Lichen application for assessing environmental pollution with radionuclides

• Autorzy: Kłos A. , Rajfur M. , Wacławek M. , Wacławek W.

Warianty tytułu

PL

Wykorzystanie porostów do oceny zanieczyszczenia środowiska radionuklidami

• Języki publikacji: EN

Abstrakty

EN

In this study the purposes and directions of researches regarding lichen application for assessing environmental pollution with radionuc1ides have been reviewed. The presented examples were based on selected representative publications concerning the period of the late 50s of the twentieth century. During the period (1959-1962), frequent nuc1ear tests were carried out and their effects are observed until this time. The other significant event that resu1ted in increased interest in this subject was the Chernobyl accident in April 1986.

PL

Publikacja jest przeglądem prac dotyczących celów i kierunków badań związanych z wykorzystaniem porostów do oceny zanieczyszczenia środowiska radionuklidami. Zaprezentowane przykłady oparte zostały na publikacjach począwszy od końca lat pięćdziesiątych XX w. W tym czasie (1959-1962) nastąpiła intensyfikacja próbnych wybuchów jądrowych, których skutki rejestrowane są do dzisiaj. Drugim znamiennym wydarzeniem, które spowodowało wzrost zainteresowania tą tematyką badawczą była awaria elektrowni jądrowej w Czarnobylu w kwietniu 1986 r.

Słowa kluczowe

EN

radionuclides; lichens; environmental monitoring

PL

radionuklidy; porosty; monitoring środowiska

• Wydawca: Towarzystwo Chemii i Inżynierii Ekologicznej
• Czasopismo: Chemia i Inżynieria Ekologiczna
• Rocznik: 2004
• Tom: Vol. 11, nr 12
• Strony: 1323--1332
• Opis fizyczny: Bibliogr. 92 poz., tab.

Twórcy

autor

Kłos A.

• Chair of Technology, Opole University, ul. Kard. B. Kominka 4, 45-032 Opole

autor

Rajfur M.

• Chair of Technology, Opole University, ul. Kard. B. Kominka 4, 45-032 Opole

autor

Wacławek M.

• Chair of Technology, Opole University, ul. Kard. B. Kominka 4, 45-032 Opole

autor

Wacławek W.

• Institute of Chemistry, Opole University, ul. Oleska 48, 45-951 Opole, tel. 077/454 58 41 ext. 2234, fax 077/455 91 49

