[1] Bienfait HF. 1982. Mechanisms in Fe-deficiency reactions of higher plant. J Plant Nutr, 11:605~629 [2] Bienfait HF, van der Briel W, Mesland-Mul NT. 1985. Free space iron pools in roots: Generation and mobilization. Plant Physiol, 78:596~ 600 [3] Brown JC, Jolley VD, Lytle CM. 1991. Comparative evaluation of iron solubilizing substances (phytosiderophores) released by oats and corn: Iron-efficient and iron-inefficient plants. Plant Soil, 30:157~163 [4] Bryan G, Hopkins. 1992. Plant utilization of iron solubilized byoat phytosiderophore. J Plant Nutr, 15(10): 1599 ~ 1612 [5] Chaney RL, Brown JC, Tiffin LO. 1972. Obilatory reduction of ferric chelates in iron uptake by soybeans. Plant Physiol, 50:286 ~294 [6] Hartmann A. 1988. Ecophysiological aspects of growth and nitrogen fixation in Azospirillum sp. Plant Soil, 110:225~238 [7] Hopkins BG, Jolley VD, Brown JC. 1992. Plant utilization of iron solubilized by oat phytosiderophore. J Plant Nutr, 15: 1599~1612. [8] Landsberg EC. 1986. Function of rhizodermal transfer cells in the Fe stress response mechanism of Capsicum annuum L. Plant Physiol, 82:511 ~ 517 [9] Marschner H, Romheld V. 1994. Strategies of plants for acquisition of iron. Plant Soil, 165: 261 ~ 274 [10] Mori S, Nishizawa N. 1987. Dynamic state of mugineic acid and analogous phytosiderophores in Fe-deficiency barley. J Plant Nutr,10:101 ~ 103 [11] Romheld V, Marschner H. 1986b. Evidence for a specific uptake system for iron phytosiderophores in root of grasses. Plant Physiol,80:175~ 180 [12] Romheld V, Marschner H. 1990. Genotypical differences among graminaceous species in releases of phytosiderophores and uptake of iron phytosiderophores. Plant Soil, 123:147 ~ 153 [13] Schonwitz R, Ziegler H. 1989. Interaction of maize roots and rhizosphere microorganisms. Z Pflanzenernaehr Bodenkd, 152: 217~222 [14] Sugiura Y, Nomoto K. 1984. Phytosideropbores:Structure and properties of mugineic acids and their metal complexes. Str Bond, 58:107~135 [15] Treeby M, Marschner H, Romheld V. 1989. Mobilization of iron and other micronutrient cations from a calcareous soil by plant-bore,microbial, and synthetic metal chelators. Plant Soil, 114: 217 ~ 22 [16] Takagi SC, Kamei S, Ming-Toyu. 1988. Efficiency of iron extraction from soil by mngineic acid family phytosiderophores. J Plant Nutr, 11:641~651. [17] Uren NC. 1993. Mucilage secretion and its interaction with soil, and contact reduction. Plant Soil, 155: 79 ~ 82. [18] Wiren NV. 1994. Iron efficiency ingraminaceous plant species and the role of the microbial degration of phytosiderophores in iron acquisition. Soil Biol Biochem, 25: 371 ~ 376 [19] Zhang FS, Treeby M, Romheld V, et al. 1990. Mobilization of iron by phytosiderophores as affected by other micronutrient. Plant Soil, 130:173 ~ 178 |