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Australian Journal of Botany Australian Journal of Botany Society
Southern hemisphere botanical ecosystems
RESEARCH ARTICLE

Germination response to heat and smoke of 22 Poaceae species from grassy woodlands

S. Clarke A B and K. French A
+ Author Affiliations
- Author Affiliations

A Institute for Conservation Biology, School of Biological Sciences, University of Wollongong, Wollongong, NSW 2522, Australia.

B Corresponding author. Email: sclarke@bgpa.wa.gov.au

Australian Journal of Botany 53(5) 445-454 https://doi.org/10.1071/BT04017
Submitted: 6 February 2004  Accepted: 4 April 2005   Published: 11 August 2005

Abstract

Grasses form an important component of grassy woodlands, although their response to fire has been understudied. In this study, fire germination responses of 22 Poaceae species from an endangered grassy-woodland community in eastern Australia were investigated. Seeds of 20 native and two exotic species were subjected to heat (no heat, 40, 80 and 120°C) and smoke treatment (10% dilution smoke water) and the percentage germination was compared. Germination response of species showed no consistent pattern to phylogeny and was highly variable. Germination in six species was unaffected by the application of heat or smoke. In five species, heat, irrespective of smoke application, influenced germination. Smoke, irrespective of heat treatment, influenced six species. For a further six species, the effect of smoke varied with temperature. These results suggest that fire regimes will influence the recruitment of grass species differentially and maintaining regional species richness is likely to require the maintenance of a heterogeneous fire regime across the landscape.


Acknowledgments

We thank Marina Peterson of the Department of Defence whose financial support made this research possible; Lotte von Richter, Cathy Offord and staff of the Royal Botanic Gardens, Mount Annan, who helped with species selection and provided their research laboratory; Lotte von Richter who provided technical assistance in the field and laboratory; and David Keith who provided initial advice on experimental design and commented on earlier drafts of this paper. Jane Wasley assisted with construction of the smoke machine and Belinda Pellow of the Janet Cosh Herbarium assisted with species identification. Jocelyn Howell and Doug Benson provided advice on the grasses of the Cumberland Plain Woodlands.


References


Auld TD, O’Connell MA (1991) Predicting patterns of post-fire germination in 35 eastern Australia Fabaceae. Australian Journal of Ecology 16, 53–70. open url image1

Baskin, CC ,  and  Baskin, JM (1998). VI. Tropical dry woodlands, natural savannas, and grasslands. In ‘Seeds: ecology, biogeography, and evolution of dormancy and germination’. pp. 281–293. (Academic Press: San Diego, CA)

Baxter BJM, Granger JE, van Staden J (1995) Plant-derived smoke and seed germination: is all smoke good smoke? That is the burning question. South African Journal of Botany 61, 275–277. open url image1

Bell DT, Vlahos S, Watson LE (1987) Stimulation of seed germination of understorey species of the northern jarrah forest of Western Australia. Australian Journal of Botany 35, 593–599. open url image1

Benson, D ,  and  Howell, J (1990). ‘Taken for granted: the bushland of Sydney and its suburbs.’ (Kangaroo Press: Sydney)

Bond, WJ ,  and  van Wilgen, BW (1996). ‘Fire and plants.’ (Chapman and Hall: London)

Brown NAC (1993) Promotion of germination of fynbos seeds by plant-derived smoke. New Phytologist 123, 575–583. open url image1

Brown NAC, Prosch DS, Botha PA (1998) Plant derived smoke: an effective pretreatment for seeds of Syncarpha and Rhodocoma and potentially for many other Fynbos species. South African Journal of Botany 64, 90–92. open url image1

Clarke PJ, Davison EA, Fulloon L (2000) Germination and dormancy of grassy woodland and forest species: effects of smoke, heat, darkness and cold. Australian Journal of Botany 48, 687–700.
Crossref | GoogleScholarGoogle Scholar | open url image1

Cocks MP, Stock WD (1997) Heat stimulated germination in relation to seed characteristics of fynbos legumes of the Western Cape Province, South Africa. South African Journal of Botany 63, 129–132. open url image1

Coutinho, LM (1990). ‘Fire in the tropical biota: ecosystems processes and global challenges.’ (Springer-Verlag: Berlin)

de Lange JH, Boucher C (1990) Autecological studies on Audouinia capitata (Bruniaceae). I. Plant-derived smoke as a seed germination cue. South African Journal of Botany 56, 700–703. open url image1

