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  1. 47 Zeszyty Problemowe Postępów Nauk Rolniczych

  2. 29 Bromatologia i Chemia Toksykologiczna

  3. 26 Journal of Elementology

  4. 19 Acta Agrophysica

  5. 19 Biuletyn Instytutu Hodowli i Aklimatyzacji Roślin

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  1. 9 Bulinski R.

  2. 7 Kozera W.

  3. 7 Szefer P.

  4. 6 Barczak B.

  5. 6 Wilczek M.

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  1. 1 2022

  2. 1 2019

  3. 2 2018

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  5. 5 2016

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1
Artykuł dostępny w postaci pełnego tekstu - kliknij by otworzyć plik
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Evaluation of micronutritional status of chrysanthemum stock plants

100%
Bres W.
Zeszyty Problemowe Postępów Nauk Rolniczych
|
2003
|
tom 491
Up till now, no critical contents have been elaborated which permit to evaluate the correct microelement nutrition on the basis of chrysanthemum stock plant leaves analysis. Experiments were carried out to determine the content of iron, zinc and copper in the leaves of chrysanthemum motherplants by studying 16 cultivars in 2000 and 13 cultivars in 2001. Analyses were carried out at 4 terms (from: February to May). The values characterizing the content of the particular components in the leaves of each cultivar of chrysanthemum were statistically elaborated. Standard deviation for the cultivars and variation coefficient for the whole population in the given year were calculated. The usability of guide values utilized for traditional methods of chrysanthemum growing in diagnostics of plant nutrition were critically evaluated. New standard ranges of the content of iron, zinc and copper in chrysanthemum motherplant leaves were elaborated.
2
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Changes in macroelement content in Nuphar lutea [L.] Sibith. and Sm. during the growing season

86%
Tomaszewicz H., Ciecierska H.
Acta Societatis Botanicorum Poloniae
|
2009
|
tom 78
|
nr 2
151-165
This study presents the results of monitoring studies carried out to determine the chemical composition of Nuphar lutea in two phytocoenoses of Nupharo-Nymphaeetum albae Tomasz. 1977 occurring in two lakes of different trophic types (eutrophic Lake Łaśmiady and oligo-humotrophic Lake Pływające Wyspy). The leaves (collected starting in May), rhizomes and roots of Nuphar lutea as well as water and sediment samples were collected from March to November in the above phytocoenoses (for 3 years in Lake Pływające Wyspy and for 4 years in Lake Łaśmiady). The samples were analysed for several parameters including: phosphate, nitrate, total nitrogen, potassium, sodium, calcium, total iron, sulphate and silica dissolved. In addition the manganese, cadmium, zinc and lead contents were determined in the leaves, rhizomes and roots of the plants collected in July (at the height of the growing season). It was found that the differences in the chemical composition of water and sediments between the lakes studied were more pronounced than in the case of leaves, rhizomes and roots of Nuphar lutea.
3

Seasonal changes in the nutritional status and yielding of Anthurium cultorum Birdsey. Part II. Microelements

86%
Kleiber T., Komosa A., Krzyszkowska J., Molinski K.
Folia Horticulturae
|
2009
|
tom 21
|
nr 2
3-12
4

Makro i mikroelementy zdrowia

86%
Rajzauer-Kruzel B.
Biuletyn Informacyjno-Handlowy. Ośrodek Doradztwa Rolniczego Boguchwała
|
2001
|
nr 03
25-26
5
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The content of mineral elements in two lamb genotypes dependent on the system of maintenance

86%
Pieta M., Patkowski K.
Journal of Elementology
|
2009
|
tom 14
|
nr 3
527-537
The aim of the study was to determine the content of macro- and microelements in the blood serum and in the longissimus dorsi muscle (Musculus longissimus dorsi – Mld) of lambs, dependent on the system of maintenance of the lambs with their mothers, the genotype and the year of research. Lambs were reared together with their mothers in two maintenance systems: indoor system in a sheep fold and outdoor system in the open air with unlimited access to pasture. The lambs were of two genotypes: PLS (Polish Lowland sheep Uhruska variety) and BCP (the synthetic prolific meat line sheep). The concentration of elements in the blood serum was estimated in the second and third month of life, as well as in the Mld, after slaughter of the lambs at a weight of 25-28 kg. The results of the study show that the mineral compositions of blood change with the lamb’s age and related method of feeding. The system of maintenance had a modifying effect on the calcium, copper and zinc content in the blood serum, especially in the third month of the lambs’ life. It was noted that the copper content in the longissimus dorsi muscle in the lambs kept with their mothers in the outdoor system was higher compared to the lambs kept indoors. A similar tendency was observed in the content of mineral elements in the blood serum and in the longissimus dorsi muscle, dependent on the genotype and maintenance system. The concentration of elements (except sodium) in the blood serum in the lambs comprised within the reference values set for adult sheep.
6
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Evaluation of zinc and copper concentrations and the total antioxidant capacity of blood plasma in patients with malabsorption syndrome

