn/Pband Cu-enriched ground samples of post-flotation tailing ponds, containing 17200–18400 mg Zn kg⁻¹, 3017–6566 mg Pb kg⁻¹ or 1420 mg Cu kg⁻¹. The algae with different morphologies belonged to following classes: Chlorophyceae and Trebouxiophyceae. Their Zn-, Pb- and Cu- resistance in comparison with soil green algae (Chlorophyceae) isolated from the unpolluted control soil was evaluated under laboratory conditions on the basis of 96h-EC₅₀ (effective metal concentration which causes 50% inhibition of algal growth after 96 h exposure). Among isolated algae Dictyococcus cf. varians Gerneck em. Starr from the Zn/Pb-tailing pond was highly resistant both to lead (EC₅₀ 48 μM) and zinc (EC₅₀ 126 μM), but sensitive to copper (EC₅₀ 2 μM). Stichococcus minor Nägeli and Chlamydomonas boldii Ettl from the Cu-tailing pond were resistant to copper (EC₅₀ 17.8 μM and 10 μM, respectively). Simultaneously, S. minor revealed co-resistance to Zn (EC₅₀ 251 μM), while C. boldii to Pb (EC₅₀ 38.9 μM). Geminella terricola J.B. Petersen (Chlorophyceae), isolated from the unpolluted control soil, revealed high sensitivity to the three metals (Zn-EC₅₀ 44.6 μM; Pb-EC₅₀ 10.2 μM and Cu-EC₅₀ 6.4 μM). Simultaneously, G. terricola accumulated intracellularly higher amounts of Zn (7.1 amol μm⁻³) and Cu (5.5 amol μm⁻³) than all the algae from the polluted ground samples (Zn: 1.2–6.4 amol μm⁻³ and Cu: 0.4–2.7 amol μm⁻³). It also accumulated high amounts of Pb (6.0 amol μm⁻³), but two-fold lower than D. cf. varians. Using cytochemical staining of metals dark pink Pb-rhodizonate complexes were detected in thick cell walls of the Pb/Zn-resistant D. cf. varians and in thick mucilage layers of the Cu/Pb-resistant C. boldii. However, in the Pb-sensitive S. minor Pb-complexes were detected inside deformed cells. Pink-orange Zn-dithizone complexes were mainly distributed inside the cells of the Zn-resistant D. cf. varians. The results obtained suggest that thick cell walls or envelopes may be partly responsible for the higher Pb-resistance of some studied algae. However, in the case of micro-nutrients like Zn or Cu other resistance mechanisms (biochemical / physiological) may be involved. It seems that algal species or ecotypes living in the grounds of metal post-flotation tailing ponds have been adapted to heavy metals present in their habitats and may be useful for remediation of such degraded environments.
13
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Content available

Effect of copper concentration on micropropagation and accumulation of some metals in the Dendrobium kingianum Bidwill orchid

67%
Prazak R., Molas J.
Journal of Elementology
|
2015
|
tom 20
|
nr 3
The study focused on the influence of an increased copper content in the Murashige and Skoog (1962) solid medium on the in vitro plant growth and development of Dendrobium kingianum Bidwill. Sterile explants of pseudobulbs were used for micropropagation of orchid plants on the MS regeneration medium supplemented with 0.5 mg dm-3 NAA and 1.0 mg dm-3 kinetin. Copper (as CuSO4 × 5H2O) was added to all the combinations in concentrations of 0.025 (control), 0.625, 1.25, 2.5 and 5.0 mg dm-3. The results showed that the treatments with 1.25 and 2.5 mg dm-3 stimulated the orchid growth and development in in vitro culture. After eight months of growing in in vitro culture, the highest number of shoots, the longest roots and the heaviest fresh weight of plantlets were obtained in these treatments. In medium with the highest copper concentration (5.0 mg dm-3), a negative influence of the metal on the length of roots and fresh weight of orchids was noted. Spectrophotometric analysis (ASA) showed that the copper and iron accumulation increased in both shoots and roots with the increase in the external Cu level, whereas the zinc and calcium accumulation in these organs decreased. The copper and zinc accumulation in the roots was about 1.5-2.5 times higher than in the shoots, but the iron accumulation was about 3-3.5 times higher. The calcium accumulation in roots was only 5-12% higher than in shoots.
14

