Drought-induced tree mortality has been observed worldwide. Nevertheless, the physiological mechanisms underlying this phenomenon are still being debated. Potted and saplings were subjected to drought and their hydraulic failure and carbon starvation responses were studied. They underwent simulated fast drought (FD) and slow drought (SD) until death. The dynamics of their growth, photosynthesis, water relations and carbohydrate concentration were measured. The results showed that during drought, growth and photosynthesis of all saplings were significantly reduced in both species. The predawn water potential in both species was ~ -8 MPa at mortality. The percentage loss of conductivity (PLC) was at a maximum at mortality under both FD and SD. For and , they were >95 and ~45 %, respectively. At complete defoliation, the PLC of was ~90 % but the trees continued to survive for around 46 days. The non-structural carbohydrate (NSC) concentrations in the stems and roots of both FD and SD declined to a very low level near death. In contrast, the NSC concentrations in the needles, stems and roots of at mortality under FD did not significantly differ from those of the control, whereas the NSC concentrations in SD stems and roots at death were significantly lower than those of the control. These results suggest that the duration of the drought affected NSC at mortality in . In addition, the differences in NSC between FD and SD . did not alter mortality thresholds associated with hydraulic failure. The drought-induced death of occurred at 95 % PLC for both FD and SD, indicating that hydraulic failure played an important role in mortality. Nevertheless, the consistent decline in NSC in saplings following drought-induced defoliation may have also contributed to its mortality.
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| http://dx.doi.org/10.1093/aobpla/plx069 | DOI Listing |
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