Frost resistance and susceptilbility to ice formation during natural hardening in relation to leaf anatomy in three evergreen tree species from New Zealand
1995
Neuner, G. (Institut fur Botanik, Innsbruck, Austria.) | Bannister, P.
Foliar frost resistance of three endemic New Zealand trees, Nothofagus menziesii (Hook. f.) Oerst. (Fagaceae), Pittosporum eugenioides A. Cunn. (Pittosporaceae) and Griselinia littoralis Forst. f. (Cornaceae), was examined as the trees hardened from late summer to midwinter in a lowland forest site. The lowest temperatures causing 50% damage (LT50) occurred in late winter and were similar to those recorded for other forest trees native to New Zealand (-11.7 degrees C in N. menziesii, -10.7 degrees C in P. eugenioides, and -10.6 degrees C in G. littoralis). All three species hardened by 4-7 degrees C, with G. littoralis showing the least frost resistance in summer and hence the greatest degree of hardening. Thermal analysis during freezing indicated that all three species became more tolerant of extracellular ice formation in winter. Measurements of chlorophyll a fluorescence correlated well with visible injury. The differing patterns of frost damage development in the three species were related to leaf anatomy: visible injury was localized within the small compartments formed by the highly septate leaves of the most resistant species, N. menziesii, and was somewhat localized in the partially septate leaves of P. eugenioides, whereas damage could be initiated anywhere in the aseptate leaves of G. littoralis, which was the least frost resistant species, particularly in summer
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