Journal of Environmental Science International (한국환경과학회지)

The Korean Environmental Sciences Society (한국환경과학회)
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Characteristics of Growth Response and Nitrogen Fixation of Meiilotus suaveolens Seedlings treated with Al

알루미늄 독성에 의한 전동싸리 유식물의 질소고정과 생장반응의 특성

  • Published : 1998.04.01
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Abstract

Effects of alumlnlum(AA), soil pH and calcium(Cal on growth response and heavy metal accumulation and regulation of nitrogen fixation In Melilotus suaveolens seedlings, a biennial legume plant dominating in the disturbed area, were quantitatively analyzed during the growing periods. Accumulation of metals In each organ of M. suaveojens was Increased UC the lowering of pH. Al contents In leaf and root treat- ed with 30ppm Al at pH 4.2 on the 28th day after treatment were 8 and 11 folds higher than those of control, while the contents with 100ppm AA were 21 and 24 folds as compared to control. The significent inhibition in Al contents was induced by 100ppm AA and Ca at pH 6.5. Increased metals inhibited higher at pH 4.2 and the growth inhibition due to Al was reversed by the addition of Ca, suggesting that growth correlates to the pH value. Chlorophyll contents in leaves increased during growth stave were inhibited by Al treatments. The biomass was decreased UD the lowering of pH and the increase of concentrations. 100ppm Ca treatment resulted in 5.1-5.9% increase of the biomass as compared to that of 100ppm Al. Specific nitrogen fuation activities In nodules In the 100ppm Al at pH 4.2 and pH 6.5 were reduced to 35. 2% and 52.2% of control, on the 28th day after treatment, while the combination of Al and Ca induced reduced by 10% as compared to control with the treatment of 100ppm AA at pH 4.2 due to the inhibition bination of 100ppm Al and Ca and lowering of pH.

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References

  1. 환경부 3차년도 보고서 생태계 복원기술 개발: 생태계 영향평가 개발(III) 고강석;배정오
  2. 慶北大學校 博士學位論文 環境스트레스에 대한 전동싸리의 生長適應과 窒素固定 活性의 調節 朴泰圭
  3. Soil Sci. Soc. Am. J. v.50 Effects of phosphorus/ aluminum molarratio and calcium concentration on plant response to aluminum toxicity Alva, A.K.;D.G. Edwards;C.J. Asher;F.P.C. Blamey
  4. Plant Physiol. v.24 Copper enzymes in isolated chloroplasts polyphenoloxidease in Beta vulgaris Arnon, D. J.
  5. Plant and Soil v.111 Growth and cation uptake in spruce(Picia abies Karst.) grown in sand sulture with various aluminium contents Asp, H.;B. Bengtsson;P. Jensen
  6. Plant and Soil v.116 Aluminium effects on growth, grain yield and nutrient use efficiency ratios in sorghum genotypes Baligar, V.C.;H.L. Dos-Santos;G.V.E. Pitta;E.C. Filho;C.A. Vasconcellos;A.F.C. Bahia-Filho
  7. Environ. Lett. v.6 Effect of cadmium nitrate on spectral characteristics and light reactions of chloroplasts Bazzaz, M.B.;Govindjee
  8. Plant and Soil v.164 Peanut growth as affected by liming, Ca-Mn interactions and Cu plus Zn applications to oxidic samoan soils Bekker, A.W.;N.V. Hue;L.G.G. Yapa;R.G. Chase
  9. Soil Sci. v.130 Yield and cadmium content of rice grain in relation to addition ratio of cadmium, copper, nickel and zinc with sewage and liming Bingham, F.T.;Page, A.L.;Strong, J.E.
  10. Plant and Soil. v.64 Effects of aluminium on nodulation of two Stylosanthes species grown in nutrient solution Carvalho, M.M.D.;D.G. Edwards;C.J. Asher
  11. Aust. J. Agric. Res. v.42 Effects of pH and aluminium on the growth of temperate pasture species. I. Temperate grasses and legumes supplied with inorganic nitrogen Edmeades, D.C.;F.P.C. Blamey;C.J. Asher;D.G. Edwards
  12. Annu. Rev. Plant. Physiol. v.29 The physiology of metals in plants Foy, C.D.;R.L. Channey;M.C. White
  13. Soil Sci. Soc. Am. J. v.47 Effect of soil pH on adsorption of lead, copper, zinc and nickel Harter, R.D.
  14. Environ. Sci. Technol. v.6 Factors affecting plant uptake and phytotoxicity of cadmium added to soil John, M.K.;Van Laerhoven, C.;H.H. Chuah
  15. Agron. J. v.67 Influence of aluminum ions on developmental morphology of sugarbeet roots Kaser, M.;B.T. Neubauer;F.E. Hutchinson
  16. Agron. J. v.69 Differential response of wheat cultivars to Al Lafever, H.N.;L.G. Campbell;C.D. Foy
  17. Soil Science v.111 Uptake of cadmium, lead and zinc by radish from soil and air Lagerwerff, J.V.
  18. Can. J. Soil Sci. v.45 Effect of concentration of the aluminium ion on root development and establishment of legume seedlings Macleod, L.D.;L.P. Jacson
  19. Physiol. Plant v.91 Effect of excess $Cu^{2+}$ on the photosynthetic apparatus of runner bean leaves treated at two different growth stages Maksymiec, W.;R. Russa;T. Urbanik-Sypniewska;T. Baszynski
  20. Soil Sci. Soc. Am. J. v.52 Aluminium speciation and phytotoxicity in dilute hydroxy aluminium solutions Parker, D.R.;T.B. Kinraide;L.W. Zelazny
  21. Plant Physiol. v.64 Growth and specific nodule activity of soybean during application and recovery of a leaf moisture stress Patterson, R.F.;C.D. Raper Jr.;H.D. Gross
  22. J. Exp. Bot. v.28 Effect of root temperature on the infection processes and nodulation in Lotus and Stylesanthes Rao, V.R.
  23. Agron. J. v.63 A method for determining aluminium response of barley in nutrient solution in comparison to response in Al-toxic soil Reid, D.A.;A.L. Fleming;C.D. Foy
  24. J. Plant Nutr. v.15 Calcium-induced modification of aluminium toxicity in sorghum genotypes Tan, K.;W.G. Keltjens;G.R. Findenegg
  25. J. Plant Nutri. v.15 Effect of aluminium on relative yield and plant chemical concentration of cereals growth in solution culture at low ionic strength Wheeler, D.M.;D.C. Edmeades;R.A. Christie
  26. New Phytol. v.80 The measurement of tolerance to edaphic factors by means of root growth Wilkins, D.A.
  27. Lolium perenne, New Phytol. v.91 A comparison of the toxicity of heavy metals using root elongation of rye grass Wong, M.H.;A.D. Bradshaw
  28. Plant and Soil. v.78 Aluminium toxicity and nodulation of Trifolium repens Wood, M.;J.E. Cooper;A.J. Holding