Department of Supramolecular Chemistry, Adam Mickiewicz Univeristy in Poznan, Poznana, Poland
Bibliografia
AGARDI V.V., BHOSLE N.B., UNTAWALE A.G., 1978. Metal concentration in some seaweeds of Goa, India. Bot. Mar. 21: 247-250.
AKCALI I., KUCUKSEZGIN F., 2011. A biomonitoring study: heavy metals in macroalgae from eastern Aegean coastal areas. Mar. Pollut. Bull. 62: 637-645.
AL-HOMAIDAN A.A., AL-GHANAYEM A., ALKHALIFA A.H., 2011. Green algae as bioindicators of heavy metal pollution in Wadi Hanifah Stream, Riyadh, Saudi Arabia. Int. J. Water Resourc. Arid Environ. 1, 1: 10-15.
BOUBONARI T., MALEA P., KEVREKIDIS T., 2008. The green seaweed Ulva rigida as a bioindicator of metals (Zn, Cu, Pb and Cd) in a low-salinity coastal environment. Bot. Mar. 51: 472-484.
BOYDEN C.R., 1975. Distribution of some trace metals in Poole Harbour, Dorset. Mar. Pollut. Bull. 5: 74-78.
BROWN M.T., NEWMAN J.E., 2003. Phycological responses of Gracilariopsis longissima (S.G. Gmelin) Steentoft L.M. Irvine and Farnham (Rhodophyceae) to sublethal copper concentrations. Aquat. Toxicol. 64: 201-213.
CALICETI M., ARGESE E., SFRISO A., PAVONI B., 2002. Heavy metal contamination in the seaweeds of the Venice lagoon. Chemosphere 47: 443-454.
CHAUDHURI A., MITRA M., HAVRILLA CH., WAGVESPACK Y., SCHWARZ J., 2007. Heavy metal biomonitoring by seaweeds on the Delmarva Peninsula, east coast of the USA. Bot. Mar. 50: 151-158.
DAVIES O.A., ALLISON M.E., ULYI H.S., 2006. Bioaccumulation of heavy metals in water, sediment and periwinkle (Tympanotonus fuscatus var. radula) from the Elechi Creek, Niger Delta. Afr. J. Biotechnol. 5, 10: 968-976.
DUFFUS J.H., 2002. “Heavy metals” – a meaningless term? (IUPAC Technical Report). Pure Appl. Chem. 74, 5: 793-807.
ENDLER Z., GOŹDZIEJEWSKA A., JAWORSKA B., GRZYBOWSKI M., 2006. Wpływ małej elektrowni wodnej na organizmy planktonowe w wodzie rzecznej. Acta Sci. Pol. Form. Circum. 5, 2: 121-134.
FAVERO N., CATTALINI F., BERTAGGIA D., ALBERGONI V., 1996. Metal accumulation in a biological indicator (Ulva rigida) from the Lagooon of Venice (Italy). Arch. Environ. Contam. Toxicol. 31: 9-18.
GARNHAM G.W., CODD G.A., GADD G.M., 1992. Kinetics of uptake and intracellular location of cobalt, manganese and zinc in the estuarine green alga Chlorella salina. Appl. Microbiol. Biotechnol. 37, 2: 270-276.
GLEDHILL M., NIMMO M., HILL S.J., BROWN M.T., 1997. The toxicity of copper (II) species to marine algae, with particular references to macroalgae. J. Phycol. 33: 2-11.
GOŁDYN R., 2000. Biological and physico-chemical changes in water quality of rivers due to its damming in preliminary lowland reservoirs. Biol. Ser. UAM Pozn. 184.
HÄGERHÄLL B., 1973. Marine botanical-hydrographical trace element studies in the Öresund area. Bot. Mar. 16: 53-64.
HALL D.O., RAO K.K., 1999. Photosynthesis. Cambridge University Press, Cambridge, UK.
HAN T., KANG S.H., PARK J.S., LEE H.K., BROWN M.T., 2008. Physiological responses of Ulva pertusa and U. armoricana to copper exposure. Aquat. Toxicol. 86: 176-184.
HARITONIDIS S., MALEA P., 1995. Seasonal and local variation of Cr, Ni and Co concentrations in Ulva rigida Agardh and Enteromorpha linza (Linnaeus) from Thermaikos Gulf, Greece. Environ. Pollut. 89, 3: 319-327.
HARITONIDIS S., MALEA P., 1999. Bioaccumulation of metals by the green alga Ulva rigida from Thermaikos Gulf, Greece. Environ. Pollut. 104, 3: 365-372.
HO Y.B., 1990. Ulva lactuca as bioindicator of metal contamination in intertidal waters in Hong Kong. Hydrobiologia 203: 73-81.
JI L., XIE S., FENG J., LI Y., CHEN L., 2011. Heavy metal uptake capacities by the common freshwater green alga Cladophora fracta. J. Appl. Phycol. DOI 10.1007/s10811-011-9721-0.
