XEROPHYTIC IMPLICATIONS OF INCREASED SCLEROPHYLLY - INTERACTIONS WITHWATER AND LIGHT IN HAKEA-PSILORRHYNCHA SEEDLINGS

Hakea psilorihyncha R. M. Barker seedlings were subjected to a two-way interaction experiment with two levels of water availability and two levels of light. Physiological drought was imposed by adding 6000 MW p olyethylene glycol (PEG), at an osmotic potential of -0.56 MPa, in a c ontinuous-flow drip irrigation system. Unstressed plants (-PEG) were w atered with distilled water (osmotic potential of -0.01 MPa). Seedling s were grown under natural light (120-500 mu mol m(-2) s(-1) sunlight at midday +L) or shaded (<150 mu mol m(-2) s(-1) sunlight at midday; - L. Plant morphology tissue water relations and carbon isotope composit ion (delta(13)C) were measured after 12 wk growth. The smallest leaves had the highest mass per unit area (LMA, an index of sclerophylly) an d were present in the +PEG+L treatment, whereas the largest, thickest leaves had the lowest density and were produced in the -PEG+L treatmen t. Plants in shade were smaller and less sclerophyllous. There was a l inear decrease in osmotic potential at full turgor and turgor loss poi nt, and an increase in elastic modulus and delta(13)C, as level of scl erophylly increased, with -PEG-L leaves at one extreme and +PEG+L at t he other. We conclude that high levels of sclerophylly induced by low water availability and high light intensity are associated with substa ntial drought tolerance in H, psilorrhyncha.