Department of Ecology and Environmental Protection, Poznan University of Life Sciences, Piatkowska 94, 60-649 Poznan, Poland
Bibliografia
BARCELÓ J., VÁZQUEZ M.D., POSCHENRIEDER CH., 1988. Structural and ultrastructural disorders in cadmium-treated bush bean plants (Phaseolus vulgaris L.). New Phytol. 108: 37-49.
DIAS M.C., MONTEIRO C., MOUTINHO-PEREIRA J., CORREIA C., GONÇALVES B., CONCEIÇÃO S., 2013. Cadmium toxicity affects photosynthesis and plant growth at different levels. Acta Physiol. Plant. [DOI 10.1007/s11738-012-1167-8].
FARMER A., 2004. Wpływ zanieczyszczeń pyłowych. In: Zanieczyszczenia powietrza a życie roślin. Eds. J.N.B. Bell, M. Treshow. WN-T, Warszawa: 209-222.
FAROUK S., MOSA A.A., TAHA A.A., IBRAHIM H.M., EL-GAHMERY A.M., 2011. Protective effect of humic acid and chitosan on radish (Raphanus sativus L. var. sativus) plants subjected to cadmium stress. J. Stress Physiol. Biochem. 7: 99-116.
GARNIER E., SHIPLEY B., ROUMET C., LAURENT G., 2001. A standardized protocol for the determination of specific leaf area and leaf dry matter content. Funct. Ecol. 15: 688-695.
GONZÁLEZ A., CHUMILLAS V., LOBO M.C., 2012. Effect of Zn, Cd and Cr on growth, water status and chlorophyll content of barley plants (H. vulgare L.). Agric. Sci. 1, 3(4): 572-581.
GONZÁLEZ L., GONZÁLEZ-VILAR M., 2001. Determination of relative water content. In: Handbook of plant ecophysiology techniques. Ed. M.J.R. Roger. Kluwer, Dordrecht: 207-212.
HAAG-KERWER A., SCHÄFER H.J., HEISS S., WALTER C., RAUSCH T., 1999. Cadmium exposure in Brassica juncea causes a decline in transpiration rate and leaf expansion without effect on photosynthesis. J. Exp. Bot. 50: 1827-1835.
HUSSAIN I., IQBAL M., QURAT-UL-AIN S., RASHEED R., MAHMOOD S., PERVEEN A., WAHID A., 2011. Cadmium dose and exposure-time dependent alterations in growth and physiology of maize (Zea mays). Int. J. Agric. Biol. 14: 959-964.
KLUMPP A., ANSEL W., KLUMPP G., BREUER J., VERGNE P., JOSÉ SANZ M., RASMUSSEN S., RO- POULSEN H., RIBAS ARTOLA A., PEÑUELAS J., HE S., GARREC J.P., CALATAYUND V., 2009. Airborne trace elements pollution in 11 European cities assessed by exposure of standardised ryegrass cultures. Atmos. Environ. 43: 329-339.
KRZESŁOWSKA M., 2004. Metale śladowe. In: Komórki roślinne w warunkach stresu. T. I. Komórki in vivo. Część 2. Warunki stresu. Eds. A. Woźny, K. Przybył. Wyd. Nauk. UAM, Poznań: 103-165.
PARYS E., ROMANOWSKA E., SIEDLECKA M., POSKUTA J.W., 1998. The effect of lead on photosynthesis and respiration in detached leaves and in mesophyll protoplasts of Pisum sativum. Acta Physiol. Plant. 20, 3: 313-322.
POSCHENRIEDER CH., BARCELÓ J., 2004. Water relations in heavy metal stressed plants. In: Heavy metal stress in plants: from biomolecules to ecosystems. Ed. M.N.V. Prasad. Springer, Berlin: 249-270.
POSCHENRIEDER CH., GUNSÉ B., BARCELÓ J., 1989. Influence of cadmium on water relation, stomatal resistance, and abscisic acid content in expanding bean leaves. Plant Physiol. 90: 1365-1371.
ROLLAND F., BAENA-GONZÁLEZ E., SHEEN J., 2006. Sugar sensing and signalling in plants: conserved and novel mechanisms. Annu. Rev. Plant. Biol. 57: 675-709.
SIWEK M., 2008. Rośliny w skażonym metalami ciężkimi środowisku poprzemysłowym. Część I. Pobieranie, transport i toksyczność metali ciężkich (śladowych). Wiad. Bot. 52, 1/2: 7-22.
SKÓRZYŃSKA-POLIT E., BASZYŃSKI T., 1995. Photochemical activity of primary leaves in cadmium stressed Phaseolus coccineus depends on their growth stages. Acta Soc. Bot. Pol. 64, 3: 273-279.
STARCK Z., 2002. Pobieranie i dystrybucja jonów. In: Fizjologia roślin. Eds. J. Kopcewicz, S. Lewak. Wyd. Nauk. PWN, Warszawa: 259-271.
VASSILEV A., BEROVA M., ZLATEV Z., 1998. Influence of Cd2+ on growth, chlorophyll content, and water relations in young barley plants. Biol. Plant. (Prague) 41, 4: 601-606.
VDI 3957 PART 2: Biological measuring techniques for the determination and evaluation of effects of air pollutants on plants (bioindication). Method of standardised grass exposure. 2003. Beuth, Berlin.
VERNAY P., GAUTHIER-MOUSSARD C., HITMI A., 2007. Interaction of bioaccumulation of heavy metal chromium with water relation, mineral nutrition and photosynthesis in developed leaves of Lolium perenne L. Chemosphere. 68: 1563-1575.
WEISS P., OFFENTHALER I., ÖHLINGER R., WIMMER J., 2004. Higher plants as accumulative bioindicators. In: Bioindicators and biomonitors. Principles, concepts and applications. Eds. B.A. Markert, A.M. Breure, H.G. Zechmeister. Elsevier, Amsterdam: 465-500.