KAMALA-KANNAN S., BATVARI B.P., LEE K.J., KANNAN N., KRISHNAMOORTHY R., SHANTHI K., JAYAPRAKASH M., 2008. Assessment of heavy metals (Cd, Cr and Pb) in water, sediment and seaweed (Ulva lactuca) in the Pulicat Lake, South East India. Chemosphere 71: 1233-1240.
KIRCHHOFF A., PFLUGMACHER S., 2000. Comparison of the detoxication capacity of the limnic and marine form of the green algae Enteromorpha compressa. Mar. Environ. Res. 50, 1-5: 72-73.
KNAUER K., BEHRA R., SIGG L., 1997. Effects of free Ca2+ and Zn2+ ions on growth and metal accumulation in freshwater algae. Environ. Toxicol. Chem. 16: 220-229.
KOWALSKI W., 1975. Occurrence of the species of a marine green alga Enteromorpha Link (1982) in the Szczecin Pomerania inland waters. Fragm. Florist. Geobot. Ser. Pol. 21: 527-536.
LIEBETANZ B., 1925. Hydrobiologische Studien an kujawischen Brackwässern. Bull. Int. Acad. Pol. Sci. Lett. Cl. Sci. Math. Nat. Ser. B Sci. Nat.: 1-116.
LOBBAN C.S., HARRISON P.J., 1994. Seaweed ecology and physiology. Cambridge University Press, Cambridge.
MALEA P., HARITONIDIS S., 2000. Use of the green alga Ulva rigida C. Agardh as an indicator species to reassess metal pollution in the Thermaikos Gulf, Greece, after 13 years. J. Appl. Phycol. 12: 169-176.
MARCZEK E., 1954. A new locality of Enteromorpha intestinalis (L.) Link Kützig [(L.) Greville] and Enteromorpha tubulosa J.G. Agardh]. Fragm. Florist. Geobot. Ser. Pol. 2: 105-111.
MESSYASZ B., 2009. Enteromorpha (Chlorophyta) populations in the Nielba River and Lake Laskownickie. Oceanol. Hydrobiol. Stud. 38, 1: 1-9.
MESSYASZ B., RYBAK A., 2008. Occurrence of Enteromorpha compressa [syn. Ulva compressa (L.)] (Chlorophyta) in the Wielkopolska Region. Fragm. Florist. Geobot. Ser. Pol. 15, 1: 17-19.
MESSYASZ B., RYBAK A., 2009. The distribution of green algae species from the Enteromorpha genera [syn. Ulva; Chlorophyta] in Polish inland waters. Oceanol. Hydrobiol. Stud. 38, 1: 121-138.
MESSYASZ B., RYBAK A., 2010. Abiotic factors affecting the development of Ulva sp. (Ulvophyceae; Chlorophyta) in freshwater ecosystems. Aquat. Ecol. DOI 10.1007/s10452- 010-9333-9.
PAWLIK-SKOWROŃSKA B., 2002. Mystery of algal resistance to heavy metals. Kosmos 51, 2 (255): 175-184.
PETERSON H.G., HEALEY F.P., WAGEMANN R., 1984. Metal toxicity to algae: a highly pH dependent phenomenon. Can. J. Fish. Aquat. Sci. 41: 974-979.
PHILLIPS D.J.H., 1990. Use of macroalgae and invertebrates as monitors of metal levels in estuaries and coastal waters. In: Heavy metals in marine environment. Eds. R.W. Furness, P.S. Rainbow. CRC Press, Boca Raton, FL: 81-99.
PLIŃSKI M., 1971. The species of Enteromorpha (Link) Agardh genus from the area of salt ponds near Łęczyca. Zesz. Nauk. Uniw. Łódz. Ser. II 41: 163-196.
SALGADO L.T., ANDRADE L.R., FILHO G.M., 2005. Localization of specific monosaccharides in cells of the brown alga Padina gymnospora and the relation to heavy metal accumulation. Protoplasma 225: 132-128.
SEELIGER U., WALLNER M., 1988. Multispecies metal monitoring in tropical Brazilian estuaries. In: Metals in coastal environments of Latin America. Eds. U. Seeliger, L.D. De Lacerda, S.R. Patchineelam. Springer, Berlin: 258-269. SITKOWSKA M., 1999. Two new localities from Enteromorpha flexuosa subsp. pilifera (Chlorophyta) in Poland. Fragm. Florist. Geobot. Ser. Pol. 6: 301-304. STARMACH K., 1972. Zielenice nitkowate. In: Flora słodkowodna Polski. Vol. 10. Ed. K. Starmach. PWN, Warszawa: 155-163.
TALBOT V., CHEGWIDDEN A., 1982. Cadmium and other heavy metal concentrations in selected biota from Cockurn Sound, Western Australia. Aust. J. Mar. Freshw. Res. 33: 779-788.
VILLARES R., PUENTE X., CARBALLEIRA A., 2001. Ulva and Enteromorpha as indicators of heavy metal pollution. Hydrobiologia 462: 221-232.
ZAYED A., LYTLE C.M., QIAN J.H., TERRY N., 1998. Chromium accumulation, translocation and chemical speciation in vegetable crops. Planta 206, 2: 293-299.