Dixon KW, Roche S, Pate JS (1995) The promotive effect of smoke derived from burnt native vegetation on seed germination of Western Australian plants. Oecologia 101, 185–192.
Crossref | GoogleScholarGoogle Scholar | open url image1

Enright NJ, Goldblum D, Ata P, Ashton DH (1997) The independent effects of heat, smoke and ash on emergence of seedlings from the soil seed bank of a heathy Eucalyptus woodland in Grampians (Gariwerd) National Park, western Victoria. Australian Journal of Ecology 22, 81–88. open url image1

French K, Pellow B, Henderon M (2000) Vegetation of the Holsworthy Military Area. Cunninghamia 6, 893–940. open url image1

Gillon, D (1983). The fire problem in tropical savannas. In ‘Ecosystems of the World 13’. pp. 617–638. (Elsevier Scientific Publishing Company: Amsterdam)

Gilmour CA, Crowden RK, Koutoulis A (2000) Heat shock, smoke and darkness: partner cues in promoting seed germination in Epacris tasmanica (Epacridaceae). Australian Journal of Botany 48, 603–609. open url image1

Gonzalez-Rabanal F, Casal M (1995) Effect of high temperatures and ash on germination of ten species from gorse shrubland. Vegetatio 116, 123–131.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hanley ME, Fenner M, Ne’eman G (2001) Pregermination heat shock and seedling growth of fire-following Fabaceae from four Mediterranean-climate regions. Acta Oecologica 22, 315–320.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hopkins B (1965) Observations on savanna burning in the Olokemeji Forest Reserve, Nigeria. Journal of Applied Ecology 2, 367–381. open url image1

James, T , McDougall, L ,  and  Benson, D (1999). ‘Rare bushland plants of western Sydney.’ (Royal Botanic Gardens: Sydney)

Keith DA (1997) Combined effects of heat shock, smoke and darkness on germination of Epacris Stuartii Stapf., an endangered fire-prone Australian shrub. Oecologia 112, 340–344.
Crossref | GoogleScholarGoogle Scholar | open url image1

Kenny BJ (2000) Influence of multiple fire-related germination cues on three Sydney Grevillea (Proteaceae) species. Austral Ecology 25, 664–669.
Crossref | GoogleScholarGoogle Scholar | open url image1

Lloyd MV, Dixon KW, Sivasithamparam K (2000) Comparative effects of different smoke treatments on germination of Australian native plants. Austral Ecology 25, 610–615.
Crossref | GoogleScholarGoogle Scholar | open url image1

Lock, JM ,  and  Milburn, TR (1971). The seed biology of Themeda triandra Forsk. in relation to fire. In ‘The scientific management of animal and plant communities for conservation’. pp. 337–351. (Blackwell Scientific Publications: London)

Lunt ID (1994) Variation in flower production of nine grassland species with time since fire, and implications for grassland management and restoration. Pacific Conservation Biology 1, 359–366. open url image1

Lunt ID, Morgan JW (1999) Effect of fire frequency on plant composition at the Laverton North Grassland Reserve, Victoria. Victorian Naturalist 116, 84–90. open url image1

McGowen I (1997) Pasture recovery after bushfires. Agfact 2, 1–9. open url image1

McGuinness KA (2002) Of rowing boats, ocean liners and tests of the ANOVA homogeneity of variance assumption. Austral Ecology 27, 681–688.
Crossref | GoogleScholarGoogle Scholar | open url image1

McIntyre S, Lavorel S (1994) How environmental and disturbance factors influence species composition in temperate Australian grasslands. Journal of Vegetation Science 5, 373–384. open url image1

Miranda AC, Miranda HS, Oliveira IDF, DeSouza BF (1993) Soil and air temperatures during prescribed cerrado fires in Central Brazil. Journal of Tropical Ecology 9, 313–320. open url image1

Morgan JW (1997) The effect of grassland gap size on establishment, growth and flowering of the endangered Rutidosis leptorrhynchoides (Asteraceae). Journal of Applied Ecology 34, 566–576. open url image1

Morgan JW (1998a) Comparative germination responses of 28 temperate grassland species. Australian Journal of Botany 46, 209–219.
Crossref | GoogleScholarGoogle Scholar | open url image1

Morgan JW (1998b) Small-scale plant dynamics in temperate Themeda triandra grasslands of southeastern Australia. Journal of Vegetation Science 9, 347–360. open url image1

Morris EC (2000) Germination response of seven east Australian Grevillea species (Proteaceae) to smoke, heat exposure and scarification. Australian Journal of Botany 48, 179–189.
Crossref | GoogleScholarGoogle Scholar | open url image1

