Hydraulic lift in drought-tolerant and -susceptible maize hybrids
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Hydraulic lift was investigated in a greenhouse study involving two drought-tolerant maize (Zea mays L.) hybrids (TAES176 and P3223) and a drought-susceptible hybrid (P3225) during the flowering stage. Root systems were grown in two soil compartments a drier upper soil and a wetter deep soil. The plants were shaded for 3 h during the daytime. Soil volumetric water content (()) in the upper pots was measured with time domain reflectometry (TDR) before and after shading. An increase in () in the upper pot was detected with TDR in the drought-tolerant hybrids following 3 h of shading, but not in the drought-susceptible hybrid. Furthermore, water exuded from roots in the top soil layers was greater in the more drought-tolerant TAES 176 than in P3223 (489 vs. 288 g per pot in 3 h, P<0.005). The sizable amount of water from hydraulic lift allowed TAES176 to reach a peak transpiration rate 27-42% higher than the drought-susceptible hybrid P3225 on the days when the evaporative demand was high. To our knowledge, this is the first experiment that reveals a significant surge of transpiration due to hydraulic lift following midday shading. Hydraulic lift also prevented soil moisture depletion in the upper pots with TAES176, but not with P3223 or P3225. Root characteristics may be responsible for differences in hydraulic lift of the three maize hybrids. There were 2.3-3.3-fold more primary roots in the deep moist soil in P3223 and TAES176 than in P3225 that may enable these hybrids to absorb and transport water at faster rates. Therefore, more water can be exuded into the upper drier soil when transpiration is suppressed by shading. Larger primary roots (20-28% larger diameter) and a higher root volume in the upper soil in TAES176 and P3223 than in P3225 may contribute to higher root hydraulic conductance and greater water efflux from the roots. The negligible hydraulic lift in P3225 may also relate to higher night-time transpiration of the hybrid. This report has documented, for the first time, the existence of genetic variations in hydraulic lift among maize hybrids and links between hydraulic lift and drought tolerance within maize plants. It appears that one of drought tolerance mechanisms in maize may lie in the extent of hydraulic lift.
