Effect of Cd on the growth, dry matter accumulation and grain yield of different rice cultivars

Abstract

AbstractPot soil experiments showed that there were great variations among six rice cultivars in their tolerance to soil Cd stress, with respect to tillering, plant height, leaf area, dry matter accumulation and grain yield. Some cultivars were highly tolerant of Cd and showed little toxicity under high levels of soil Cd stress (100 mg kg−1), while others were much more sensitive. Roots were not necessarily more sensitive than above‐ground parts, but the diversities among rice cultivars with regard to the relative changes in dry matter accumulation under soil Cd stress were greater in roots than those observed in straw and grain. The toxicity effects of Cd on rice growth and development lessened as plants grew and matured, indicating that rice plants show adaptation and growth compensation in response to soil Cd stress during prolonged exposure. The relative change in the number of grains per panicle showed a strong positive correlation with relative change in grain yield and, of the four grain yield components measured (panicles per pot; grains per panicle; filled grain percentage; weight per grain), it appeared to be the one most influenced by Cd stress. Thus the reduction of grains per panicle is the main cause of grain yield loss under soil Cd stress. Copyright © 2007 Society of Chemical Industry