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Akumulacja mikro- i makropierwiastków w mchach i w porostach

Identyfikatory
Warianty tytułu
EN
Accumulation of micro- and macroelements in mosses and lichens
Języki publikacji
PL
Abstrakty
PL
Porównano stężenia analitów zakumulowanych w epigeicznych mchach i w epifitycznych porostach rosnących na tych samych obszarach. Do wyznaczania zależności między stężeniem analitów w próbkach mchów i porostów wykorzystano wyniki badań opublikowanych w czasopismach znajdujących się w bazach danych SCIENCE DIRECT. Poprzez analizę funkcji: ln(Cx,mech) = lna + bln(Cx,porost) wykazano z dużym prawdopodobieństwem, że stężenia analitów zakumulowanych w porostach i w mchach mają porównywalne wartości, a różnice wyrażone w formie: Cwzgl. = 2 (Cx,porost - Cx,mech)/( Cx,porost + Cx,mech) mogą wskazywać na ich pochodzenie. Przedstawione zależności mogą zostać wykorzystane w badaniach biomonitoringowych.
EN
Concentrations of analytes acumulated in epigeic mosses and epifitic lichens growing on the same areas were compared. To find dependences between concentration of analytes in mosses and lichens the results of investigations which were published in scientific journals were used. Using the relationship ln(Cx,moss) = Ina + bln(Cx,lichen) it was supposed that concentrations of analytes accumulated in lichen and mosses were comparabie, and differences showed in form: Crelat. = 2 (Cx,lichen - Cx,moss)/( Cx,lichen + Cx,moss) might suggest their origin. The dependences can be used in the biomonitoring investigations.
Słowa kluczowe
Rocznik
Strony
397--423
Opis fizyczny
Bibliogr. 34 poz., rys., tab.
Twórcy
autor
autor
autor
autor
  • Katedra Biotechnologii i Biologii Molekularnej, Uniwersytet Opolski, ul. kard. B. Kominka 4, 45-032 Opole, aklos@uni.opole.pl
Bibliografia
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  • [2] Smodiš B., Pignata M.L., Sajki M., Cortes E., Bangfa N., Markert B., Nyarko B., Arunachalam J., Garty J., Vutchkov M., Wolterbeek H.Th., Steinnes E., Freitas M.C., Lucaciu A. i Frontasyeva M.: Validation and Application of Plants as Biomonitors of Trace Element Atmospheric Pollution - A Co-Ordinated Effort in 14 Countries. J. Atmos. Chem., 2004, 49, 3-13.
  • [3] Conti M.E. i Cecchetti G.: Biological monitoring: lichens as bioindicators of air pollution assessment a review. Environ. Pollut., 2001, 114,471-492.
  • [4] Seaward M.R.D.: Biomonitors of environmental pollution: an appraisal of their effectiveness. Eco1. Chem. Eng., 2006, 13(3-4), 193-199.
  • [5] Szafek-Łukaszewska M., Grodzińska K. i Braniewski S.: Heavy metal concentration in the mass Pleurozium schreberi in the Niepołomice Forest. Poland: changes during 20 years. Environ. Monit. Asses., 2002,79(3),231-237.
  • [6] Zechmeister H.G., Hagendorfer H., Hohenwallner D., Hanus-Illnar A. i Riss A.: Analyses of platinum group elements in mosses as indicators of road traffic emissions in Austria. Atmos. Environ., 2006, 40, 7720-7732.
  • [7] Ermakova E.V., Frontasyeva M.V., Pavlov S.S., Povtoreiko E.A., Steinnes E. i Cheremisina Ye N.: Air pollution studies in Central Russia (Tver and Yaroslavl Regions) using the mass biomonitoring technique and neutron activation analysis. J. Atmos. Chem., 2004, 49, 549-561.
  • [8] Kashulina G., de Caritat P. i Reimann C.: Acidity status and mobility of Al in podzols near S02 emission sources on the Kola Penisula, NW Russia. App1. Geochem., 1998, 13, 391-402.
  • [9] Kłos A., Rajfur M., Wacławek M. i Wacławek W.: Heavy metal sorption in the lichen cationactive layer. Bioelectrochemistry, 2007, 71, 60-65.
  • [10] Gałuszka A.: The chemistry of soils, rocks and plant bioindicators in three ecosystems of the Holy Cross Mountains. Poland. Environ. Monit. Assess., 2005,110,55-70.
  • [11] Bargagli R., Monaci F., Borghini F., Bravi F. i Agnorelli C.: Mosses and lichens as biomonitors of trace metals. A comparison studyon Hypnum cupressiforme and Parmelia caperata in a former min ing district in Italy. Environ. Pollut.. 2002, 116, 279-287.
  • [12] Senhou A., Chouak A., Cherkaoui R., Moutia Z., Lferde M., Elyahyaoui A., El Khoukhi T., Bounakhla M., Embarche K., Gaudry A., Ayrault S. i Moskura M.: Sensitivity of biomonitors and local variations of element concentrations in air pollution biomonitoring. J. Radioanal. Nucl. Chem., 2002, 254(2), 343-349.
  • [13] Culicov O.A. i Yurukova L: Comparison of element accumulation of different moss- and lichen-bags, exposed in the city of Sofia (Bulgaria). J. Atmos. Chem., 2006, SS, 1-12.
  • [14] Adamo P., Giordano S., Vingiani S., Castaldo Cobianchi R. i Violante P.: Trace element accumulation by moss and lichen exposed in bags in the city of Naples (Italy). Environ. Pollut., 2003, 122, 91-103.
  • [15] Szczepaniak K. i Biziuk M.: Aspects of the biomonitoring studies using mosses and lichens as indicators of metal pollution. Environ. Res., 2003, 93, 221-230.
