Abstract
The ability to self-fertilise may promote invasiveness in plants by assuring reproduction when mate and pollinator availabilities are inadequate, provided that the benefit of increased fecundity via selfing is not outweighed by inbreeding depression. However, knowledge of breeding systems and inbreeding depression has been lacking for most introduced plants. In this study of the invasive Australian tree Acacia dealbata in its introduced range in South Africa, controlled pollination experiments indicated that the study population was at least partially self-compatible and had a high capacity for autonomous self-pollination. However, we found substantial inbreeding depression, with seeds per fruit, progeny survival and progeny growth being lower after self- than after cross-pollination. Progeny arising from self-pollination also had a higher frequency of certain traits – yellow colouration of leaves and pink or white colouration of stems – which were associated with lower rates of survival. High inbreeding depression in A. dealbata must detract from the reproductive assurance benefit of self-fertilisation, casting doubt on the hypothesis that self-fertilisation contributes to invasiveness in this species. As high inbreeding depression has also been reported in other self-compatible trees, future studies should elucidate whether self-fertilisation contributes to invasiveness of trees by assessing both reproductive assurance benefits and inbreeding depression costs over the lifetime of progeny.
Highlights
To become invasive, introduced plants must be able to reproduce in their novel range
index of self-incompatibility (ISI) values could be calculated for eight individual trees with median = 0.07 and range − 0.5–1; autofertility index (AFI) values could be calculated for eight trees with median = 1.15 and range 0.54–2.53
There were no significant differences in fruit set between pollination treatments (Fig. 2a) and the ISI confidence limits included 0, the value for complete self-compatibility
Summary
To become invasive, introduced plants must be able to reproduce in their novel range. It has been predicted that the ability to self-fertilise should promote invasiveness in introduced plants by assuring reproduction when mates and pollinators are in short supply (reproductive assurance) (Baker, 1965a, 1974; Barrett, 2011). Self-fertilisation can be detrimental to reproductive success when inbreeding depression is present and pollinator visitation and mate availability make outcrossing possible. In such cases, inferior selfed progeny may be produced at the expense of fitter, outcrossed progeny (seed discounting, Lloyd, 1992). When considering whether selfing may promote invasion in plant species, it is important take inbreeding depression into account. Many invasive species are known to self-fertilise
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