Factors related to iron uptake by dicotyledonous and monocotyledonous plants. I. pH and reductant
Titel:
Factors related to iron uptake by dicotyledonous and monocotyledonous plants. I. pH and reductant
Auteur:
Olsen, R. A. Brown, J. C.
Verschenen in:
Journal of plant nutrition
Paginering:
Jaargang 2 (1980) nr. 6 pagina's 629-645
Jaar:
1980
Inhoud:
Some plants respond to Fe-deficiency stress by inducing Fe-solubilizing reactions at or near the root surface. In their ability to solubilize Fe, dicotyledonous plants are more effective than monocotyledonous plants. In this study we determined how representative plants differ in their response when subjected to Fe-deficiency stress in a calcareous soil and in nutrient solutions. Iron-inefficient genotypes of tomato, soybean, oats, and corn all developed Fe chlorosis when grown in soil, whereas Fe-efficient genotypes of these same species remained green. The same genotypes were grown in complete nutrient solutions and then transferred to nutrient solutions containing N (as NO3-) and no Fe. The T3238 FER tomato (Lycopersican esculentum Mill.) Fe-efficient) was the only genotype that released significant amounts of H from the roots (the pH was lowered to 3.9) and concomitantly released reductants. Under similar conditions, Hawkeye soyhean [Glycine max (L.) Merr.] released reductants but the solution pH was not lowered. Both Fe-inefficient and Fe-efficient genotypes of oats (Avena sativa L.) and corn (Zea mays L.) released insufficient H or reductant from their roots to solubilize Fe; as a result, each of these genotypes developed Fe-deficiency (chlorosis). The marked differences observed among these genotypes illustrate the genetic variability inherent within many plant species. A given species or genotype may accordingly not be adapted to a particular soil. Conversely, a given species or genotype may be found (or developed) that is precisely suited for a particular soil. In this event, the need for soil amendments may be reduced or eliminated.
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