Effects of copper toxicity on growth, reproduction and metal accumulation in chosen ornamental fishes

67%
James R., Sampath K., Jothilakshmi S., Vasundhevan I., Thangarathinam R.
International Journal of Ecohydrology and Hydrobiology
|
2008
|
tom 08
|
nr 1
The 96 h LC50 values of copper for Carassius auratus and Xiphophorus helleri were 0.30 and 0.36 ppm. Sublethal concentrations of copper affected specific growth rate and reproductive performance in both species. Metal accumulation in muscle and gonad tissues was linearly increased with increase in sublethal levels of copper and exposure period. Young ones accumulated same or more amount of metal found in gonad tissue of parent fish and it might be due to the direct transfer of copper from gonad to young ones during development. Metal accumulation caused significant (P<0.05) reduction in mean diameter and weight of eggs in C. auratus and mean body length and weight of fry in X. helleri. Ovo-viviparous fish is more severely affected by copper toxicity than oviparous fish.
15

Heavy metal accumulation, resistance and physiological status of some epigeic and epiphytic lichens inhabiting Zn and Pb polluted areas

67%
Pawlik-Skowronska B., Wojciak H., Skowronski T.
Polish Journal of Ecology
|
2008
|
tom 56
|
nr 2
195-207
Heavy metal accumulation, physiological status and resistance against Zn and Pb were compared in lichens occurring in metalpolluted (Silesian Upland, S. Poland) and unpolluted (forest complex, NE Poland) areas. Sandy soil near Zn/Pb ore mine had significantly lower (5–35-times) metal content than dolomite-containing ground of mine tailing dump in polluted area (S. Poland). Metal contents in native lichens sampled from those sites followed the same pattern. Total Zn, Pb, Cd and Cu contents in native lichens recorded in two sites of Zn/Pb mining area varied broadly and were considerably higher than in lichens from a control unpolluted site. Independently of the sampling site, epiphytic lichens of higher surface to biovolume ratio (i.e. Candelariella Mull. Arg., Lepraria Ach.) accumulated much more metals (6.05 – 9.57 mg g–1 DW) than lichens of a lower ratio (e.g. 0.25 mg g–1DW in Peltigera didactyla (With.) J.R.Laundon or 0.29 mg g–1 DW in some Cladonia Hill ex Browne). In general, the studied lichens accumulated metals in the following order: Zn>Pb>Cd≥Cu, that was in agreement with the metal content in soils. However, Cladonia furcata (Huds.) Schrad. From tailing dump contained 2-fold more Pb than Zn. Internal Zn and Pb contents (non-exchangeable fraction) in the studied lichens ranged broadly from 17 to 90% of the total metal content. Phaeophytinisation quotients (PhQ), total chlorophyll contents and chl a/b ratios in the native lichens from polluted sites ranged 0.84 – 1.44; 0.514 – 4.858 mg g–1 DW and 2.09 – 5.56, respectively. Experimental exposure of selected species (Hypogymnia physodes (L.) Nyl., Hypocenomyce scalaris (Ach.) Choisy, Lepraria elobata Tonsberg, L. incana (L.) Ach., sampled from the both polluted and unpolluted sites, to high doses of Zn2+ and Pb2+ (0.36 or 0.72 mmol g–1 DW) revealed higher resistance of lichens from the Zn/Pb-polluted sites than con-specific lichens from the unpolluted one. The resistance of epiphytic species from the polluted area to high doses of Zn2+ and Pb2+ increased as follows: H. physodes
16
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Content available

Comparison of the effect of liming and magnesium treatment of heavy metal contaminated soil on the content of magnesium, calcium and iron in broad beans [Vicia faba L. ssp. maior]