86%
Kanikowska A., Wlochal M., Mielcarz G., Grzymislawski M., Kucharski M.
Journal of Elementology
|
2015
|
tom 20
|
nr 4
Disturbance of the antioxidative-oxidative balance is a predisposing factor in the development of a variety of diseases. Microelements, including zinc and copper, are components of active enzyme regions participating in anti-oxidative systems. Patients with malabsorption syndrome may suffer from diseases related to the chronic deficiency of micro- and macroelements and vitamins, but also experience health problems due to an impaired antioxidative plasma defence, i.e. illnesses caused by oxidative stress. The aim of the study was to assess zinc and copper concentrations as well as the total antioxidant capacity of blood plasma in 33 patients hospitalized in the Department of Internal Medicine, Metabolic Diseases and Dietetics, presenting symptoms of intestinal malabsorption such as weight loss, abdominal pain and diarrhoea. Blood donors made up the control group. Statistically significantly lower concentrations of zinc and copper were found in the study group as compared to the control group for women and men together as well as for women and for men separately (p < 0.05). A significantly lower FRAP (Ferric Reducing Ability of Plasma) value as a measure of blood plasma the total antioxidative capacity was found in the study group of men in comparison with men from the control group (p < 0.05). Patients showed deficiencies of the two microelements despite normal values of BMI (Body Mass Index) and laboratory parameters such as haemoglobin, protein, albumin and iron concentrations. Regardless of the nutritional state assessment, patients with malabsorption syndrome should receive adequate supplementation of vitamins and microelements.
7
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Influence of soil fertilization on concentration of microelements in soil solution of sandy soil

86%
Rutkowska B., Szulc W., Labetowicz J.
Journal of Elementology
|
2009
|
tom 14
|
nr 2
349-355
The study was carried out to asses the influence of soil mineral fertilization, manure application and soil liming on changes in the concentration of microelements (B, Cu, Fe, Mn and Zn) in soil solution. The tests were performed on samples of sandy soil collected from long-term fertilization experiments being conducted on lessive soil of the granulometric structure of clayish sand. Soil solution was prepared with the suction method. The concentration of microelements in soil solution was determined by means of the ICP method. The results showed an increase in Fe, Mn, Zn and Cu and a decrease in B and Mo in soil solution when soil was fertilized with nitrogen. The concentration of microelements in soil solution was not significantly influenced when soil was fertilized with phosphorous and potassium. Liming had a significant effect on a decrease in the concentration of Fe, Mn, Zn and Cu and an increase in B and Mo in soil solution. Soil application of manure significantly increased the concentration of microelements in soil solution.
8
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Sulphur as a fertiliser component determining crop yield and quality

86%
Skwierawska M., Benedycka Z., Jankowski K., Skwierawski A.
Journal of Elementology
|
2016
|
tom 21
|
nr 2
The aim of this paper was to review 100 years of Polish studies on sulphur fertilisation and its effects on the growth and development of plants, the chemical composition and impact of sulphur compounds on the health of plants, and its fungicidal activity. In the reviewed studies sulphur deficiency generally delayed vegetative growth, caused the dying out of the growth cone, yellow discolouration of the generative and vegetative organs and delayed maturation. Observations of plants have demonstrated that sulphur is essential for normal photosynthetic functions. Plants suffering from a lack or shortage of sulphur had pale green or yellowish, narrow, short and small leaves, and a smaller than normal root system, which was associated with reduced chlorophyll synthesis. The availability of sulphur was found to enatil an improved uptake of nitrogen by plants, thus affecting their quality and optimising the N:S ratio. Fertilisation with sulphur increased the total content of sulphur and sulphates in plants. Findings from studies on the effect of sulphur on the content of macroelements in tested plants are inconclusive. Sulphur used in excess disturbed the ionic balance in plants and indirectly affected the intensity and level of uptake of other nutrients. The results of studies investigating the impact of sulphur on changes in the content of heavy metals were ambiguous and demonstrated either synergistic or antagonistic interactions. Generally, sulphur fertilisation increased the content of glucosinolates in plants and improved their nutritional value. Most studies also showed that sulphur fertilisation improved the disease resistance of plants. Some studies have also demonstrated an increased content of glucosinolates in plants fertilised with sulphur, which stimulated natural resistance to fungal infections.
9
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Possible use of natural zeolites in animal production and environment protection

