Soil culture experiments at two phosphorus levels were conducted to study the physiological responses(including chlorophyll content,MDA and soluble protein content,and APase activity in roots and leaves) of six Liriod...Soil culture experiments at two phosphorus levels were conducted to study the physiological responses(including chlorophyll content,MDA and soluble protein content,and APase activity in roots and leaves) of six Liriodendron chinese provenances with different phosphorus efficiency(PE). The result showed that low phosphorus stress would decelerate seedling growth and leaf development,lessen chlorophyll content and MDA content in leaves,and promote APase activity in root.There existed marked differences in physiological response among provenances with various PE under low phosphorus stress.It was found that the provenances with high PE possessed more and larger leaves,higher chlorophyll and soluble protein content than those provenances with low PE.Change of MDA content in leaves of provenances with high PE was small at two phosphorus levels,which meant the provenances with high PE were more resistive to environment stress.展开更多
文摘Soil culture experiments at two phosphorus levels were conducted to study the physiological responses(including chlorophyll content,MDA and soluble protein content,and APase activity in roots and leaves) of six Liriodendron chinese provenances with different phosphorus efficiency(PE). The result showed that low phosphorus stress would decelerate seedling growth and leaf development,lessen chlorophyll content and MDA content in leaves,and promote APase activity in root.There existed marked differences in physiological response among provenances with various PE under low phosphorus stress.It was found that the provenances with high PE possessed more and larger leaves,higher chlorophyll and soluble protein content than those provenances with low PE.Change of MDA content in leaves of provenances with high PE was small at two phosphorus levels,which meant the provenances with high PE were more resistive to environment stress.