The tortoise and the hare? Post-fire regeneration in mixed Eucalyptus–Callitris forest
Ian D. Lunt A D , Heidi C. Zimmer B C and David C. Cheal BA Institute for Land, Water and Society, Charles Sturt University, PO Box 789, Albury, NSW 2640, Australia.
B Arthur Rylah Institute, Department of Sustainability and Environment, 123 Brown Street, Heidelberg, Vic. 3081, Australia.
C Present address: School of Biological Sciences, Faculty of Science, Monash University, Clayton, Vic. 3800, Australia.
D Corresponding author. Email: ilunt@csu.edu.au
Australian Journal of Botany 59(6) 575-581 https://doi.org/10.1071/BT11151
Submitted: 14 June 2011 Accepted: 11 August 2011 Published: 5 October 2011
Journal Compilation © CSIRO Publishing 2011 Open Access CC BY-NC-ND
Abstract
Seedling regeneration after a high intensity wildfire was assessed in a mixed forest dominated by Eucalyptus species and Callitris endlicheri (Parl.) F.M. Bailey. Patterns were compared against the ‘slow seedling’ or ‘tortoise-and-hare’ theory of competitive interactions between gymnosperms and angiosperms. Browsing effects were documented using fenced plots, and seedling density, mortality and height were assessed over 6 years, from 2004–10. Consistent with expectations, Eucalyptus seedlings grew faster than Callitris seedlings in most situations. Callitris seedlings grew faster and produced seed cones sooner in plots with fewer Eucalyptus seedlings compared with plots with dense Eucalyptus seedlings. The local growth rates of Callitris seedlings were not associated with long-term site suitability for Callitris, as many plots with diminutive Callitris seedlings and dense Eucalyptus seedlings were dominated by Callitris trees before the 2003 fire. Contrary to expectations, few Callitris seedlings died during the 6-year period, so competition during the regeneration phase did not regulate co-existence. Strong drought tolerance and the ability to persist in dense, unthinned stands may enable Callitris to persist beneath dense Eucalyptus regeneration. Nevertheless, Callitris seedlings growing with dense Eucalyptus seedlings have a longer primary juvenile period than seedlings in sites with fewer seedling or adult eucalypts, which places these stands at greater risk of mortality in future fires and greater risk of browsing in the meantime.
References
Allcock KG, Hik DS (2004) Survival, growth, and escape from herbivory are determined by habitat and herbivore species for three Australian woodland plants. Oecologia 138, 231–241.| Survival, growth, and escape from herbivory are determined by habitat and herbivore species for three Australian woodland plants.Crossref | GoogleScholarGoogle Scholar |
Attiwill PM, Clayton-Greene KA (1984) Studies of gas exchange and development in a subhumid woodland. Journal of Ecology 72, 285–294.
| Studies of gas exchange and development in a subhumid woodland.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaL2cXhvVyqtb8%3D&md5=10a08dd2c182f765e387aae4eb546537CAS |
Becker P (2000) Competition in the regeneration niche between conifers and angiosperms: Bond’s slow seedling hypothesis. Functional Ecology 14, 401–412.
| Competition in the regeneration niche between conifers and angiosperms: Bond’s slow seedling hypothesis.Crossref | GoogleScholarGoogle Scholar |
Becker P, Tyree MT, Tsuda M (1999) Hydraulic conductances of angiosperms versus conifers: similar transport sufficiency at the whole-plant level. Tree Physiology 19, 445–452.