Bibliografia

• [1] Vitikainen O.: William Nylander (1822-1899) and Lichen Chemotaxonomy. Bryologist 2001 104(2), 263-267.
• [2] Hawksworth D.L. and Rose F.: Qualitative scale for estimating sulphur dioxide air pollution in England and Wales using epiphytic lichens. Nature, 1970, 254, 145-148.
• [3] Kłos A., Ząbkowska-Wacławek M., Olechowska M. and Koźlik K.: "Air Pollution Project Europe" i jego realizacja na terenie Gminy Jaworzyna Śląska. Chem. Inż. Ekol., 2000, 5, 499-519.
• [4] Miszalski Z. and Niewiadomska E.: Comparison of sulphite oxidation mechanisms in three lichen species. New Phytol., 1993, 123(2), 345-349.
• [5] Nimis P. L., Lazzarin A., Lazzarin G. and Gasparo D.: Lichens as bioindicators of air pollution by SO2 in the Veneto region (NE Italy). Stud. Geobot., 1991, 11, 3-76.
• [6] Bargagli R., Brown D.H. and Nelli L.: Metal biomonitoring with mosses - procedures for correcting for soil contamination. Environ. Pollut., 1995, 89(2), 169-175.
• [7] Pagnanelli F., Trifoni M., Beolchini F., Esposito A., Toro L. and Veglio F.: Eguilibrium biosorption studies in single and multi-metal systems. Proc. Biochem., 2001, 37, 115-124.
• [8] Branquinho C., Catarino F., Brown D.H., Pereira M.J. and Soares A.: Improving the use of lichens as biomonitors of atmospheric metal pollution. Sci. Total Environ., 1999, 232(1-2), 67-77.
• [9] Hauck M., Mulack C. and Paul A.: Manganese uptake in the epiphytic lichens Hypogymnia physodes and Lecanora conizaeoides. Environ. Exper. Bot., 2002, 48, 107-116.
• [10] Seaward M.R.D.: Use and abuse of heavy metal bioassays in environmental monitoring, Sci. Total Environ., 1995, 176, 129-134.
• [11] Bylinska E.A., Marczonek A. and Seaward M.R.D.: Mercury accumulation in various components of a forest ecosystem influenced by factory emissions, Urban Ecol., 1991, 75-87.
• [12] Gorham E.: A comparison of lower and higher plants as accumulators of radioactive fallout, Can. J. Bot., 1959, 37, 327-329.
• [13] Grodzinsky D.M.: On the natural radioactivity of mosses and lichens. Ukrain. Bot. Zhum., 1959, 16(2), 30-38.
• [14] Grodzinsky D.M.: Natural radioactivity in plants of the Ukrainian SSR. Ukrain. Bot. Zhum., 1960, 17(6), 3-14.
• [15] Hviden T. and Lillegraven A.: Cesium-137 and Strontium-90 in precipitation, soil and animals in Norway, Nature, 1961, 192, 1144-1152.
• [16] Liden K.: Cesium-137 burdens in Swedish Lapplanders and reindeer. Acta Radiol., 1961,56,237-254.
• [17] Paakola H.E. and Miettinen J.K.: 90Sr and 137Cs in plants and animals in Finnish Lapland during, 1960, Ann. Acad. Sci. Fenn. Ser., 1963, A2, 125-138.
• [18] Pruit W.O.: Lichen, caribou and high radiation in Eskimos. Audbon Mag., 1963, 65, 284-287.
• [19] Subbotina E.N. and Timofeeff N.V.: On the accumulation coefficients, characterizing the uptake by crust lichens of some dispersed elements from acqueous solutions. Bot. Z., 1961, 46, 212-224.
• [20] Hasanen E. and Miettinen J.K.: Gamma emitting radionuclides in subarctic vegetation during 1962-1964. Nature, 1966, 212, 379-382.
• [21] Beasley T.M. and Palmer H.E.: Lead-210 and polonium-210 in biological samples from Alaska. Sci. Total Environ., 1966, 152, 1062-1064.
• [22] Hanson W.C.: Plutonium in lichen communities of the Thule, Greenland region during the summer of 1968. Health Phys., 1972, 22, 39-42.
• [23] Holm E. and Persson R.B.R.; Radiochemical studies of 241Pu in Swedish reindeer lichen. Health Phys., 1977, 33, 471-473.
• [24] Jagielak J., Biernacka M., Grabowski D. and Henschke J.: Zmiany sytuacji radiologicznej środowiska Polski w okresie 10 lat po awarii w Czarnobylu, PIOŚ, Bibl. Monitor. Środow., Warszawa 1996.
• [25] van den Berg G.J., Tyssen T.P.M., Ammerlaan M.J.J., Volkers K.J., Woroniecka U.D., de Bruin M. and Wolterbeek H.Th.: Radiocesium and lead in the lichen species Parmelia sulcata sampled in three regions around Chrnobyl: assessment of concentrations in 1990. J. Environ. Radioactiv., 1992, 17, 115-128.
