The importance of soil microbial activity for the supply of iron to sorghum and rape

Abstract

It is generally accepted that soil microorganisms play an important role in producing siderophores which enhance the availability of soil Fe to higher plants. There is not much direct experimental evidence to support this supposition, however, because it is difficult to grow plants under sterile conditions over long periods. The object of this investigation was to test whether a sterile soil medium impairs Fe translocation from the soil to plant roots. The plant species selected are of agronomical importance, namely rape ( Brassica napus L .) and sorghum ( Sorghum bicolor L.). The latter a graminaceous species which is able to excrete phytosiderophores from the roots into the soil which allows Fe to be mobilized and transported to plant roots. Sorghum and rape were grown for 18 and 21 days, respectively, in a non-sterile soil (control) and in the same soil which was sterilized before plant cultivation. In a further treatment, the sterile grown rape plants were supplied with Fe EDDHA 1 week before harvest in order to test whether a poor growth of plants grown in the sterile soil was caused by an insufficient Fe supply. Plants cultivated on the sterile soil were significantly retarded in root and shoot growth. This was especially true for rape which produced very small leaves. Plants responded immediately to the Fe addition which induced a vigorous growth. This clearly shows that the poor growth in the sterile soil was caused at least in part by an insufficient Fe supply. In neither plant species was yellowing of young leaves observed as a symptom typical of insufficient Fe supply. From this follows that retardation of plant growth is a more sensitive indicator of an insufficient Fe supply than is yellowing of young leaves at least for rape and sorghum. This finding is of agronomical importance since a reduced growth because of insufficient Fe supply is much more difficult to identify as Fe deficieny than Fe chlorosis (yellow leaves). Iron concentrations in roots and leaves of the sterile grown plants were significantly lower than the corresponding concentrations in the non-sterile grown plants. From these findings it can be concluded that soil microbial activity is essential for Fe acquisition by soil-grown rape. Similarily, sorghum which is able to release siderophores from the roots, requires soil microbial activity to ensure satisfactory Fe supply.