86%
Burmanczuk A., Rolinski Z., Kowalski C., Burmanczuk N., Markiewicz W.
Journal of Elementology
|
2015
|
tom 20
|
nr 4
Natural zeolites contain micro- and macroelements such as calcium, magnesium, potassium, iron and copper. The aim of the following study has been to determine changes in poultry production induced by adding naturally occurring zeolites as dietary supplements. The study was carried out on 20,000 one-day chicks of the fattening breed called Ross. The birds were divided into two groups: the control group (group C) and the group supplemented with 5% of zeolite added to the feed (group E). Observations lasted for 45 days. Weekly measurements of the body weight of randomly chosen chicks were taken in both groups, and dead birds were counted. The composition of faeces was analyzed with an absorbance test. The air composition was determined with an instrument specially designed for that purpose. Differences in the body weight between groups C and E reached approximately 10%. A decrease in the mortality rate among chicks was observed in the treatment versus the control group. Mineral substances such as calcium and phosphorus were higher by about 4.4% and 9.5%, respectively, in the experimental group. Less ash in faeces (by about 20.4%) and less ammonia in the air (by about 33%) were determined for the experimental group, too. The present results may have important implications for poultry production, especially the fact that zeolite supplementation increased the body weight gain and reduced the number of falls. In conclusion, it is recommended to include zeolite in feed additives.
10
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Content available

Macro- and microelements in eel (Anguilla anguilla) from the northern regions of Poland

86%
Polak-Juszczak L., Robak S.
Journal of Elementology
|
2015
|
tom 20
|
nr 2
The abundance of the eel (Anguilla anguilla) in Europe has been on the decline in recent years, to the extent that this fish species is now considered to be threatened with extinction. Hence, the current implementation of the Eel Management Plan in Poland, whose aim is to restore w stocks of this fish. The main natural habitats of eel are the transitional waters of the Vistula and Szczecin lagoons and lakes in northern Poland. The eel is highly valued by many consumers for the taste and texture of its meat. The aim of the study was to determine differences in concentrations of macro- and microelements and toxic metals in muscles of the eel as a function of each specimen’s length, mass and the origin. The results of the study also served an evaluation of the health benefits and risks to consumers of eel meat with regard to the content of macro- and microelements and toxic metals. Specimens of the eel (Anguilla anguilla) were caught in 2011-2013, in five regions of Poland: the southern Baltic, inland lakes in northeast Poland, the Vistula and Szczecin lagoons, and in the Vistula River. The concentrations of Ca, P, Mg, Na, K, Fe, Sr, Zn and As were determined with optical emission spectrometry. The flameless atomic absorption spectrometry method was used to measure concentrations of Cu, Cd and Pb. The content of Hg and Se were determined with atomic absorption, those of mercury with cold vapour, and of selenium with hydride generation. The concentrations of macro- and microelements in most instances, with the exception of P and Zn, were negatively correlated with the eel’s length and mass, which indicated that small fish contained more minerals than large specimens. The eel is a rich source of phosphorus, zinc, selenium and iron, and it can supply significant quantities of the daily requirements of human consumers for these minerals. The other minerals occurred in eel muscle at levels that ranged from 2 to 6% of human daily requirements. Among the toxic metals, mercury was the cause for concern, while cadmium and lead occurred at low levels in all of the specimens examined regardless of their size. The mean concentration of mercury ranged from 0.147 to 0.273 mg kg-1 and was positively correlated with specimen length and mass. The content of mercury in large eel exceeded 0.500 mg kg-1, while small eel (up to 70 cm) contained lower levels of mercury. Large eel exceeding 70 cm can pose a threat to the consumer’s health because of mercury, and especially its organic from of methylmercury. This is why consumers should limit long-term consumption of larger eel, while it is safe to consume smaller specimens since they contain less mercury and more minerals than do large eel.
11