• [26] Brittain J.E., Storruste A. and Larsen E.: Radiocesium in brown trout (Salmo trutta) from a subalpine lake ecosystem after the Chernobyl reactor accident. J. Environ. Radioactiv., 1991,14 (3), 181-192.
• [27] Steinnes E. and Njlstad O.: Use of mosses and lichens for regional mapping of 137Cs fallout from the Chernobyl accident, J. Environ. Radioactiv., 1993, 21, 65-73.
• [28] Staaland H., Garmo T.H., Hove K. and Pedersen O.: Feed selection and radiocesium intake by reindeer, sheep and goats grazing alpine summer habitats in Southern Norway. J. Environ. Radioactiv., 1995, 29 (1), 39-56.
• [29] Solem J. O. and Gaare E.: Radiocesium in aquatic invertebrates from Dovrefjell, Norway, 1986 to 1989, after the Chernobyl fall-out. J. Environ. Radioactiv., 1992, 17 (1), 1-12.
• [30] Seaward M.R.D., Heslop J.A., Green D. and Bylinska, E.A.: Recent levels of radionuclides in lichens from southwest Poland with particular reference to 134Cs and 137Cs. J. Environ. Radioactiv., 1988, 7, 123-129.
• [31 ] Papastefanou C., Manolopoulou M. and Sawdis, T.: Lichens and mosses: biological monitors of radioactive fallout from the Chernobyl reactor accident. J. Environ. Radioactiv., 1989, 9, 199-207.
• [32] Chereji I., Daraban L Dreve S., Boscaneau S., Cosma C. and Vari E.: Chernobyl - Derived Radiocesium, in Some Pharmaceutical Plants. J. Radioanal. Nucl. Chem., 1996, 212 (2), 85-92.
• [33] Baldini E., Bettoli M.B. and Tubertini O.: Measurement on Chernobyl fallout in forest vegetation. Inorg. Chim. Acta, 1987, 140, 331-333.
• [34] Sloof J.E. and Wolterbeck B.T.: Lichens as biomonitors for radiocesium following the Chernobyl accident. J. Environ. Radioactiv., 1992, 16(3), 22-242.
• [35] Akcay H.: Deposition of fission product radionuclides in lichens and coniferous plants in Turkey. J. Radioanal. Nucl. Chem., 1995 200(2), 147-158
• [36] Hamilton E.I., Zou B. and Clifton R J.: The Chernobyl accident - radionuclide fallout in S. W. England. Sci. Total Environ., 1986, 57, 231-251.
• [37] Smith J.N. and Ellis K.M.: Time dependent transport of Chernobyl radioactivity between atmospheric and lichen phases in Eastern Canada. J. Environ. Radioactiv., 1990, 11, 151-168.
• [38] Chibowski S., Solecki J. and Bystrek J.: The examination of gamma-emitter contamination level of the lichens from eastern and south-eastern Poland collected in the years 1949-1996, J. Radioanal. Nucl. Chem., 1998, 230(1-2), 319-322.
• [39] Bretten S., Gaare E., Skogland T. and Steinnes E.: Investigations of radiocaesium in the natural terrestrial environment in Norway following the Chernobyl accident. Analyst., I992, 117, 501-503.
• [40] Strandberg M.: Radiocesium in a Danish pine forest ecosystem. Sci. Total Environ., 1994. 125-132.
• [41] Chibowski S. and Reszka M.: Investigation of Lublin town environment contamination by radionuclides and heavy metals with application of Parmeliaceae lichens. J. Radioanal. Nucl. Chem., 2000, 247(2), 443-446.
• [42] Sawidis T., Heinrich G. and Chettri M.K.: Cesium-137 monitoring using lichens from Macedonia, northern Creece. Can. J. Bot., 1997, 75(12), 2216-2223.
• [43] Akcay H. and Ardisson G.: Radioactive pollution of Turkish biotas one year after the Chernobyl accident. J. Radioanal. Nucl. Chem., 1988, 128(4), 273-281.
• [44] Saka A., Cevik U., Bacaksiz E., Kopya A.I. and Tiratodlu E.: Levels of cesium radionuclides 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.
• [45] Book S.A., Connolly G.E. and Longhurst W.M.: Fallout 137Cs accumulation in two adjacent populations of northern California deer. Health Phys., 1972, 22, 379-385.
• [46] Cręte M., Lefebvre M. A., Zikovsky L. and Walsh P.: Cadmium. lead. mercury and 137cesium lichens of northern Quebec. Sci. Total Environ., 1992, 121, 217-230.
• [47] Ellis K.M. and Smith J.N.: Dynamic model for radionuclide uptake in lichen. J. Environ. Radioactiy., 1987, 5(3), 185-208.
• [48] France R.L., Svoboda J. and Taylor H.W.: Latitudinal distribution of Cesium-137 fallout in 1990 on Saxifraga oppositifolia from Ellesmere Island. Canada. Can. J. Bot., 1993, 71, 708-711.
