Boyd R Wright1,2,3, Roderick J Fensham4,5. 1. Alice Springs Herbarium, Department of Land and Resource Management, Northern Territory Government, Alice Springs, NT, Australia. 2. School of Agriculture and Food Science, University of Queensland, Brisbane, QLD, Australia. 3. Botany, School of Environmental and Rural Science, University of New England, Armidale, NSW, Australia. 4. School of Biological Sciences, University of Queensland, St Lucia, Brisbane, QLD, Australia. 5. Queensland Herbarium, Mount Coot-tha Road, Toowong, Brisbane, QLD, Australia.
Abstract
Background and Aims: Plant species with fire-triggered germination are common in many fire-prone ecosystems. For such plants, fire timing in relation to the timing of reproduction may strongly influence post-fire population regeneration if: (a) flowering occurs infrequently (e.g. plants are mast seeders); and (b) seed survival rates are low and input from the current year's flowering therefore contributes a large proportion of the viable dormant seedbank. The role of fire timing in relation to masting as a driver of post-fire recruitment has rarely been examined directly, so this study tested the hypothesis that fires shortly after masting trigger increased recruitment of the obligate-seeding arid zone spinifex, Triodia pungens R. Br., an iteroparous masting grass with smoke-cued germination. Methods: Phenological monitoring of T. pungens was conducted over 5 years, while a longitudinal seedbank study assessed the influence of seeding events on soil-stored seedbank dynamics. Concurrently, a fire experiment with randomized blocking was undertaken to test whether T. pungens hummocks burnt shortly after masting have greater post-fire recruitment than hummocks burnt when there has not been recent input of seeds. Key Results: Triodia pungens flowered in all years, though most flowerings were characterized by high rates of flower abortion. A mast flowering with high seed set in 2012 triggered approx. 200-fold increases in seedbank densities, and seedbank densities remained elevated for 24 months after this event. The fire experiment showed significantly higher recruitment around hummocks burnt 6 months after the 2012 mast event than around hummocks that were burnt but prevented from masting by having inflorescences clipped. Conclusions: Fires shortly after masting trigger mass recruitment in T. pungens because such fires synchronize an appropriate germination cue (smoke) with periods when seedbank densities are elevated. Interactions between natural fire regimes, seedbank dynamics and fire management prescriptions must be considered carefully when managing fire-sensitive masting plants such as T. pungens.
Background and Aims: Plant species with fire-triggered germination are common in many fire-prone ecosystems. For such plants, fire timing in relation to the timing of reproduction may strongly influence post-fire population regeneration if: (a) flowering occurs infrequently (e.g. plants are mast seeders); and (b) seed survival rates are low and input from the current year's flowering therefore contributes a large proportion of the viable dormant seedbank. The role of fire timing in relation to masting as a driver of post-fire recruitment has rarely been examined directly, so this study tested the hypothesis that fires shortly after masting trigger increased recruitment of the obligate-seeding arid zone spinifex, Triodia pungens R. Br., an iteroparous masting grass with smoke-cued germination. Methods: Phenological monitoring of T. pungens was conducted over 5 years, while a longitudinal seedbank study assessed the influence of seeding events on soil-stored seedbank dynamics. Concurrently, a fire experiment with randomized blocking was undertaken to test whether T. pungens hummocks burnt shortly after masting have greater post-fire recruitment than hummocks burnt when there has not been recent input of seeds. Key Results:Triodia pungens flowered in all years, though most flowerings were characterized by high rates of flower abortion. A mast flowering with high seed set in 2012 triggered approx. 200-fold increases in seedbank densities, and seedbank densities remained elevated for 24 months after this event. The fire experiment showed significantly higher recruitment around hummocks burnt 6 months after the 2012 mast event than around hummocks that were burnt but prevented from masting by having inflorescences clipped. Conclusions: Fires shortly after masting trigger mass recruitment in T. pungens because such fires synchronize an appropriate germination cue (smoke) with periods when seedbank densities are elevated. Interactions between natural fire regimes, seedbank dynamics and fire management prescriptions must be considered carefully when managing fire-sensitive masting plants such as T. pungens.
Authors: Giorgio Vacchiano; Mario B Pesendorfer; Marco Conedera; Georg Gratzer; Lorenzo Rossi; Davide Ascoli Journal: Philos Trans R Soc Lond B Biol Sci Date: 2021-10-18 Impact factor: 6.237
Authors: Mario B Pesendorfer; Reed Bowman; Georg Gratzer; Shane Pruett; Angela Tringali; John W Fitzpatrick Journal: Philos Trans R Soc Lond B Biol Sci Date: 2021-10-18 Impact factor: 6.237
Authors: Davide Ascoli; Andrew Hacket-Pain; Ian S Pearse; Giorgio Vacchiano; Susanna Corti; Paolo Davini Journal: Philos Trans R Soc Lond B Biol Sci Date: 2021-10-18 Impact factor: 6.237
Authors: Wolfgang Lewandrowski; Jason C Stevens; Bruce L Webber; Emma L Dalziell; Melinda S Trudgen; Amber M Bateman; Todd E Erickson Journal: Ecol Evol Date: 2021-05-11 Impact factor: 2.912