Bond WJ (1989) The tortoise and the hare: ecology of angiosperm dominance and gymnosperm persistence. Biological Journal of the Linnean Society. Linnean Society of London 36, 227–249.
| The tortoise and the hare: ecology of angiosperm dominance and gymnosperm persistence.Crossref | GoogleScholarGoogle Scholar |
Bond WJ, Scott AC (2010) Fire and the spread of flowering plants in the Cretaceous. New Phytologist 188, 1137–1150.
| Fire and the spread of flowering plants in the Cretaceous.Crossref | GoogleScholarGoogle Scholar |
Bowman DMJS, Harris S (1995) Conifers of Australia’s dry forests and open woodlands. In ‘Ecology of the southern conifers’. (Eds NJ Enright, RS Hill) pp. 252–270. (Melbourne University Press: Melbourne)
Bowman DMJS, Panton WJ (1993) Decline of Callitris intratropica R.T. Baker & H.G. Smith in the Northern Territory: implications for pre- and post-European colonization fire regimes. Journal of Biogeography 20, 373–381.
| Decline of Callitris intratropica R.T. Baker & H.G. Smith in the Northern Territory: implications for pre- and post-European colonization fire regimes.Crossref | GoogleScholarGoogle Scholar |
Bowman DMJS, Wilson BA (1988) Fuel characteristics of coastal monsoon forests, Northern Territory, Australia. Journal of Biogeography 15, 807–817.
| Fuel characteristics of coastal monsoon forests, Northern Territory, Australia.Crossref | GoogleScholarGoogle Scholar |
Bowman DMJS, Wilson BA, Davis GW (1988) Response of Callitris intratropica R.T. Baker & H.G. Smith to fire protection, Murgenella, northern Australia. Australian Journal of Ecology 13, 147–159.
| Response of Callitris intratropica R.T. Baker & H.G. Smith to fire protection, Murgenella, northern Australia.Crossref | GoogleScholarGoogle Scholar |
Bradstock RA, Cohn JS (2002) Demographic characteristics of mallee pine (Callitris verrucosa) in fire-prone mallee communities of central New South Wales. Australian Journal of Botany 50, 653–665.
| Demographic characteristics of mallee pine (Callitris verrucosa) in fire-prone mallee communities of central New South Wales.Crossref | GoogleScholarGoogle Scholar |
Bradstock RA, Bedward M, Cohn JS (2006) The modelled effects of differing fire management strategies on the conifer Callitris verrucosa within semi-arid mallee vegetation in Australia. Journal of Applied Ecology 43, 281–292.
| The modelled effects of differing fire management strategies on the conifer Callitris verrucosa within semi-arid mallee vegetation in Australia.Crossref | GoogleScholarGoogle Scholar |
Brodribb TJ, Holbrook NM, Hill RS (2005) Seedling growth in conifers and angiosperms: impacts of contrasting xylem structure. Australian Journal of Botany 53, 749–755.
| Seedling growth in conifers and angiosperms: impacts of contrasting xylem structure.Crossref | GoogleScholarGoogle Scholar |
Brodribb TJ, Bowman D, Nichols S, Delzon S, Burlett R (2010) Xylem function and growth rate interact to determine recovery rates after exposure to extreme water deficit. New Phytologist 188, 533–542.
| Xylem function and growth rate interact to determine recovery rates after exposure to extreme water deficit.Crossref | GoogleScholarGoogle Scholar |
Bureau of Meteorology (2011) Climate statistics for Australian locations. summary statistics, Beechworth composite [82001]. Available at http://reg.bom.gov.au/climate/averages/tables/cw_082001.shtml. Accessed August 2011.
Clayton-Greene KA (1981) The autecology of Callitris columellaris F. Muell. and associated Eucalyptus spp. in south-eastern Australia. PhD thesis, University of Melbourne.
Clayton-Greene KA, Ashton DH (1990) The dynamics of Callitris columellaris/Eucalyptus albens communities along the Snowy River and its tributaries in south-eastern Australia. Australian Journal of Botany 38, 403–432.
| The dynamics of Callitris columellaris/Eucalyptus albens communities along the Snowy River and its tributaries in south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |
Cohn JS, Lunt ID, Ross KA, Bradstock RA (2011) How do slow-growing, fire-sensitive conifers survive in flammable eucalypt woodlands? Journal of Vegetation Science 22, 425–435.