• [49] Paliouris G., Taylor H.W., Wein R.W., Svoboda J. and Mierzyński B.: Fire as an agent in redistributing fallout 137Cs in the Canadian boreal forest. Sci. Total Environ., 1995, 160/161, 153-166.
• [50] Heinrich G., Oswald K. and Muller H.: Lichens as monitors of radiocesium and radiostrontium in Austria. J. Enyiron. Radioactiyity, 1999, 45(1), 13-27.
• [51] Bizarov L.G.: The radionuclides in lichen thalli in Chernobyl and east Urals areas after nuclear accidenls. Phyton., 1994, 34, 85-94.
• [52] Biazroy L.G.: Radionuclide content in lichen thallus in the forest adjacent to the Chernobyl atomic power plant. Sci. Total Environ., 157, 25-28.
• [53] Chant L.A., Andrews H.R., Cornett R.J., Koslowsky V, Militon J.C., Van den Berg G.J., Verburg T.G. and Wolterbeek H.T.; 129I and 36Cl concentrations in lichens collected in 1990 from three regions around Chernobyl. Appl. Radiat. Isot., 1996, 47(9-10), 933-937.
• [54] Nifontova M.G.; Radionuclides in the moss-lichen cover of tundra communities in the Yamal Peninsula. Sci. Total Environ., 1995, 160/161, 749-752.
• [55] Nifontoya M.G.: Concentrations of Long-lived Artiftcial Radionuclides in the Moss-Lichen Cover of Terrestrial Ecosystems in the Ural-Siberian Region. Russ. J. Ecol., 1998, 3, 167-171.
• [56] Nifontova M.G. and Alexashenko V.N.: Content of 90Sr and 134,137CS in fungi, lichens, and mosses in the vicinity of the Chernobyl nuclear power plant. Soviet J. Ecol., 1993, 23(3), 152-155.
• [57] Godoy J.M.L.A., Schuch D.J.R., Nordemann V.R.G., Ries M., Ramalho J.C., Recio R.R.A. and Olech M.A.: 137Cs, 226,228Ra, 210Pb, 40K concetrations in Antarctic soil, sediment and selected moss and lichen samples. J. Environ. Radioactiv., 1998, 41, 33-45.
• [58] Mietelski J. W., Gaca P. and Olech M. A.: Radioactive contamination of lichens and mosses collected in South Shetlands and Antarctic Peninsula. J. Radioanal. Nucl. Chem., 2000, 245(3), 527-537.
• [59] Paatero J., Jaakkola T and Ikaheimonen T. K.: Regional distribution of Chernobyl-derived plutonium deposition in Finland, J. Radioanal. Nucl. Chem., 2002, 252(2), 407-412.
• [60] Paatero J., Jaakkola T and Kulmala S.: Lichen (sp. Cladonia) as a Deposition Indicator for Transuranium Elements lnvestigated with the Chernobyl Fallout. J. Environ. Radioactiv., 1998, 38(2), 223-247.
• [61] Biazrov LG., Lichens as indicators of radioactive contamination. J. Radioecol., 1993, I, 15-20.
• [62] Loppi S., Malfatti A., Sani M. and Whitehead N.E.: Lichens as biomonitors of geothermal radionuclide pollution. Geothermics 1997, 26(4), 535-540.
• [63] Mathews K.M.: The use of lichens in a study of geothermal radon emissions in New Zealand. Environ. Pollut., 1981, A24, 105-116.
• [64] Santos P.L., Gouvea R.C. and Dutra I. R.: Lead-210 in vegetables and soils from an area of high natural radioactiyity in Brazil. Sci. Total Environ., 1993, 138, 37-46.
• [65] Boileau L.J.R., Beckett P.J., Lavoie P. and Richardso, D.H.S..- Lichens and mosses as monitors of industrial activity associated with uranium mining in northern Ontario. Canada. Environ. Pollut., 1982, B4, 69-84.
• [66] Fahselt D., Wu T. W. and Mott B.: Trace element patterns in lichens following uranium mine closures. Bryologist, 1995, 98(2), 228-234.
• [67] Jeran Z., Byrne A.R. and Batic F.: Transplanted epiphytic lichens as biomonitors of air-contamination by natural radionuclides around the Zirovski vrh uranium mine, Slovenia, Lichenologist, 1995, 27(5), 373-385.
• [68] Thomas P.A. and Gates T.E.: Radionuclides in the lichen-caribou-human food chain near uranium mining operations in northern Saskatchewan, Canada. Environ. Health Perspect., 1999,107(7), 527-537.
• [69] Thomas R.S. and Ibrahim S.A.: Plutonium concentrations in lichens of Rocky Flats environs, Health Phys., 1995, 68(3), 311-319.
• [70] Turekian K.K., Benninger L.K. and Dion E.P.: Be-7 and Pb-210 total deposition fluxes at New Haven, Connecticut and at Bermuda. J. Geophys. Res., 1983, 88, 5411-5415.
