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Survival and Growth of Native and Exotic Composites in Response to a Nutrient Gradient
Per Milberg, Byron B. Lamont and María A. Pérez-Fernández
Vol. 145, No. 1 (1999), pp. 125-132
Published by: Springer
Stable URL: http://www.jstor.org/stable/20050846
Page Count: 8
You can always find the topics here!Topics: Species, Introduced species, Mortality, Plants, Native species, Nutrient nutrient interactions, Biomass production, Soil nutrients, Plant nutrition, Ecological invasion
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Mortality and performance (total biomass) of five exotic (weedy) and five native annual Asteraceae in Western Australia were compared along a mineral nutrient gradient. Mortality did not differ between exotic and native species but varied greatly within each group. The exotic species responded more positively to higher nutrient additions than the native species, indicating that the exotics might have a competitive advantage in a nutrient-enhanced situation (e.g., after fire). The concept of 'phenotypic inertia' (PI), combining survival and performance over a range of environments, is introduced as a means of evaluating the range of growing conditions tolerated. The two species with highest PI (one exotic and one native) had the lowest mortality and uniformly moderate biomass for the nine nutrient treatments. The species with the lowest PI (a native) had complete failure at the two highest nutrient levels and low variable growth in the remainder. PI has potential as a measure of environmental tolerance although, in the present study, the exotic species were not clearly superior to the native species in their responses to a wide range of soil nutrient levels.
Plant Ecology © 1999 Springer