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Australian Journal of Botany Australian Journal of Botany Society
Southern hemisphere botanical ecosystems
RESEARCH ARTICLE

Adaptive Variability in the Growth of Danthonia caespitosa Gaud. Populations at Different Temperatures

KC Hodgkinson and JA Quinn

Australian Journal of Botany 24(3) 381 - 396
Published: 1976

Abstract

Five populations of the indigenous perennial grass Danthonia caespitosa Gaud. were selected from widely separated sites along a north-south transect in south-eastern Australia. The sites, spanning the latitudinal range (31° to 42° S.) for the species, extended from a hot semiarid environment in the north to a cool and moist temperate environment in the south.

Two experiments, to assess the extent of intraspecific variability in response to different tempera- ture regimes, were conducted in naturally lit temperature-controlled glasshouses in the Ceres phyto- tron. All populations had a similar temperature optimum for growth of between 20.7 and 267°C (mean daily temperature), typical for temperate species. Rates of tillering, rates of leaf appearance, and leaf blade lengths and widths differed among populations and showed considerable phenotypic plasticity with respect to temperature. At all temperatures the growth rate of populations generally declined with increasing latitude of origin.

A detailed analysis of growth rates showed that differences between populations in final weight could largely be accounted for by variability in mean relative growth rates. Northern populations in general had a higher net assimilation rate and leaf weight ratio than southern populations.

The adaptive significance of these physiological and morphological differences between populations is discussed in relation to habitat characteristics and the distributional range of the species. It is concluded that along the latitudinal and climatic gradient there has been no significant change in temperature optima for growth but there has been natural selection resulting in higher growth rates of northern populations.

https://doi.org/10.1071/BT9760381

© CSIRO 1976

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