Noy-Meir I (1995) Interactive effects of fire and grazing on structure and diversity of Mediterranean grasslands. Journal of Vegetation Science 6, 701–710. open url image1

Orr DM, Paton CJ, Lisle AT (1997) Using fire to manage species composition in Heteropogon contortus (black speargrass) pastures. 1. Burning regimes. Australian Journal of Agricultural Research 48, 795–802.
Crossref | GoogleScholarGoogle Scholar | open url image1

Peart MH (1979) Experiments on the biological significance of the morphology of seed-dispersal units in grasses. Journal of Ecology 67, 843–863. open url image1

Purdie RW (1977) Early stages of regeneration after burning in dry sclerophyll vegetation. II: Regeneration by seed germination. Australian Journal of Botany 25, 35–46. open url image1

Read TR, Bellairs SM (1999) Smoke affects the germination of native grasses of New South Wales. Australian Journal of Botany 47, 563–576.
Crossref | GoogleScholarGoogle Scholar | open url image1

Read, TR , Bellairs, SM , Mulligan, DR ,  and  Lamb, D (Eds) (1997). Influence of smoke on soil seed bank germination in a native forest community of New South Wales. In ‘Second Australian native seed biology for revegetation workshop’. pp. 81–92. (Australian Centre for Minesite Rehabilitation: Brisbane)

Read TR, Bellairs SM, Mulligan DR, Lamb D (2000) Smoke and heat effects on soil seed bank germination for the re-establishment of a native forest community in New South Wales. Austral Ecology 25, 48–57.
Crossref | GoogleScholarGoogle Scholar | open url image1

Roche S, Koch JM, Dixon KW (1997a) Smoke enhanced seed germination for mine rehabilitation in the southwest of Western Australia. Restoration Ecology 5, 191–203.
Crossref | GoogleScholarGoogle Scholar | open url image1

Roche S, Dixon KW, Pate JS (1997b) Seed ageing and smoke: partner cues in the amelioration of seed dormancy in selected Australian native species. Australian Journal of Botany 45, 783–815.
Crossref | GoogleScholarGoogle Scholar | open url image1

Roche S, Dixon KW, Pate JS (1998) For everything a season: smoke-induced seed germination and seedling recruitment in a Western Australian Banksia woodland. Australian Journal of Ecology 23, 111–120. open url image1

Smith MA, Bell DT, Loneragan WA (1999) Comparative seed germination ecology of Austrostipa compressa and Ehrharta calycina (Poaceae) in a Western Australian Banksia woodland. Australian Journal of Ecology 24, 35–42.
Crossref | GoogleScholarGoogle Scholar | open url image1

Southwell CJ, Jarman PJ (1987) Macropod studies at Wallaby Creek III. The effect of fire on pasture utilisation by macropodids and cattle. Australian Wildlife Research 14, 117–124.
Crossref |
open url image1

Van Staden J, Brown NAC, Jager AK, Johnson TA (2000) Smoke as a germination cue. Plant Species Biology 15, 167–178.
Crossref | GoogleScholarGoogle Scholar | open url image1

Stuwe J, Parsons RF (1977) Themeda australis grasslands on the Basalt Plains, Victoria: floristics and management effects. Australian Journal of Ecology 2, 467–476. open url image1

Tieu A, Dixon KW, Sivasithamparan K, Plimmer JA, Sieler IM (1999) Germination of four species of native Western Australian plants using plant-derived smoke. Australian Journal of Botany 47, 207–219.
Crossref | GoogleScholarGoogle Scholar | open url image1

Tothill JC (1969) Soil temperatures and seed burial in relation to the performance of Heteropogon contortus and Themeda australis in burnt native woodland pastures in eastern Queensland. Australian Journal of Botany 17, 269–275. open url image1

Tremont RM (1994) Life-history attributes of plants in grazed and ungrazed grasslands on the Northern Tablelands of New South Wales. Australian Journal of Botany 42, 511–530. open url image1

Warcup JH (1980) Effect of heat treatment of forest soil on germination of buried seed. Australian Journal of Botany 28, 567–571. open url image1

Whelan RJ, York J (1998) Post-fire germination of Hakea sericea and Petrophile sessilis after spring burning. Australian Journal of Botany 46, 367–376.
Crossref | GoogleScholarGoogle Scholar | open url image1

Zar, JH (1999). ‘Biostatisical analysis.’ 4th edn . (Prentice Hall: Englewood Cliffs, NJ)