| How do slow-growing, fire-sensitive conifers survive in flammable eucalypt woodlands?Crossref | GoogleScholarGoogle Scholar |
Cornelissen JHC, Diez PC, Hunt R (1996) Seedling growth, allocation and leaf attributes in a wide range of woody plant species and types. Journal of Ecology 84, 755–765.
| Seedling growth, allocation and leaf attributes in a wide range of woody plant species and types.Crossref | GoogleScholarGoogle Scholar |
Cremer KW (1992) Relations between reproductive growth and vegetative growth of Pinus radiata. Forest Ecology and Management 52, 179–199.
| Relations between reproductive growth and vegetative growth of Pinus radiata.Crossref | GoogleScholarGoogle Scholar |
Florence RG (1996) ‘Ecology and silviculture of eucalypt forests’. (CSIRO: Collingwood)
Forestry Commission of New South Wales (FCNSW) (1988) Notes on the silviculture of major NSW forest types. 10. Cypress pine types. Forestry Commission of New South Wales, Sydney.
Grime JP (2001) ‘Plant strategies, vegetation processes, and ecosystem properties’. (John Wiley & Sons: Chichester)
Hawkins PJ (1966) Seed production and litter fall studies of Callitris columellaris. Australian Forest Research 2, 3–16.
Keith D (1996) Fire-driven extinction of plant populations: a synthesis of theory and review of evidence from Australian vegetation. Proceedings of the Linnean Society of New South Wales 116, 37–78.
Knott J (1995) White cypress pine thinning trials of the Western Region. Research Paper No. 27, State Forests of New South Wales, Sydney, Australia.
Lacey CJ (1972) Factors influencing occurrence of cypress pine regeneration in New South Wales. Technical Report No. 21, Forestry Commission of NSW, Sydney, Australia.
Lacey CJ (1973) Silvicultural characteristics of white cypress pine. Research Note No. 26, Forestry Commission of NSW, Sydney, Australia.
Lusk CH, Wright I, Reich PB (2003) Photosynthetic differences contribute to competitive advantage of evergreen angiosperm trees over evergreen conifers in productive habitats. New Phytologist 160, 329–336.
| Photosynthetic differences contribute to competitive advantage of evergreen angiosperm trees over evergreen conifers in productive habitats.Crossref | GoogleScholarGoogle Scholar |
Mackenzie BDE, Keith DA (2009) Adaptive management in practice: conservation of a threatened plant population. Ecological Management & Restoration 10, S129–S135.
| Adaptive management in practice: conservation of a threatened plant population.Crossref | GoogleScholarGoogle Scholar |
Parks Victoria (2008) ‘Chiltern-Mt Pilot National Park management plan’. (Parks Victoria: Melbourne)
Price O, Bowman DMJS (1994) Fire-stick forestry: a matrix model in support of skilful fire management of Callitris intratropica R.T.Baker by north Australian aborigines. Journal of Biogeography 21, 573–580.
| Fire-stick forestry: a matrix model in support of skilful fire management of Callitris intratropica R.T.Baker by north Australian aborigines.Crossref | GoogleScholarGoogle Scholar |
Prior LD, Lee Z, Brock C, Williamson GJ, Bowman DMJS (2010) What limits the distribution and abundance of the native conifer Callitris glaucophylla (Cupressaceae) in the West MacDonnell Ranges, central Australia? Australian Journal of Botany 58, 554–564.
| What limits the distribution and abundance of the native conifer Callitris glaucophylla (Cupressaceae) in the West MacDonnell Ranges, central Australia?Crossref | GoogleScholarGoogle Scholar |
Prober SM, Thiele KR (2004) Fire recovery vegetation monitoring in White Box – White Cypress Pine woodlands of East Gippsland. Technical Report, Department of Sustainability and Environment, Victoria, Australia.
