THE INFLUENCE OF LOW PLANT WATER POTENTIAL ON THE GROWTH AND NITROGEN METABOLISM OF THE NATIVE CALIFORNIA SHRUB LOTUS SCOPARIUS (NUTT. IN T & G) OTTLEY

Abstract

Reduced plant water potential, induced by polyethylene glycol in hydroponics, inhibited growth and decreased the number of leaves per branch in the southern California drought‐deciduous species Lotus scoparius (Nutt. in T & G) Ottley. Decreasing plant water potential diminished the proportion of large leaves per branch and therefore reduced the leaf area. Nitrate uptake rate decreased with decreasing water potential, although the nitrate ion concentration increased in the roots and the leaves. Ammonium ion concentration increased significantly in the roots at −5 bars and lower osmotic potentials in the root medium. Kjeldahl nitrogen remained the same in all treatments and tissues over the experimental period. It is suggested that the increase in ammonium ion in the roots was due to a decreased rate of ammonium transport caused by low plant water potential. The slight increase in nitrate ion in the roots may correspond to a decrease in nitrate reductase activity. This study indicates that some of the changes in nitrogen metabolism associated with low water potentials in agricultural plants occur also in a plant which experiences frequent droughts in its native habitat.