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Original Articles

Effects of copper rates and soil ph on growth and nutrient uptake by citrus seedlings

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Pages 1687-1699 | Published online: 21 Nov 2008

References

  • Alva , A.K. 1993 . Copper contamination of sandy soils and effects on young Hamlin orange trees . Bull. Environ. Contam. Toxicol. , 51 : 857 – 864 .
  • Alva , A.K. and Chen , E.Q. 1995a . “ Hydrogen ion inhibition of copper uptake by citrus seedlings. ” . In Plant Soil Interactions at Low pH. , Edited by: Date , R.A. 631 – 634 . London, , England : Academic Press .
  • Alva , A.K. and Chen , E.Q. 1995b . Effects of external copper concentrations on uptake of trace elements by citrus seedlings . Soil Sci. , 159 : 59 – 64 .
  • Alva , A.K. and Graham , J.H. 1991 . The role of copper in citriculture . Adv. Agron. , 1 : 145 – 170 .
  • Alva , A.K. and Tucker , D.P.H. 1997 . Impact of soil pH and cation availability on citrus production in law buffered sandy soils . Trends Soil Sci. , 2 : 37 – 57 .
  • Alva , A.K. , Graham , J.H. and Anderson , C.A. 1995 . Soil and copper effects on young ‘Hamlin’ orange trees . Soil Sci. Soc. Am. J. , 59 : 481 – 487 .
  • Alva , A.K. , Graham , J.H. and Tucker , D.P.H. 1993 . Role of calcium in amelioration of copper phytotoxicity for citrus . Soil Sci. , 155 : 211 – 218 .
  • Alva , A.K. , Huang , B. and Paramasivam , S. in press . Distribution of copper forms and phytotoxicity to citrus seedlings in soils with different pH . Soil Sci. Soc. Am. J. ,
  • Bell , P.F. , Adamu , C.A. , Mulchi , C.L. , McIntosh , M. and Chaney , R.L. 1988 . Residual effects of land applied to municipal sludge on tobacco. I. Effect on heavy mental concentrations in soils and plants . Tobacco Sci. , 33 : 46 – 51 .
  • Fiskell , J.G.A. and Leonard , C.D. 1967 . Soil and root copper. Evaluation of copper fertilization by analysis of soil and citrus roots . J. Agric. Food Chem. , 15 : 350 – 353 .
  • Graham , J.H. , Timmer , L.W. and Fardelmann , D. 1986 . Toxicity of fungicidal copper in soil to citrus seedlings and vesicular‐arbuscular mycorrhizal fungi . Phytopathology , 76 : 66 – 70 .
  • Hiatt , A.J. and Leggett , J.E. 1974 . “ Ionic interactions and antagonisms in plants. ” . In The Plant and It's Environment , Edited by: Carson , E.W. 101 – 134 . Charlottesville, Va : University Press of Virginia .
  • Himelrick , D.G. 1991 . Growth and nutritional responses of nine grape cultivars to low soil pH . HortScience , 26 : 269 – 271 .
  • Jahiruddin , M. , Chambers , B.J. , Livesey , N.T. and Cresser , M.S. 1986 . Effect of liming on extractable Zn, Cu, Fe, and Mn in selected Scottish soils . J. Soil Sci. , 37 : 603 – 615 .
  • Kalyanaraman , S.B. and Sivagurunathan , P. 1993 . Effect of cadmium, copper, and zinc on the growth of blackgram . J. Plant Nutr. , 16 : 2029 – 2042 .
  • Khattak , R.A. and Jarrell , W.M. 1988 . Salt‐induced manganese solubilization in California soils . Soil Sci. Soc. Am. J. , 52 : 1606 – 1611 .
  • King , L.D. and Hajjar , L.M. 1990 . The residual effect of sewage sludge on heavy mental content of tobacco and peanut . J. Environ. Qual. , 19 : 738 – 748 .
  • Koo , R.C.J. , Anderson , C.A. , Stewart , I. , Tucker , D.P.H. , Calvert , D.V. and Wutscher , H.K. 1984 . Recommended fertilizers and nutritional sprays for citrus , Institute of Food and Agriculture Science Bull. 536D Gainesville, FL : University of Florida .
  • Lidon , F.C. and Henriques , F.S. 1993 . Effects of copper toxicity on growth and the uptake and translocation of metals in rice plants . J. Plant Nutr. , 16 : 1449 – 1464 .
  • Lindsay , W.L. 1991 . “ Inorganic equilibria affecting micronutrients in soils. ” . In Micronutrients in Agriculture, , 2nd ed. , Edited by: Mortvedt , J.J. , Cox , F.R. , Shuman , L.M. and Welch , R.M. 89 – 112 . Madison, WI : Soil Science Society of America .
  • Lutz , J.A. Jr. , Hawkins , G.W. and Genter , C.F. 1972 . Differential Response of corn inbreds and single crosses to certain properties of an acid soil . Agron. J. , 63 : 803 – 805 .
  • Mengel , K. 1974 . “ Plant ionic status. ” . In The Plant and It's Environment , Edited by: Carson , E.W. 63 – 82 . Charlottesville, Va : University Press of Virginia .
  • Moore , D.P. 1974 . “ Physiological effects of pH on roots. ” . In The Plant and Its Environment , Edited by: Carson , E.W. 135 – 151 . Charlottesville, Va : University Press of Virginia .
  • Mozaffari , A.K. , Alva , A.K. and Chen , E.Q. 1996 . Relation of copper content and growth of two citrus rootstocks . Soil Sci. , 161 : 786 – 792 .
  • Reuther , W. and Smith , P.F. 1952 . Iron chlorosis in Florida citrus groves in relation to certain soil constituents . Proc. Fla. State Hort. Soc. , 65 : 62 – 69 .
  • Reuther , W. and Smith , P.F. 1953 . Effects of high copper content of sandy soil on growth of citrus seedlings . Soil Sci. , 75 : 219 – 224 .
  • Rhoads , F.M. , Olson , S.M. and Manning , A. 1989 . Copper toxicity in tomato plants . J. Environ. Qual. , 18 : 195 – 197 .
  • Sims , J.T. 1986 . Soil pH effects on the distribution and plant availability of manganese, copper, and zinc . Soil Sci. Soc. Am. J. , 50 : 367 – 373 .
  • Smith , P.F. 1956 . Effect of high levels of copper, zinc, and manganese on tree growth and fruiting of Valencia orange in sand culture . Proc. Am. Soc. Hort. Sci. , 67 : 202 – 209 .
  • Smith , P.F. and Specht , A.W. 1953 . Mineral composition of Valencia orange seedlings grown in solution with varying amount of copper, zinc, manganese, and iron . Florida State Hort. Soc. , 66 : 85 – 89 .
  • Spencer , W.F. 1966 . Effect of copper on yield and uptake of phosphorus and iron by citrus seedlings grown at various phosphorus levels . Soil Sci. , 102 : 296 – 299 .
  • Zhang , M. , Alva , A.K. , Li , Y.C. and Calvert , D.V. 1997 . Chemical association of Cu, Zn, Mn, and Pb in selected sandy citrus soils . Soil Sci. , 162 : 181 – 188 .
  • Zhu , B. and Alva , A.K. 1993a . Effect of pH on growth and uptake of copper by Swingle citrumelo seedlings . J. Plant Nutr. , 16 : 1837 – 1845 .
  • Zhu , B. and Alva , A.K. 1993b . Distribution of trace metals in some sandy soils under citrus production . Soil Sci. Soc. Am. J. , 57 : 350 – 355 .
  • Corresponding author (e‐mail address: [email protected]).

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