67%
Gospodarek J., Nadgorska-Socha A.
Journal of Elementology
|
2010
|
tom 15
|
nr 1
81-88
Tests have been conducted to determine the effect of liming and magnesium treatment on the content of magnesium, calcium and iron in broad bean plants growing on soil polluted with such heavy metals as cadmium, lead, nickel, copper and zinc. In 2005, an experiment was conducted in the village Zagaje Stradowskie (Świętokrzyskie Province) on degraded Chernozem formed from loess, acid in reaction and containing 1.13% of organic carbon. Analyses were performed on aerial parts of cv. White Windsor broad bean (Vicia faba L. ssp. maior), cultivated in three series: on limed soil, on soil receiving magnesium fertilizers; on unlimed soil without magnesium fertilization. In each series, the plants were cultivated on the following objects: unpolluted soil with a natural content of heavy metals (control); unpolluted soil with a natural content of heavy metals and mineral fertilization (control+NPK); soil polluted with a cadmium dose 4 mg·kg-1 d.m.; soil polluted with a dose of 530 mg·kg-1 of lead; soil contaminated with a copper dose 85 mg·kg-1 d.m., soil contaminated with a dose of 1000 mg·kg-1 of zinc and soil polluted with a nickel dose 110 mg·kg-1 d.m. Liming was based on the analysis of hydrolytic acidity of soils from individual objects. The administered dose was established according to 1Hh. Magnesium treatments were identical in all objects. i.e. 20.4 mg·kg-1 soil d.m. Soil contamination with zinc or nickel leads to a considerable decrease in magnesium and calcium level in broad bean aerial parts but rises iron level. Liming rather than magnesium fertilization applied to soil polluted with heavy metals, such as zinc or nickel, contributes to balancing the content of the analyzed macronutrients in broad beans. The content of Ca, Fe and Mg in plants after liming approached the level determined in the control plants.
17

Sorption of cadmium by filamentous soil fungi

67%
Plaza G., Lukasik W., Ulfig K.
Acta Microbiologica Polonica
|
1996
|
tom 45
|
nr 2
18

Differential trapping of heavy metals by macrophytes in different water bodies near Sohag, Upper Egypt

67%
El-Khatib A. A., El-Sawaf N.
Acta Hydrobiologica
|
1998
|
tom 40
|
nr 2
19

Influence of natural organic matter and metal accumulation in sediment on riverine macrobenthic assemblages

59%
Dukowska M., Michalowicz J., Grzybkowska M.
Polish Journal of Ecology
|
2012
|
tom 60
|
nr 2
We have investigated trace metal accumulation in sediment and in insect larvae in a small lowland river, which is an ecosystem with a large load of organic allochthonous matter (leaf packs) due to its first stream order section running across forest as well as along the edge of a large city (anthropogenic enrichment). Two study sites of this reach are separated by recreation ponds. Mean annual discharge at the upstream site (BZA) was below 0.010 m3 s-1, while at downstream one (BZB) it increased to 0.037 m3 s-1, the latter flow highly fluctuating. Riverbed at BZA consisted of sand and cobbles, while at BZB of different fractions of sand (substrate inorganic index, SI, significantly lower). Beside benthic samples obtained at monthly intervals over a year, additional samples were collected three times over the year: in winter, late spring, and autumn from each site to get organisms (insect larvae) and sediment for metal analysis. Two species representing chironomids (Chironomus riparius and Prodiamesa olivacea) and one ephemeropterans (Ephemera danica) were selected for detailed analysis. Despite these three taxa being different in terms of morphology and/or physiology they belonged to the same functional feeding group, i.e. sediment feeders. We avoided species occurring in food chains in which sediment indirectly affected organisms. Correlations between metal concentrations in these aquatic organisms and their environments were recorded at the analysed sites. Higher index values of metal bioaccumulation (bioconcentration factor, BCF) by insects were obtained at the downstream site (BZB), with relatively low levels of toxicants. For example, 8.5 for Zn (in spring), 23.0 for Pb, 3.3 for Ni and 39.5 for Cd (last three values in autumn); each of them was characteristic for P. olivacea. In turn, for the ephemeropteran species E. danica the respective highest BCF values were: 4.8 for Cu (in spring) and 1.6 for Mn (in autumn). On the other hand, lower BCF indices we gained at the BZA site, where higher concentrations of metals in sediment were recorded; for example, 2.7 for Zn (in autumn, P. olivacea), 4.3 for Pb, 6.8 for Cd, 4.3 for Cu (each value in spring, C. riparius). An exception of this relation was 5.6 for Ni (C. riparius, in autumn), and 1.8 for Mn (C. riparius, in spring) where BCF reached higher values at BZA than at BZB. Note that C. riparius did not appear at BZA during the studied period. Despite this species’ absence the above mentioned relation may testify to the ability of sediment feeders to regulate metal contaminant content in their tissues. It seems that natural organic load rather than low levels of metal toxicants decided about macroinvertebrate assemblages in the study river.
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