An Analysis of the Response of Young Barley Seedlings to Time of Application of Nitrogen

The reasons for the sensitivity of young barley seedlings totime of application of nitrogen have been examined. It is shownthat the transfer of nitrogenous reserves from endosperm toembryo which begins at about 36 h from planting proceeds ata faster relative rate than that of dry matter as a whole. Inconsequence embryo and endosperm nitrogen contents become temporarilysimilar some 24–36 h earlier than is the case for dryweights. Addition of nitrate on day 2 does not affect ratesof transfer of endosperm reserves but leads to a significantlyhigher nitrogen content in the embryo of treated plants, particularlyin the shoots. This additional nitrogen is present as nitrateup to around day 5 when reduction of accumulated nitrate commencesin the first leaf in significant amounts. For plants up to 14 days old delay in application of nitrateleads to a lowering of total nitrogen level which is proportionalto the delay in treatment. This is so for all parts of the plantexcept the first leaf for which the evidence indicates thatlevels of total and organic nitrogen and of accumulated nitrateare much lower when treatment is made late. It is argued thatnitrate accumulation by the leaf becomes progressively lessas it reaches full expansion, but irrespective of time of nitrateapplication about 95 per cent of the additional nitrogen presentin the leaf is in organic form Significant increases in organic nitrogen are found from day6 for plants supplied with nitrate up to day 4; for plants suppliedon day 6, or day 8nitrateand nitrate reductase activity in leafextracts are found within 6 h of treatment. Peak levels of nitratereductase activity are found for all treatments around days8–10 when the first leaf is fully expanded and when photosyntheticactivity is maximal. However, late supply of nitrate leads toa lower level of enzyme activity. Nitrate reduction in the rootsystem is undetectably low, and it is concluded that a substantialamount of carbon translocated from leaf to roots is in the formof nitrogenous compounds. The effects of time of application are also found when ammoniumnitrogen is substituted for nitrate indicating that the responseis independent of effects on the nitrate reducing system inthe leaf. Some inhibition of growth, particularly of the roots,is found due to ammonium toxicity. Why plants supplied early with nitrate show superior growthand enhanced photosynthetic activity in the first leaves isexplained in terms of treatment alleviating the restrictiveeffects of declining endosperm reserves. This is only possibleif nitrogen is supplied while the first leaf is expanding andable to accumulateand utilise the available nitrogen. Late supplyis associated with failure to use the nitrogen provided leadingto a lower protein level in the leaf; this can be correlatedwith the smaller size of leaf and the lower rates of carbonfixation occurring there.