Macro- and microelements content in the sward depending on soil chemical composition

86%
Czyz H., Niedzwiecki E., Trzaskos M., Protasowicki M.
Folia Universitatis Agriculturae Stetinensis. Agricultura
|
1999
|
tom 80
12

Interaction between mercury and macro- and microelements in animals

86%
Kossakowski S., Grosicki A.
Polish Journal of Environmental Studies
|
1996
|
tom 05
|
nr 3
We have reviewed available data from our and other laboratories relevant to the effects of single and repeated intoxication with mercury on the metabolism of several elements in animal bodies. Additionally, emphasis has been placed on the influence of zinc and selenium on mercury toxicity. The data indicate that mercuric chloride and methyl mercury affect quite differently the distribution pattern and concentrations of trace elements in animal organs. Moreover, it should be stressed that mercury intoxication decreases bone radiocalcium and thyroidal radioiodine levels which correlated with the size of mercury doses. The disturbances were chiefly attributed to impairments of the gastrointestinal absorption in mercury intoxicated rats. Moreover, haemodynamic alterations and mercury trace ele- ments-metallothionein complexes may also result in these disturbances. The effect of zinc on mercury toxicity is not uniquivocal. In contrast, the ability of selenium to decrease mercury's deleterious effect in animals is well recognised.
13

Changes of soil abundance in microelements in long-term fertilizer experiment [Czarny Potok]

86%
Kopec M., Przetaczek-Kaczmarczyk M.
Polish Journal of Soil Science
|
2006
|
tom 39
|
nr 1
In the presented investigations contents of selected microelements were determined in soil and meadow sward of static fertilizer experiment at Czarny Potok near Krynica. The experiment set up in 1968 on the natural mountain meadow comprises 8 fertilizer objects. The studies presented in the work concern 36thyear of the experiment. B, Mn, Zn, Fe, Cu and Co were determined in the 0-10 cm soil. Soil microelement forms soluble in 1 mol HCl dm⁻³ and acidification indices were assessed. Long-term mineral fertilization had a significant effect on the contents of microelements in the soil of the permanent meadow and these changes were multidirectional. Diversification in the contents of microelements resulted from unilateral fertilization with phosphorus, acidifying effect of fertilizers and from liming which blocked solubility of microelements in the soil. The contents of most microelements in the soil of mountain meadow fertilized with mineral fertilizers for many years were considered as medium with the exception of boron which content oscillated between the low and medium. This justifies the necessity of boron fertilization.
14

The fertilizing value of waste activated sludge. Part II. The content of chosen microelements in the grains and straw of some cereals plants

86%
Kuziemska B., Kalembasa S.
Polish Journal of Soil Science
|
2004
|
tom 37
|
nr 1
In a field experiment, the influence of the kind, time of application of waste activated sludge and mineral fertilization on the content of chosen heavy metals in the grain and straw of oats and winter rye was investigated. The plants cultivated on the objects fertilized with waste activated sludge did not contain more Cu, Zn and Ni in relation to some parts of plants cultivated on objects with FYM taken as standard object.
15
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Content available

Nutrition status of greenhouse tomato grown in inert media. Part II. Microelements

86%
Chohura P., Komosa A.
Acta Scientiarum Polonorum. Hortorum Cultus
|
2003
|
tom 02
|
nr 2
The effect of inert media and fertilization levels on nutrition status of green house tomato cv. ‘Maeva F₁’ was investigated. Mean microelement content was: 118.5 mg Fe, 51.7 mg Zn, 269.0 mg Mn and 11.43 mg Cu kg⁻¹ of dry mass of the index parts of the tomato (9–10 leaf form the top). No significant effect of rockwool, expanded clay and polyurethane foam on microelement contents was found in the index parts of the greenhouse tomato, except for zinc whose content was significantly higher in the leaves of the plants grown in rockwool and polyurethane foam than in expanded clay. Fertilization levels did not affect significantly the content of iron, manganese and copper in the index parts, except for zinc whose content lowered at higher fertilization level. High tolerance of the tomato plants to zinc and manganese content in feeding solutions was indicated. No phytotoxicity of zinc nor manganese was found at the content of 2.01 mg Zn and 1.78 mg Mn dm⁻³ of water or feeding solution.
16
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Content available

