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Journal of Plant Nutrition Volume 30, 2007 - Issue 10
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Original Articles

Role of Phosphatases, Iron Reducing, and Solubilizing Activity on the Nutrient Acquisition in Mixed Cropped Peanut and Barley

Aydin Gunes Ankara University, Faculty of Agriculture, Department of Soil Science and Plant Nutrition, Ankara, Turkey
,
Ali Inal Ankara University, Faculty of Agriculture, Department of Soil Science and Plant Nutrition, Ankara, Turkey
,
Nuray Cicek Ankara University, Faculty of Agriculture, Department of Soil Science and Plant Nutrition, Ankara, Turkey
&
Figen Eraslan Ankara University, Faculty of Agriculture, Department of Soil Science and Plant Nutrition, Ankara, Turkey
Pages 1555-1568 | Received 01 Sep 2006, Accepted 04 Dec 2006, Published online: 29 Oct 2007

REFERENCES

  • Abadia , J. , Millan , A. F. L. , Rombola , A. and Abadia , A. 2002 . Organic acids and Fe deficiency: A review . Plant and Soil , 241 : 75 – 86 .
  • Bienfait , H. F. 1988 . Mechanisms in Fe-efficiency reactions of higher plants . Journal of Plant Nutrition , 11 : 605 – 629 .
  • Elliot , G. C. and Läuchli , A. 1986 . Evaluation of an acid phosphatase assay for detection of phosphorus deficiency in leaves of maize (Zea mays L.) . Journal of Plant Nutrition , 9 : 1469 – 1477 .
  • Ellsworth , J. W. , Jolley , V. D. , Nuland , D. S. and Blaylock , A. D. 1997 . Screening for resistance to iron deficiency chlorosis in dry bean using iron reduction capacity . Journal of Plant Nutrition , 20 : 1489 – 1502 .
  • Jolley , V. D. , Fairbanks , D. J. , Stevens , W. B. , Terry , R. E. and Orf , J. H. 1992 . Root iron-reduction capacity of genotypic evaluation of iron efficiency in soybean . Journal of Plant Nutrition , 15 : 1679 – 1690 . 1992
  • Landsberg , E. C. 1981 . Organic acid synthesis and release of hydrogen ions in response to Fe deficiency stress in mono and dicotyledonous plant species . Journal of Plant Nutrition , 3 : 579 – 591 .
  • Landsberg , E. C. 1982 . Transfer cell formation in the root epidermis: A prerequisite for Fe efficiency? . Journal of Plant Nutrition , 5 : 415 – 432 .
  • Li , L. , Tang , C. , Rengel , Z. and Zhang , F. S. 2003 . Chickpea facilitates phosphorus uptake by wheat from an organic phosphorus . Plant and Soil , 248 : 297 – 303 .
  • Li , L. , Tang , C. , Rengel , Z. and Zhang , F. S. 2004a . Calcium, magnesium and microelement uptake as affected by phosphorus sources and interspecific root interactions between wheat and chickpea . Plant and Soil , 261 : 29 – 37 .
  • Li , S. M. , Li , L. , Zhang , F. S. and Tang , C. 2004b . Acid phosphatase role in chickpea/maize intercropping . Annals of Botany , 94 : 1 – 7 .
  • Liu , Y. , Mi , G. , Chen , F. , Zhang , J. and Zhang , F. 2004 . Rhizosphere effect and root growth of two maize (Zea mays L.) genotypes with contrasting P efficiency at low P availability . Plant Science , 167 : 217 – 223 .
  • Marschner , H. 1998 . Role of root growth, arbuscular mycorrhiza, and root exudates for the efficiency in nutrient acquisition . Field Crops Research , 56 : 203 – 207 .
  • Martin , R. C. , Voldeng , H. D. and Smith , D. L. 1991 . Nitrogen transfer from nodulating soybean to maize or to non-nodulating soybean in intercrop: The 15 N dilution methods . Plant and Soil , 132 : 53 – 63 .
  • Raghothama , K. G. and Karthikeyan , A. S. 2005 . Phosphate acquisition . Plant and Soil , 274 : 37 – 49 .
  • Rao , I. M. , Borrero , V. , Ricaurte , J. and Garcia , R. 1999 . Adaptive attributes of tropical forage species to acid soils. V. Differences in phosphorus acquisition from less available inorganic and organic sources of phosphate . Journal of Plant Nutrition , 22 : 1175 – 1196 .
  • Rengel , Z. 2002 . Genetic control of root exudation . Plant and Soil , 245 : 59 – 70 .
  • Ruiz , J. M. , Belakbir , A. and Romero , L. 1996 . Foliar level of phosphorus and its bioindicators in cucumis melo grafted plants. A possible effect of rootstock . Journal of Plant Physiology , 149 : 400 – 404 .
  • Shen , J. , Zhang , F. , Chen , Q. , Rengel , Z. , Tang , C. and Song , C. 2002 . Genotypic difference in seed iron content and early responses to iron deficiency in wheat . Journal of Plant Nutrition , 25 : 1631 – 1643 . 2002
  • Tabatabai , M. A. 1994 . “ Soil Enzymes ” . In Methods of Soil Analysis, Part 2, Microbiological and Biochemical Properties , Edited by: Weaver , R. W. , Angle , J. S. and Bottomley , P. S. 775 – 883 . Madison, WI : SSSA .
  • Tadano , T. , Ozawa , K. , Sakai , H. , Osaki , M. and Matsui , H. 1993 . Secretion of acid phosphatase by the roots of crop plants under phosphorus deficient conditions and some properties of the enzyme secreted by lupin roots . Plant and Soil , 155/156 : 95 – 98 .
  • Takagi , S. 1976 . Naturally occurring iron chelating compounds in oat- and rice root washings. I. Activity measurement and preliminary characterization . Soil Science and Plant Nutrition , 22 : 423 – 433 .
  • Veneklaas , E. J. , Stevens , J. , Cawthray , G. R. , Turner , S. , Grigg , A. M. and Lambers , H. 2003 . Chickpea and white lupin rhizosphere carboxylates vary with soil properties and enhance phosphorus uptake . Plant and Soil , 248 : 187 – 197 .
  • Wasaki , J. , Yamamura , T. , Shinano , T. and Osaki , M. 2003 . Secreted acid phosphatase is expressed in cluster lupin in response to phosphorus deficiency . Plant and Soil , 248 : 129 – 136 .
  • Yun , S. J. and Kaeppler , S. M. 2001 . Induction of maize acid phosphatase activities under phosphorus starvation . Plant and Soil , 237 : 109 – 115 .
  • Zhang , F. and Li , L. 2003 . Using competitive and facilitative interactions in intercropping systems enhances crop productivity and nutrient-use efficiency . Plant and Soil , 248 : 305 – 312 .
  • Zheng , Y. , Zhang , F. and Li , L. 2003 . Iron availability as affected by soil moisture in intercropped peanut and maize . Journal of Plant Nutrition , 26 : 2425 – 2437 . 2003
  • Zuo , Y. M. , Li , X. , Cao , Y. , Zhang , F. S. and Christie , P. 2003 . Iron nutrition of peanut enhanced by mixed cropping with maize: possible role of root morphology and rhizosphere microflora . Journal of Plant Nutrition , 26 : 2093 – 2110 .
  • Zuo , Y. M. , Zhang , F. S. , Li , X. L. and Cao , Y. P. 2000 . Studies on the improvement in iron nutrition of peanut by intercropping with maize on a calcareous soil . Plant and Soil , 220 : 13 – 25 .

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