Reich PB, Ellsworth DS, Walters MB, Vose JM, Gresham C, Volin JC, Bowman WD (1999) Generality of leaf trait relationships: a test across six biomes. Ecology 80, 1955–1969.
| Generality of leaf trait relationships: a test across six biomes.Crossref | GoogleScholarGoogle Scholar |
Ross KA, Bedward M, Ellis MV, Deane A, Simpson CC, Bradstock RA (2008) Modelling the dynamics of white cypress pine Callitris glaucophylla woodlands in inland south-eastern Australia. Ecological Modelling 211, 11–24.
| Modelling the dynamics of white cypress pine Callitris glaucophylla woodlands in inland south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |
Russell-Smith J (2006) Recruitment dynamics of the long-lived obligate seeders Callitris intratropica (Cupressaceae) and Petraeomyrtus punicea (Myrtaceae). Australian Journal of Botany 54, 479–485.
| Recruitment dynamics of the long-lived obligate seeders Callitris intratropica (Cupressaceae) and Petraeomyrtus punicea (Myrtaceae).Crossref | GoogleScholarGoogle Scholar |
Russell-Smith J, Ryan PG, Klessa D, Waight G, Harwood R (1998) Fire regimes, fire-sensitive vegetation, and fire management of the sandstone Arnhem Plateau, monsoonal northern Australia. Journal of Applied Ecology 35, 829–846.
| Fire regimes, fire-sensitive vegetation, and fire management of the sandstone Arnhem Plateau, monsoonal northern Australia.Crossref | GoogleScholarGoogle Scholar |
Stocker GC (1966) ‘Aspects of the seeding habit of Callitris intratropica’. (Department of National Development: Canberra)
Thompson WA, Eldridge DJ (2005) White cypress pine (Callitris glaucophylla): a review of its roles in landscape and ecological processes in eastern Australia. Australian Journal of Botany 53, 555–570.
| White cypress pine (Callitris glaucophylla): a review of its roles in landscape and ecological processes in eastern Australia.Crossref | GoogleScholarGoogle Scholar |
Verkaik I, Espelta JM (2006) Post-fire regeneration thinning, cone production, serotiny and regeneration age in Pinus halepensis. Forest Ecology and Management 231, 155–163.
| Post-fire regeneration thinning, cone production, serotiny and regeneration age in Pinus halepensis.Crossref | GoogleScholarGoogle Scholar |
VSN International (2010) ‘Genstat for Windows 13th Edition’. (VSN International, Hemel Hempstead, UK)
Watson C (2004) ‘Habitat modelling and effects of fire on Callitris endlicheri in the Chiltern-Mt Pilot National Park, Victoria’. (School of Environmental and Information Sciences, Charles Sturt University: Albury)
Wright IJ, Reich PB, Westoby M, Ackerly DD, Baruch Z, Bongers F, Cavender-Bares J, Chapin T, Cornelissen JHC, Diemer M, Flexas J, Garnier E, Groom PK, Gulias J, Hikosaka K, Lamont BB, Lee T, Lee W, Lusk C, Midgley JJ, Navas M-L, Niinemets Ü, Oleksyn J, Osada N, Poorter H, Poot P, Prior L, Pyankov VI, Roumet C, Thomas SC, Tjoelker MG, Veneklaas EJ, Villar R (2004) The worldwide leaf economics spectrum. Nature 428, 821–827.
| The worldwide leaf economics spectrum.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2cXjt1Crt74%3D&md5=fc332b26cb96990d6c0d9fc5f55da652CAS |
Zeppel M, Eamus D (2008) Coordination of leaf area, sapwood area and canopy conductance leads to species convergence of tree water use in a remnant evergreen woodland. Australian Journal of Botany 56, 97–108.
| Coordination of leaf area, sapwood area and canopy conductance leads to species convergence of tree water use in a remnant evergreen woodland.Crossref | GoogleScholarGoogle Scholar |
Zimmer H, Green P, Cheal D, Clarke MF (2011) Reconstructing Mallee fire history using Callitris verrucosa tree rings. Technical Report No. 215, Arthur Rylah Institute for Environmental Research, Heidelberg, Victoria, Australia.