Abstract
Exposure of dormant seed to cold smoke derived from burnt native vegetation had a positive influence on germination in one or more seed provenances in 45 out of 94 species of native Western Australian plants that are normally hard to germinate. When tested under controlled conditions some species showed earlier germination in smoke treatments than controls; in others smoke-treated seeds continued to germinate for several weeks after controls had achieved full germination. In the remainder, treated and control seeds germinated to similar time schedules. A group of 23 species which responded positively had previously been recorded as extremely difficult or impossible to germinate using conventional techniques. These included members of the genera Geleznowia (Rutaceae), Hibbertia (Dilleniaceae), Stirlingia (Proteaceae), Verticordia (Myrtaceae), Actinostrobus (Cupressaceae) and Pimelea (Thymelaeaceae). Both large- and small-seeded species were encountered amongst the positively responding taxa, which encompassed representatives of 15 families and 26 genera of dicotyledons, 5 families and 8 genera of monocotyledons and the gymnosperm Actinostrobus acuminatus. Sowing seeds on smoke-fumigated filter papers or watering with aqueous eluates of smoke elicited similar degrees of stimulation of germination, as did exposure to gaseous smoke in a readily germinating species Anigozanthos manglesii (Haemodoraceae) and the normally intractable species Lysinema ciliatum (Epacridaceae). Exposing recently burnt and unburnt natural bushland sites to smoke, smoked water or smoked dry sand elicited a significant germination response in 15 species. Over one third of the species sampled in the burnt site exhibited germination additional to that caused by the fire. Data are discussed in relation to previous germination studies on Australian and other taxa.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bell DT, Hopkins AJM, Pate JS (1984) Fire in the kwongan. In: Pate JS, Beard JS (eds) Kwongan, plant life of the sandplain. Biology of a south-west Australian shrubland ecosystem. The University of Western Australia Press, Nedlands, pp 178–204
Bell DT, Vlahos S, Watson LE (1987) Stimulation of seed germination of understorey species of the northern jarrah forest of Western Australia. Aust J Bot 35: 593–599
Bell DT, Plummer JA, Taylor SK (1993) Seed germination ecology in southwestern Western Australia. Bot Rev 59: 24–73
Bradstock RA (1991) The role of fire in establishment of seedlings of serotinous species from the Sydney region. Aust J Bot 39: 347–356
Brown NAC (1993) Promotion of germination of fynbos seeds by plant-derived smoke. New Phytol 122: 1–9
De Lange JH, Boucher C (1990) Autecological studies on Audouinia capitata (Bruniaceae). I. Plant-derived smoke as a seed germination cue. S Afr J Bot 56: 700–703
Fordham AJ (1968) Germination of woody legume seeds with impermeable seed coats. Aust Plants 4: 294–327
Gill AM (1981) Adaptive responses of Australian vascular plant species to fire. In: Gill AM, Groves RH, Noble IR (eds) Fire and the Australian biota. Australian Academy of Science, Canberra, pp 243–271
Keeley JE (1991) Seed germination and life history syndromes in the Californian chaparral. Bot Rev 57: 81–116
Keeley JE, Morton BA, Pedrosa A, Trotter P (1985) Role of alleopathy, heat and charred wood in the germination of chaparral herbs and suffrutescents. J Ecol 73: 445–458
Keeley SE, Pizzorno M (1986) Charred wood stimulated germination of two fire-following herbs of the Californian chaparral and the role of hemicellulose. Am J Bot 73: 1289–1297
Kemp EM (1981) Pre-Quaternary fire in Australia. In: Gill AM, Groves RH, Noble IR (eds) Fire and the Australian biota. Australian Academy of Science, Canberra pp 3–21
Lamont BB, Le Maitre DC, Cowling RM, Enright NJ (1991) Canopy seed storage in woody plants. Bot Rev 57: 277–317
Meney KA, Dixon KW (1988) Phenology, reproductive biology and seed development in four rush and sedge species from Western Australia. Aust J Bot 36: 711–726
Meney KA, Neilssen GM, Dixon KW (1994) Seed bank patterns in Restionaceae and Epacridaceae after wildfire in kwongan in southwestern Australia. J Veg Sci 5: 5–12
Pate JS (1993) Structural and functional responses to fire and nutrient stress: case studies from the sandplains of south-west Australia. In: Fowden L, Mansfield T, Stoddard J (eds) Plant adaptation to environmental stress. Chapman and Hall, London, pp 189–207
Pate JS, Casson NE, Rullo J, Kuo J (1985) Biology of fire ephemerals of the sandplains of the kwongan of south-western Australia. Aust J Plant Physiol 12: 641–655
Paynter BH, Dixon KW (1991) Propagation of Yellow Bells (Geleznowia verrucosa Turcz., Rutaceae) from seed. Aust J Agric Res 42: 901–909
Van de Venter HA, Esterhuizen AD (1988) The effect of factors associated with fire on seed germination of Erica sessiliflora and E. hebecalyx (Ericaceae). S. Afr J Bot 54: 301–304
Walsh FJ (1990) An ecological study of traditional Aboriginal use of “country”: Martu in the Great and Little Sandy Deserts, Western Australia. Proc Ecol Soc Aust 16: 23–37
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Dixon, K.W., Roche, S. & Pate, J.S. The promotive effect of smoke derived from burnt native vegetation on seed germination of Western Australian plants. Oecologia 101, 185–192 (1995). https://doi.org/10.1007/BF00317282
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00317282