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Summary of the final report on the Australian Flora Foundation funded project:

Seed longevity and viability in several plant species of Box-Ironbark Forests
Corinna Orscheg
School of Anthropology, Geography and Environmental Studies
University of Melbourne, Parkville, 3010    Grant details   Final report

Summary
Very little is known of ecological processes in threatened Victorian Box-Ironbark forests. This study
examined patterns of in situ and ex situ seed longevity, dormancy and viability decay over three years
for eight species. The species selected comprised three ‘soft’ seeded species (Briza maxima, Eucalyptus
tricarpa, Ozothamnus obcordata) and five ‘hard’ seeded species of the Mimosaceae (three common
species, Acacia genistifolia, A. pycnantha and Pultenaea prostrata, and two rare or threatened species
A. ausfeldii and A. williamsonii).

Soft-seeded species all displayed in situ longevity patterns typical of species with a transient soil
seedbank. For all three species in situ seed loss was greatest after 12 months, however the source of
seed loss varied. Seed was lost to decay for the two native species, while for the sole exotic species
most seed was lost to germination. Briza maxima was also the only species for which seed was
recovered after three years of in situ burial, albeit a very small fraction of the original amount buried
(2.5%). Under ex situ storage the proportion of viable seed declined little over three years for three
species examined (between 1.7% and 2.5%). For the two native species this suggests their soil
seedbanks have the potential to contribute to regeneration beyond a year, however in situ conditions
affecting seed decay prevent seed remaining in the soil seedbank for greater than a year.

For all hard-seeded species seed was recovered after three years of in situ burial, but the proportion of
seed varied between species. The majority of seed from Acacia ausfeldii, A. genistifolia and Pultenaea
prostrata was recovered after three years and viability differed little to that prior to burial. However, for
A. pycnantha and A. williamsonii considerable seed was lost in situ, mostly due to germination.

Levels of dormancy also varied among hard-seeded species. Dormancy levels were initially high for all
species prior to burial (c.98-100%), however proportions of dormant seed declined considerably for A.
pycnantha and A. williamsonii (61.6±.9.1% and 50.4±.7.4% non-dormant seed respectively after three
years of burial). Proportions of dormant seed also declined for A. ausfeldii and A. genistifolia, but not to
the same degree (4.5±.1.3% and 15±.3.3% non-dormant seed after three years respectively). As heat
associated with fire is a dormancy breaking cue in these species (Brown et al. 2000). This has
consequences for species persistence considering that current fuel loads and accumulation rates in Box-
Ironbark forest suggest infrequent fire events.