Speciation analysis of inorganic forms of selenium in confectionery products

86%
Gawloska-Kamocka A.
Journal of Elementology
|
2007
|
tom 12
|
nr 2
Owing to its biological properties the microelement selenium has attracted enormous interest. It has been established that selenium stimulates the human immune system and has anti-carcinogenic effect. The main sources of selenium are high-protein foodstuffs of plant and animal origin, as well as high-protein dairy products. The aim of this study was to detect selenium content in confectionery products using speciation analysis in order to determine inorganic forms of selenium such as Se2- SeO32- and SeO42- anions. The hydride generation method combined with the atomic absorption spectroscopy was used for the final determination of selenium forms. The determination of selenium was conducted using aqueous extraction and digestion of samples with concentrated acids. The speciation determination of selenium was conducted in ten confectionery products. The correlation between the total content of selenium and its individual forms (-II), (IV),(VI) of different oxidation degree was also examined. It was shown that there was no correlation between the total selenium and inorganic forms of selenium. That means that speciation analysis is the only correct analysis of selenium content in foods.
17
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Content available

Effect of the method and term of foliar nutrition with urea solution and a multiple fertilizer on nitrogen and dry mass content maize

86%
Kruczek A.
Acta Agrophysica
|
2003
|
tom 85
18

Environmental factors effecting the concentration of microelements in the soil solution of Polish arable soils

86%
Labetowicz J., Rutkowska B.
Polish Journal of Soil Science
|
2002
|
tom 35
|
nr 1
Based on a large number of samples collected from within Polish territory, the concentration of microelements (Fe, Mn, Zn, Cu, B, and Mo) in a soil solution of arable soils of Poland was measured and evaluated, and the possibility of various soil factors as causal agents of this concentration was assessed.
19

The influence of magnesium and zinc on the activity of isocitric dehydrogenase in the presence of fluoride ions

86%
Florianczyk B., Pasternak K., Papierkowski A.
Polish Journal of Environmental Studies
|
1997
|
tom 06
|
nr 1
Fluorine exists in hard tissues (bones, teeth), in which it plays a structural function. Small quantities of fluorine are found in biological solvents and soft tissues. Fluoride ions are not enzyme cofactors but may influence their activity. In this paper, the acitivity of ICDH (isocitric dehydrogenase, E. C. 1.1.1.42) was tested in the presence of different concentrations of fluoride ions (from 0.05 to 5.0 μmol/l). Simultaneously, we studied ICDH activity in the presence of (acide from fluorine) magnesium and zinc ions. ICDH (of the Sigma) was tested by colorimetrical method. Fluoride ions in a range of concentrations from 0.05 to 0.52 μmol/1 have an inhibition effect, but in concentrations of 1.5 to 5.0 μmol/l activate the tested enzyme. The magnesium ions added to the incubation mixture eliminated the inhibition and activation effects of fluoride ions on the ICDH.
20

Effect of soil contamination by cadmium on potassium uptake by plants

86%
Ciecko Z., Kalembasa S., Wyszkowski M., Rolka E.
Polish Journal of Environmental Studies
|
2004
|
tom 13
|
nr 3
The aim of the experiment was to determine the effect of cadmium (10, 20, 30 and 40 mg Cd · kg-1 soil) on the potassium uptake by oats, maize, yellow lupine and radish. The effect of organic matter on cadmium immobilization was investigated in several treatments of the experiment using non-supplemented soil and soil supplemented with compost soil, brown coal, lime or bentonite. The correlations between the potassium content and the cadmium contamination of the soil, plant yield and the content of macro- and microelements in the plants were determined. The species and organ of the plants determined the uptake of potassium and influenced the effect of cadmium on the uptake of potassium by plants. Artificial soil contamination by cadmium reduced the content of potassium in oat grains and in the above-ground parts and roots of yellow lupine and radish. A reverse effect - an increase in the concentration of potassium, was found for oat straw and roots and maize roots. The application of compost soil, brown coal, lime and bentonite reduced the potassium concentration in the particular organs of the experimental crops. The concentration of potassium was positively correlated with plant yield and the content of macroelements and some microelements in them.
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