• [71] Wallbrink P.J. and Murray A.S.: Fallout of 7Be in South Eastern Australia. J. Environ. Radioactiy., 1994, 25, 213-228.
• [72] Kirchner G. and Daillant O.; The potential of lichens as long-term biomonitors of natural and artifical radionuclides. Environ. Pollut., 2002, 120, 145-150.
• [73] Guogang J., Belli M., Sansone U., Rosamilia S. and Gaudino S.: Concentration, distribution and characteristics of depleted uranium (DU) in the Kosovo ecosystem: A comparsion with the uranium behavior in the environment uncontaminated by DU. J. Radioanal. Nucl. Chem., 2004, 260(3), 481-494.
• [74] Udur A., Ozden B., Sac M. M., Yener G., Altmbas U., Kurucu Y. and Bolca M.: Lichens and mosses for correlation between trace elements and 210Po in the areas near coal-fired power plant at Yatadan, Turkey. J. Radioanal. Nucl. Chem., 2004, 259(1), 87-92.
• [75] Outola I.: Effect of industrial pollution on the distribution of Pu and Am in soil and on soil-to-plant transfer of Pu and Am in a pine forest in Finland. J. Radioanal. Nuci. Chem., 2003, 257(2), 267-274.
• [76] Blanchard R.L. and Moore J.B.: 210Pb and 2I0Po in tissues of some Alaskan residents as related to consumption of caribou or reindeer meat. Health Phys., 1970, 18, 127-134.
• [77] Gaare E.: A hypothesis to explain lichen-Rangifer dynamie relationships, Arctic ungulate conference, Fairbanks, Alaska 1995, Rangifer, 1997, 17, 3-7.
• [78] Holleman D.F., Luick J.R. and Whickler F.W.: Transfer of radiocesium from lichen to reindeer. Health Phys., 1971, 21, 657-666.
• [79] Rissanen K. and Rahola T.: Cs-137 concentration in reindeer and its fooder plants, Sci. Total Environ., 1989, 85, 199-206.
• [80] Holleman D.F., White R.G. and Allaye-Chan A.C.: Modelling of radiocesium transfer in the lichen reindeer/caribou-wolf food chain, Fifth International Reindeer / Caribou, Symposium Special Issue 3, Arvidsjaur, Sweden, Augustt 18-22, 1988, pp.39.
• [81] Hanson W.C.: Cesium-137 in Alaskan lichens. caribou and eskimos. Health Phys., 1967,13, 383-389.
• [82] Hanson W. C.: 137-Cs concentrations in northern Alaskan Eskimos, 1962-1979: effects of ecological, cultural and political factors, Health Phys., 1982, 42, 433-447.
• [83] Topcuoglu S, Yan Dawen A.M. and Gungor N.: The natural depuration ratę of 137 Cs radionuclides in a lichen and moss species. J. Environ. Radioactiv., 1995, 29(2), 157-162.
• [84] Steinhausler F.: Uncertainities associated with the corroboration of official USSR environmental data in areas contaminated by Chernobyl fallout. J. Environ. Radioactiv., 1992, 17(2+3), 211-232.
• [85] Schwartzman D.W., Stieff L., Kasim M., Kombe E., Aung S., Atekwana E., Johnson J.H. Jr. And Schwartzman K.: An ion-exchange model of lead-210 and lead uptake in a foliose lichen; application to quantitative monitoring of airborne lead fallout. Sci. Total Environ., 1991, 100, 319-336.
• [86] Tuominen Y. And Jaakkola T.: Absorption and accumulation of mineral elements and radioactive nuclides, in press, 2004.
• [87] Kłos A., Rajfur M., Wacławek M. and Wacławek W.: Ion equilibrium in lichen surrounding, Bioelectrosodes. Anal. Chem. Acta, submitted.
• [88] Rajfur M., Kłos A., Wacławek W. and Wacławek M., Heavy metals sorption in lichen Hypogemia phympound(s) from the extract of lichen Cetraria islandica. Chem. Ecol., 1998, 14, 134-149.
• [89] Nedić O., Stanković A. and Stanković: The existace and removal of evaporable 137Cs-containing compound(s) from the extract of lichen Cetraria islandica. Chem. Ecol., 1998, 14, 143-149.
• [90] Nedić O., Stanković A. and Stanković A.: Organic cesium carrier(s) in lichen. Sci. Total Environ., 1999, 227, 93-100.
• [91] Dołhańczuk-Śródka A., Wacławek M. and Wacławek W.: Influence of physical and chemical agents on migration of 137Cs in woodlend soil. Ann. Polish Chem. Soc., 2003, 2(2), 746-751.
• [92] Feige G.B., Niemann L. And Jahnke S.: Lichens and mosses: silent chronists of the Chernobyl accident, Bibliotheca Lichenologica, 1990, 38, 63-77.