Plant and Soil

, Volume 165, Issue 2, pp 261–274

Strategies of plants for acquisition of iron

  • H. Marschner
  • V. Römheld
Article

DOI: 10.1007/BF00008069

Cite this article as:
Marschner, H. & Römheld, V. Plant Soil (1994) 165: 261. doi:10.1007/BF00008069

Abstract

Two different types of root response to Fe deficiency (strategies) have been identified in species of the Plant Kingdom. In Strategy I which occurs in all plant species except grasses, a plasma membrane-bound reductase is induced with enhanced net excretion of protons. Often the release of reductants/chelators is also higher. In Strategy II which is confined to grasses, there is an increase in the biosynthesis and secretion of phytosiderophores which form chelates with FeIII. Uptake of FeIII phytosiderophores is mediated by a specific transporter in the plasma membrane of root cells of grasses. From results based mainly on long-term studies under non-axenic conditions this classification into two strategies has been questioned, and the utilization of Fe from microbial siderophores has been considered as an alternative strategy particularly in grasses. Possible reasons for controversial results are discussed in some detail. The numerous effects of microorganisms in non-axenic cultures, and the as yet inadequate characterization of the so-called standard (basic) reductase present major limitations to understanding different mechanisms of Fe acquisition. In comparison with the progress made in identifying the cellular mechanisms of root responses in Strategy I and Strategy II plants, our understanding is poor concerning the processes taking place in the apoplasm of root rhizodermal cells and of the role of low-molecular-weight root exudates and siderophores in Fe acquisition of plants growing in soils of differing Fe availability.

Key words

iron phytosiderophores root apoplasm root exudates siderophores standard reductase 

Copyright information

© Kluwer Academic Publishers 1994

Authors and Affiliations

  • H. Marschner
    • 1
  • V. Römheld
    • 1
  1. 1.Institut für Pflanzenernährung (330)Universität HohenheimStuttgartGermany

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