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Annals of Botany 80: 245-256, 1997
© 1997 Annals of Botany Company

Ecophysiological Aspects of the Woody Root HemiparasiteSantalum acuminatum(R. Br.) A. DC and its Common Hosts in South Western Australia

K. U. TENNAKOON, J. S. PATE+, and D. ARTHUR

Department of Botany, The University of Peradeniya, Peradeniya, Sri-Lanka Department of Botany, The University of Western Australia, Nedlands, WA, 6907, Australia

January 30, 1997 ; March 20, 1997 .

The water and nitrogen relationships of the xylem-tapping root hemiparasite, quandong (Santalum acuminatum) and its principal hosts were examined at a series of sites in native coastal heathlands of south west Australia. Assessments based on densities of above-ground biomass, ground cover and frequencies of haustoria on host roots indicated that woody N2fixers (legumes andAllocasuarina) were principal hosts ofSantalum. {delta}15N values for shoot dry matter of component species suggested these N2fixers were strongly (70% or more) dependent on atmospheric N and thatSantalumderived N principally from these species. Structural studies of haustoria showed the interface with host xylem to be almost entirely comprised of parenchymatous tissue. No luminal continuities were observed between xylem conducting elements of the partners. Formation and functional life of haustoria were closely coordinated with seasonal growth of hosts, with some haustoria surviving summer and overlapping functionally with new ones establishing in the next autumn. Transpiration and photosynthetic rates of the parasite were consistently less and water use efficiencies very similar to those of the principal hostAcacia rostellifera. {delta}13C values of foliage ofSantalumand this host were similar, but large variations in {delta}13C values for above-ground dry matter of parasite and hosts between study sites prevented evaluations of water stress or water-use-efficiency based on carbon isotope discrimination. Specific hydraulic conductivities of roots ofSantalumwere consistently lower than those ofAcacia, a finding consistent with more conservative water use by the parasite than the host.

Santalum acuminatum; root hemiparasite; 15N discrimination; water relations; haustorial structure; root conductivity


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