Rhizosphere acidification and Fe3+ reduction in lupins and peas: Iron deficiency in lupins is not due to a poor ability to reduce Fe3+
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[1] D. Barber,et al. The acquisition of phosphorus byLupinus albus L. , 1982, Plant and Soil.
[2] A. Robson,et al. Lupin Species and Peas Vary Widely in their Sensitivity to Fe Deficiency , 1989 .
[3] V. D. Jolley,et al. Soybean response to iron‐deficiency stress as related to iron supply in the growth medium , 1987 .
[4] H. Bienfait,et al. Control of the development of iron-efficiency reactions in potato as a response to iron deficiency is located in the roots. , 1987, Plant physiology.
[5] L. Hossner,et al. The influence of NH4 +‐N vs. NO3 ‐‐n nutrition on root reductant release by fe‐stressed sorghum 1 , 1986 .
[6] J. R. Porter. Production of a putative phytosiderophore by soybeans in response to iron deficiency stress , 1986 .
[7] H. Bienfait,et al. Rhizosphere acidification as a response to iron deficiency in bean plants. , 1986, Plant physiology.
[8] Walter J. Horst,et al. Root-induced changes in the rhizosphere: Importance for the mineral nutrition of plants , 1986 .
[9] V. Römheld,et al. Localization and capacity of proton pumps in roots of intact sunflower plants. , 1984, Plant physiology.
[10] V. Römheld,et al. Plant‐induced pH changes in the rhizosphere of “Fe‐efficient” and “Fe‐inefficient” soybean and corn cultivars , 1984 .
[11] W. Lindsay. Soil and plant relationships associated with iron deficiency with emphasis on nutrient interactions. , 1984 .
[12] N. Uren. Forms, reactions and availability of iron in soils , 1984 .
[13] J. Duivenvoorden,et al. Characterization of ferric reducing activity in roots of Fe-deficient Phaseolus vulgaris , 1983 .
[14] V. Römheld,et al. Mechanism of iron uptake by peanut plants : I. Fe reduction, chelate splitting, and release of phenolics. , 1983, Plant physiology.
[15] A. Robson,et al. The effects of nitrogen nutrition of plants on the development of acidity in Western Australian soils. I: Effects with subterranean clover grown under leaching conditions , 1983 .
[16] V. Römheld,et al. Rapid Method for Measuring Changes in pH and Reducing Processes Along Roots of Intact Plants , 1982 .
[17] E. Landsberg. Transfer cell formation in the root epidermis: A prerequisite for fe‐efficiency? , 1982 .
[18] R. Chaney,et al. Effect of phosphate on regulation of Fe‐stress response in soybean and peanut , 1982 .
[19] J. H. Bennett,et al. Reduction of Fe3+ as it relates to fe chlorosis , 1982 .
[20] J. H. Bennett,et al. Chemical aspects of the Fe stress response mechanism in tomatoes , 1981 .
[21] E. Landsberg. Organic acid synthesis and release of hydrogen ions in response to Fe deficiency stress of mono‐ and dicotyledonous plant species , 1981 .
[22] V. Römheld,et al. Effect of Fe stress on utilization of Fe chelates by efficient and inefficient plant species , 1981 .
[23] V. Römheld,et al. FINE REGULATION OF IRON UPTAKE BY THE Fe-EFFICIENT PLANT HELIANTHUS ANNUUS , 1979 .
[24] J. Brown,et al. Mechanism of iron uptake by plants , 1978 .
[25] J. White,et al. Partial analysis of the bands seen in circular dichroism spectra of green and blue-green algal cells and thylakoids. , 1977, Plant physiology.
[26] J. Brown,et al. Iron-stress response in tomato (Lycopersicon esculentum). 1. Sites of Fe reduction, absorption and transport , 1974 .
[27] W. H. Pierre,et al. Effect of Nitrogen Fixation by Legumes on Soil Acidity1 , 1973 .
[28] R. Chaney,et al. Obligatory reduction of ferric chelates in iron uptake by soybeans. , 1972, Plant physiology.
[29] D. Branton,et al. Iron Transport in Pea Plants. , 1962, Plant physiology.
[30] A. Ulrich,et al. 2. Analytical methods for use in plant analysis. , 1959 .
[31] O. Biddulph,et al. The Absorption and Translocation of Iron. , 1953, Plant physiology.
[32] S. Hendricks,et al. ENZYMATIC ACTIVITIES AS INDICATIONS OF COPPER AND IRON DEFICIENCIES IN PLANTS. , 1952, Plant physiology.