Przemysław Pokorny scite author profile

Published information relating to changes in the chemical element content of avian eggs caused by embryonic development is extremely scarce, although it may be crucial for understanding both the presence of anthropogenic pollutants as well as physiological levels of micronutrients. We assessed the variation in concentrations of calcium (Ca) and magnesium (Mg) and nine trace elements: seven essential (chromium (Cr), copper (Cu), nickel (Ni), manganese (Mn), iron (Fe), cobalt (Co) and zinc (Zn)) and two non-essential (lead (Pb) and cadmium (Cd)) in shells and contents (both egg yolk and egg white) of embryonated and non-embryonated eggs. We investigated the eggs of the Eurasian Reed Warbler Acrocephalus scirpaceus, a large proportion of whose eggs are infertile in our study population (almost 43% of clutches contain unhatched eggs) as well as significant embryo-induced eggshell thinning at the equator of embryonated eggs. We found significantly higher concentrations (≥ 22.7%) of all the focal elements in the contents of embryonated eggs in comparison with non-embryonated eggs, and a very pronounced one for Ca (nearly twice as high). The shells of embryonated eggs contained significantly higher concentrations of Zn (104.1%), Fe (56.5%), Pb (32.8%) and Cu (28.0%) but significantly lower ones of Co (8.9%) and Ca (9.3%) than the shells of non-embryonated eggs. The simultaneous higher concentrations of all elements in the content of thinnershelled embryonated eggs suggest the parallel transfer of these elements along with Ca resorption from the shell into the egg interior during embryo formation. The higher concentration of most elements in the thinner shells of embryonated eggs may be indicative of the maternal deposition of some of these elements in a shell layer not subject to embryonic depletion, or in the eggshell membrane. Our results highlight the need for the careful selection of egg samples, which should differentiate between embryonated and non-embryonated eggs in the analytical treatment of eggs and eggshells.

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Metals in chosen aquatic plants in a lowland dam reservoir

Senze

Kowalska‐Góralska²,

Pokorny³

2012

J. Elem.

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The research involved S³up Dam Reservoir, which is used as a source of drinking water and for flood prevention. The research material was made up of aquatic plants and water collected in the littoral zone of the reservoir, in which copper, nickel, cadmium, lead and zinc contents were determined.Ceratophyllum demersum L. turned out to be the best accumulator of nickel, cadmium and zinc, Potamogeton crispus L. -copper, and Phragmites communis Trin -zinc. The presence of plants in the backwater area of the dam reservoir definitely improves water quality, not only thanks to their metal accumulation properties but because of their ability to act as a filter of substances carried in the water. METALE W ROOELINACH WODNYCH ZE ZBIORNIKA ZAPOROWEGO NA TERENIE NIZINNYM AbstraktBadania prowadzono na terenie Zbiornika Zaporowego S³up, który jest rezerwuarem wody pitnej oraz stanowi rezerwê przeciwpowodziow¹. Materia³em badawczym by³y rooeliny wodne oraz woda pobierane w strefie litoralu zbiornika, w których okreoelono zawartooeae miedzi, niklu, kadmu, o³owiu i cynku.Ceratophyllum demersum L. najsilniej spooeród badanych rooelin kumulowa³ nikiel, kadm i cynk, Potamogeton crispus L. -miedŸ, a Phragmites communis Trin -o³ów. Obecnooeae rooelin w rejonie tzw. cofki zbiornika zaporowego z pewnooeci¹ wp³ywa na poprawê jakooeci wody nie tylko wskutek kumulacji metali, ale tak¿e dzia³ania filtracyjnego w stosunku do zawiesin wnoszonych z wod¹ dop³ywu.

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Speckled and plain regions of avian eggshells differ in maternal deposition of calcium and metals: A hitherto overlooked chemical aspect of egg maculation

Orłowski

Pokorny

Dobicki

et al. 2017

The Auk

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Residues of chromium, nickel, cadmium and lead in Rook Corvus frugilegus eggshells from urban and rural areas of Poland

Orłowski

Kasprzykowski

Dobicki

et al. 2014

Science of The Total Environment

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Geographical and habitat differences in concentrations of copper, zinc and arsenic in eggshells of the Rook Corvus frugilegus in Poland

et al. 2009

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Levels of copper, zinc, and arsenic were analyzed in the Rook Corvus frugilegus eggshells from 43 breeding colonies located in different parts of Poland. The average [95% confidence interval (CI)] level of copper was found to be 8.13 (0.64-15.62) ppm, of zinc 13.81 (7.99-19.62) ppm, and of arsenic 32.57 (25.60-39.54) ppm. The concentration levels of these metals varied widely in the surveyed shells, with the difference between extreme values being 90-fold for copper, 57-fold for zinc, and 36-fold for arsenic. General linear model (GLM) analysis revealed that the accumulation of copper in eggshells from urban rookeries was significantly higher than that in eggshells from rookeries in villages [average 19.31 (4.57-43.20) vs. 2.74 (2.36-3.12) ppm, respectively]. In comparison, the concentration of zinc in eggshells of urban colonies was only close to being significantly higher than that in eggshells of rural colonies (P = 0.07), and the arsenic levels in eggshells of rural and urban colonies were similar. No significant differences were found for any of the metals between rookeries located in the areas of intensive (western Poland) and extensive (eastern Poland) agriculture. Based on a comparison of our data with published data on arsenic contamination in different biota, including tissues and bird eggs of terrestrial and aquatic animals, the level of arsenic in Rook eggshells found in our study can be regarded as extremely high and is most likely due to the widespread use of pesticides containing arsenic.

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