Abstract
Six day old rice seedlings (Oryza sativa L. cv. Bahía) were grown for 5 or 10 days in a nutrient solution with either Cd (0.01, 0.1 mmol/l) or Ni (0.1, 0.5 mmol/l). Both Cd and Ni reduced the length of shoots and roots depending on the concentration and type of ion tested. On the other hand, the dry weight to fresh weight ratio was increased by heavy metal treatments, especially in the aerial part of 0.5 mmol/l Ni treated plants. The application of 0.1 mmol/l Cd and 0.5 mmol/l Ni to the seedlings produced an inhibition of the transport of carbohydrate reserves from the seeds from which plants were developing, to the rest of the plant. Net photosynthesis was also inhibited in treated plants. However, the total carbohydrate content in the shoots of these plants was higher than in controls. Thus, the starch, soluble sugars and sucrose content in the shoots of 0.5 mmol/l Ni treated plants was respectively up to 2.6, 2.8 and 4 times greater compared to controls. The distribution of assimilates between organs was also affected by the treatment: the carbohydrate content increased in the stem and second leaf but it was not affected or decreased in the root and third leaf. Although less evident, the effect of Cd on carbohydrate distribution and content was similar to that of Ni. The possible mechanisms involved in the abnormal carbohydrate accumulation and distribution are discussed.
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Abbreviations
- 0 DT:
-
plants at day zero of treatment
- 5 DT:
-
five days treated plants
- 10 DT:
-
ten days treated plants
- DW:
-
dry weight
- FW:
-
fresh weight
References
Baker AJM and Walker PL (1989) Physiological responses of plants to heavy metals and the quantification of tolerance and toxicity. Chemical Speciation and Bioavailability 1: 7–17
Baszynsky T (1986) Interference of Cd2+ in functioning of the photosynthetic apparatus of higher plants. Acta Societatis Botanicorum Poloniae 55: 291–304
Becerril JM, González-Murua C, Muñoz-Rueda A and De Felip MR (1988) The effects of cadmium and lead on photosynthetic electron transport in clover and lucerne. Plant Physiol Biochem 26: 357–363
Cardini CE, Leloir LF and Chiriboga J (1955) The biosynthesis of sucrose. J Biol Chem 214: 149–155
Clijsters H and Van Assche F (1985) Inhibition of photosynthesis by heavy metals. Photosynth Res 7: 31–40
Fairbairn NJ (1953) A modified anthrone reagent. Chemistry and Industry 4: 86
Greger M and Bertell G (1992) Effects of Ca2+ and Cd2+ on the carbohydrate metabolism in sugar beet (Beta vulgaris). J Exp Bot 43: 167–173
Greger M and Lindberg S (1986) Effects of Cd2+ and EDTA on young sugar beets (Beta vulgaris) I. Cd2+ uptake and sugar accumulation. Physiol Plant 66: 69–74
Greger M, Brammer E, Lindberg S, Larsson G and Idestam-Almquist J (1991) Uptake and Physiological effects of cadmium in sugar beet (Beta vulgaris) related to mineral provision J Exp Bot 42: 729–737
Honma Y and Hirata H (1984) Kinetics of cadmium and zinc absorption by rice seedling roots. Soil Sci Plant Nutr 30: 527–532
Lamoreaux RJ and Chaney WR (1978) The effect of cadmium on net photosynthesis, transpiration and dark respiration of excised silver maple leaves. Physiol Plant 43: 231–236
Poschenrieder CH, Gunsé B and Barceló J (1989) Influence of cadmium on water relations, stomatal resistance and abscisic acid content in expanding bean leaves. Plant Physiol 90: 1365–1371
Rauser WE (1978) Early effects of phytotoxic burdens of cadmium, cobalt, nickel and zinc in white beans. Can J Bot 56: 1744–1749
Roe JH (1934) A colorimetric method for the determination of fructose in blood and urine. J Biol Chem 107: 15–22
Ros R, Cooke DT, Burden RS and James CS (1990) Effect of the herbicide MCPA, and the heavy metals Cadmium and Nickel on the lipid composition, Mg2+-ATPase activity and fluidity of plasma membranes from rice, Oryza sativa (cv. Bahía) shoots. J Exp Bot 41: 457–462
Ros R, Morales A, Segura J and Picazo I (1992) In vivo and in vitro effects of nickel and cadmium on the plasmalemma ATPase from rice (Oryza sativa L.) shoots and roots. Plant Sci 83: 1–6
Samarakoon AB and Rauser WE (1979) Carbohydrate levels and photoassimilate export from leaves of Phaseolus vulgaris exposed to excess cobalt, nickel and zinc. Plant Physiol 63: 1165–1169
Sheoran IS, Singal HR and Singh R (1990). Effect of cadmium and nickel on photosynthesis and the enzymes of the photosynthetic carbon reduction cycle in pigeonpea (Cajanus cajan L.) Photosynth Res 23: 345–351
Weigel HJ (1985) Inhibition of photosynthetic reactions of isolated intact chloroplasts by cadmium. J Plant Physiol 119: 179–189
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Moya, J.L., Ros, R. & Picazo, I. Influence of cadmium and nickel on growth, net photosynthesis and carbohydrate distribution in rice plants. Photosynth Res 36, 75–80 (1993). https://doi.org/10.1007/BF00016271
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DOI: https://doi.org/10.1007/BF00016271