Stomatal Responses of Woody Seedlings to Flooding in Relation to Nutrient Status in Leaves

Ten-week-old woody seedlings of Gmelina arborea Roxb., Tectonagrandis L. (De Wild. & Th. Dur.) Merrill, and Nauclea diderrichiif., were subjected to 10 weeks flooding and a 5-week-long post-floodingperiod. Flooding induced the development of hypertrophied lenticels,adventitious roots, and root aerenchyma in Gmelina and Tectona,while it did not in Nauclea. All three species responded toflooding by first closing their stomata and reopening at differenttimes during the flooding period. The time and extent of reopeningwere earliest and greatest in Gmelina, followed by Tectona,and latest and smallest in Nauclea. Differences in stomatalconductance at the end of the flooding period paralleled theconcentrations of ethanol in roots and inorganic nutrients inleaves. After flooding was discontinued, stomatal conductanceincreased in Gmelina, but did not in the other species. Leafwater potentials and transpiration rates of flooded Gmelinaand Tectona plants were higher at week 8 than at week 2 whilethe reverse was the case in Nauclea. It is argued that whilepersistently small stomatal apertures during the post-floodingperiod in Nauclea may be a strategy to slow down the movementof accumulated toxic substances from the soil, the higher leafwater potential and transpiration in Gmelina and Tectona atweek 8 than at week 2 may represent recovery of shoot waterrelations resulting from adventitious roots development. Key words: Flooding, stomatal conductance, transpiration, adventitious roots, ethanol     

A Simple Instrument for Measuring Leaf Extension in Grasses, and its Application in the Study of the Effects of Water Stress on Maize and Sorghum

The design of a simple instrument to monitor leaf expansionin grasses is described. The instrument was used to comparethe effects of water stress on leaf extension of two cultivarsof maize and sorghum. The effect of withholding water for 3days was an appreciable reduction in the rate of leaf expansionin both plants, particularly during the light period. In well-wateredplants of both species, leaf extension continued at a steadyrate even when leaf turgor fell to around 0.1 MPa. In water-stressedmaize plants, leaf turgor during the light period fell to zeroand leaf growth ceased. When turgor was restored, followingstomatal closure, leaf extension resumed at a slow rate. Inunwatered sorghum plants, leaf turgor remained at a value greaterthan 0.1 MPa but the rate of leaf extension was significantlyreduced. The reduction in leaf turgor in the unwanted plantsresulted partly from an increase in solute potential. Zea mays L, maize, Sorghum bicolor L, leaf expansion, leaf turgor, water stress