Abstract
The effects of Cu2+ on growth, chlorophyll and other ion contents ofKoeleria splendens originated from Cu-contaminated soil have been investigated in nutrient solution. The most evident Cu2+ effects concern the root growth, especially the root length. Since in plants grown under lower Cu2+ concentrations (4 and 8 μM) root elongation, biomass, chlorophyll, Mg2+, Fe2+, Ca2+ and K+ content were increased compared with the control, the development of an adaptive mechanism ofK. splendens to Cu2+ is suggested. High Cu2+ concentration (160 μM) caused a significant reduction in root length and biomass as well as a decreased rate of chlorophyll biosynthesis. The reduction of growth can be correlated with the toxic effect of Cu2+ on photosynthesis, root respiration and protein synthesis in roots. 160 μM Cu2+-treatment had a negative influence on the concentrations of Ca2+, Fe2+, Mg2+ and K+ and a positive influence on the Cu2+ concentration in the plant tissues. Loss of nutrients similar to the senescence response suggests that excess of Cu2+ leads to the progressive senescence of the plants. Our results demonstrate the existence of an adaptive mechanism ofK. splendens under low Cu2+ concentrations, while high Cu2+ quantities cause disturbances in plant function.
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Adams, W.W., III, Winter, K., Schreiber, U., Schramel, P.: Photosynthesis and chlorophyll fluorescence characteristics in relationship to changes in pigment and element composition of leaves ofPlatanus occidentalis L. during autumnal leaf senescence.—Plant Physiol.93: 1184–1190, 1990.
Agarwal, K., Sharma, A., Talukder, G.: Copper toxicity in plant cellular systems.—Nucleus30: 131–158, 1987.
Allan, D.L., Jarell, W.M.: Proton and copper adsorption to maize and soybean root cell walls.—Plant Physiol.89: 823–832, 1989.
Baker, D.E., Copper.—In: Alloway, B.J. (ed.): Heavy Metals in Soils. Pp. 151–176. Blackie and Son Ltd. 1990.
Baszynski, T., Tukendorf, A., Ruszkowska, M., Skorzynska, G., Maksymiec, W.: Characteristics of the photosynthetic apparatus of copper non-tolerant spinach exposed to excess copper.—J. Plant Physiol.132: 708–713, 1988.
Clijsters, H., Van Assche, F.: Inhibition of photosynthesis by heavy metals.—Photosynth. Res.7: 31–40, 1985.
De Vos, C.H.R., Schat, H., De Wall, M.A.M., Vooijs, R., Ernst, W.H.O.: Increased resistance to copper induced damage of the root cell plasmalemma in copper tolerantSilene cucubalus.— Physiol. Plant.82: 523–528, 1991.
Jensen, P., Adalsteinsson, S.: Effects of copper on active and passive Rb+ influx in roots of winter wheat.—Physiol. Plant.75: 195–200, 1989.
Karataglis, S., Moustakas, M., Symeonidis L.: Effect of heavy metals on isoperoxidases of wheat.— Biol. Plant.33: 3–9, 1991.
Lolkema, P.C., Vooijs, R.: Copper tolerance inSilene cucubalus: subcellular distribution of copper and its effects on chloroplast and plastocyanin synthesis.—Planta167: 30–36, 1986.
Mohanty, N., Vass, I., Demeter, S.: Copper toxicity affects photosystem II electron transport at secondary quinone acceptor, QB.—Plant Physiol.90: 175–179, 1989.
Ouzounidou, G.: Changes of photosynthetic activities in leaves as a result of Cu-treatment: Doseresponse relations inSilene andThlaspi.—Photosynthetica29: 455–462, 1993.
Ouzounidou, G.: Copper-induced changes on growth, metal content and photosynthetic function ofAlyssum montanum L. plants.—Environ. exp. Bot.34: 165–172, 1994a.
Ouzounidou, G.: Root growth and pigment composition in relationship to element uptake inSilene compacta plants treated with copper.—J. Plant Nutr.17: in press, 1994b.
Ouzounidou, G., Eleftheriou, E.P., Karataglis, S.: Ecophysiological and ultrastructural effects of copper inThlaspi ochroleucum (Cruciferae).—Can. J. Bot.70: 947–957, 1992.
Reboredo, F., Henriques, F.: Some observations on the leaf ultrastructure ofHalimione portulacoides (L.) Aellen grown in a medium containing copper.—J. Plant Physiol.137: 717–122, 1991.
Sandmann, G., Boger, P.: Copper-mediated lipid peroxidation processes in photosynthetic membrane. —Plant Physiol.66: 797–800, 1980.
Strange, J., Macnair, M.: Evidence for a role for the cell membrane in copper tolerance ofMimulus guttatus Fischer ex DC.—New Phytol.119: 383–388, 1991.
Wu, L., Lin, S. L.: Copper tolerance and copper uptake ofLotus purshianus (Benth.) Clem & Clem and its symbioticRhizobium loti derived from a copper mine waste population.—New Phytol.116: 531–539, 1990.
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Ouzounidou, G. Cu-ions mediated changes in growth, chlorophyll and other ion contents in a Cu-tolerantKoeleria splendens . Biol Plant 37, 71–78 (1995). https://doi.org/10.1007/BF02913000
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DOI: https://doi.org/10.1007/BF02913000