  • [16] Chiarenzelli J., Aspler L, Dunn C., Cousens B., Ozarko D. i Powis K.: Multi-element and rare earth element composition of lichens, mosses, and vascular plants from the Central Barrenlands, Nunavut, Canada. App1. Geochem., 2001,16,245-270.
  • [17] Reimann C., Halleraker Jo H., Kashulina G. i Bogatyrev L: Comparison of plant and precipitation chemistry in catchments with different levels of pollution on the Kola Peninsula, Russia. Sci. Total Environ., 1999,243(244),169-191.
  • [18] Loppi S., Giomarelli B. i Bargagli R.: Lichens and mosses as biomonitors of trace elements in a geothermal area (Mt. Amiata. central Italy). Crypt. Mycol., 1999, 20(2), 119-126.
  • [19] Loppi S. i Bonini I.: Lichens and mosses as biomonitors of trace elements in areas with thermal springs and fumarole activity (Mt. Amiata. central Italy). Chemosphere, 2000, 41, 1333-1336.
  • [20] Eğilli (Ölmez) E., Topcuoğlu S., Kut D., Klrbaşoğlu Ç. i Esen N.: Heavy metals and radionuclides in lichens and mosses in Thrace, Turkey. Buli. Environ. Contamin. Toxicol, 2003, 70, 502-508.
  • [21] Saka A.Z., Çevik U., Bacaksiz E., Kopya A.I. i Tirasoglu E.: Levels of cesium radionllclides in lichens and mosses from the province of Ordu in the Eastern Black Sea area of Turkey. J. Radioanal. Nucl. Chem., 1997, 222(1-2), 87-92.
  • [22] Reimann C. i Niskavaara H.: Distribution and pathways of heavy metals and sulphur in the vicinity of the copper-nickel smelters in Nikel and Zapoljarnij. Kola Penisllla. Rllssia, as revealed by different sample media. App1. Geochem., 1996, 11, 25-34.
  • [23] de Caritat P., Reimann C., Bogatyrev I., Chekushin V., Finne T.E., Halleraker 10 H., Kashulina G., Niskavaara H., Pavlov V. i Āyräs M.: Regional distribution of Al, B, Ba, Ca, K. La, Mg, Mn, Na, P, Rb, Si, Sr, Th, U and Y in terrestrial mass within a 188.000 km2 area of the central Barents region: influence of geology, seaspray and human activity. Appl. Geochem., 2001, 16, 137-159.
  • [24] Haack U., Kienholz B., Reimann C., Schneider J. i Stumpfl E.F.: Isotopic composition of lead in moss and soil of the European Arctic. Geochim. Cosmochim. Act., 2004, 16(12),2613-2622.
  • [25] Outola L: Effect of industrial pollution on the distribution of Pu and Am in soil and on soil-lo-plant transfer of Pu and Am in a pine forest in SW Finland. J. Radioanal. Nucl. Chem., 2003, 257(2), 267-274.
  • [26] Gregurek D., Reimann C. i Stumpfl E.F.: Mineralogical flngerprints of industrial emissions - an example from Ni mining and smelting on the Kola Peninsula, NW Russia. Sci. Total Environ., 1998, 221, 189-200.
  • [27] Prudencio M.L: Biogeochemistry of trace and major elements in a surface environment (volcanic rock, soil. mosses, lichens) in the S. Miguel Island, Azores, Portugal. J. Radioanal. Nucl. Chem., 2007, 271(2), 431-437.
  • [28] Klos A., Rajfur M., Wacławek M. i Wacławek W.: Use of lichens to assess local soil aerosol pollution with radiocaesium-137. Ecol. Chem. Eng., 2006, 13(8), 833-838.
  • [29] Komunikat Prezesa Państwowej Agencji Atomistyki z dnia 14 lipca 2006 r. w sprawie sytuacji radiacyjnej kraju w II kwartale 2006 r. (The announcement of the President of the National Agency of the Atomistics the day 14 July 2006 the radiational situation of the country in the second quarter of 2006).
  • [30] Komunikat Prezesa Państwowej Agencji Atomistyki z dnia 16 października 2006 r. w sprawie sytuacji radiacyjnej kraju w III kwartale 2006 r. (The announcement of the President of the National Agency of the Atomistics the day 16 October 2006 the radiational situation of the country in the third quarter of 2006).
  • [31] Kłos A., Rajfur M., Wacławek M. i Wacławek W.: Caesium-137 translocation from soil to lichens and mosses. J. Radioanal. Nucl. Chem., submitted to publication.
  • [32] Freitas M.C., Pacheco A.M.G., Baptista M.S., Dionisio L, Vasconcelos M.T.S.D. i Cabral J.P.: Response of exposed detached lichens to atmospheric elemental deposition. Ecol. Chem. Eng., 2007, 14(7), 631-644.
  • [33] Freitas M.C., Pacheco A.M.G., Baptista M.S., Dionisio L, Vasconcelos M.T.S.D. i Cabral J.P.: Response of exposed detached lichens to atmospheric elemental deposition. Proc. ECOpole, 2007, 1(l/2), 15-21.
  • [34] Olendrzyński K., Dębski B., Kargulewicz I., Skośkiewicz J., Fudała J., Haławiczka S. i Cenowski M.: Inwentaryzacja emisji zanieczyszczeń powietrza za rok 2001 na potrzeby statystyki krajowej i zobowiązań międzynarodowych w ramach Konwencji w sprawie transgranicznego zanieczyszczenia powietrza na dalekie odległości. Instytut Ochrony Środowiska (Institute of Environmental Protection), Krajowe Centrum Inwentaryzacji Emisji (National Emission Centre), Warszawa, lipiec 2003.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG4-0041-0023
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