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

Determining the factors affecting seed germination in Livistona australis (Arecaceae) for the recovery of fragmented populations

Nicholas Carlile A C , David Priddel A , Tony D. Auld A and David A. Morrison B
+ Author Affiliations
- Author Affiliations

A Office of Environment and Heritage, PO Box 1967, Hurstville, NSW 2220, Australia.

B Swedish University of Agricultural Sciences, SE-751 89 Uppsala, Sweden.

C Corresponding author. Email: nicholas.carlile@environment.nsw.gov.au

Australian Journal of Botany 60(7) 575-581 https://doi.org/10.1071/BT12056
Submitted: 2 March 2012  Accepted: 27 July 2012   Published: 20 September 2012

Abstract

Understanding seed germination and seedling recruitment is important for managing long-lived plant species, particularly palms that are transplanted from the wild and where regeneration is suppressed by seed predators and exotic herbivores. Seed viability, the timing of germination, and the factors influencing germination were investigated for the cabbage tree palm, Livistona australis (R.Br.) Mart. Greenhouse studies were combined with in situ experiments conducted on the Australian mainland and on a nearby mammal-free island. Under greenhouse conditions, >90% of seed germinated within 4 months. In the field, burial rather than surface sowing of seed increased germination success. Seed without mesocarp and in sunlight had increased germination when compared with fruits in shade on the island, whereas neither presence/absence of mesocarp or light levels had any effect on the mainland. Germination success was substantially lower on the mainland, primarily because of high seed predation from the native bush rat, Rattus fuscipes. When caged to exclude vertebrates, 44% of seed were damaged over time by pathogens and invertebrates, with losses greater in sunlight than in shade. Results from the present study indicate that freshly buried seed with the mesocarp removed would have the greatest potential success in promoting the restoration of L. australis at degraded sites.


References

Agil MR, Jurado E, Sánchez-Ramos G, Trejo-Hernández L, Rios FL (2000) Rapid viability loss in seeds of palmilla (Chamaedorea radicalis Mart.) from el Cielo Biosphere Reserve. The Southwestern Naturalist 45, 373–375.
Rapid viability loss in seeds of palmilla (Chamaedorea radicalis Mart.) from el Cielo Biosphere Reserve.Crossref | GoogleScholarGoogle Scholar |

Anonymous (1999) ‘Palms may grow again’. St George & Sutherland Shire Leader, Hurstville.

Asmussen-Lange CB, Maunder M, Fay MF (2011) Conservation genetics of the critically endangered Round Island bottle palm, Hyophorbe lagenicaulis (Arecaceae): can cultivated stocks supplement a residual wild population? Botanical Journal of the Linnean Society 167, 301–310.
Conservation genetics of the critically endangered Round Island bottle palm, Hyophorbe lagenicaulis (Arecaceae): can cultivated stocks supplement a residual wild population?Crossref | GoogleScholarGoogle Scholar |

Augspurger CK (1979) Irregular rain cues and the germination and seedling survival of a Panamanian shrub (Hybanthus prunifolius). Oecologia 44, 53–59.
Irregular rain cues and the germination and seedling survival of a Panamanian shrub (Hybanthus prunifolius).Crossref | GoogleScholarGoogle Scholar |

Augspurger CK (1990) The potential impact of fungal pathogens on tropical plant reproductive biology. In ‘Reproductive ecology of tropical forest plants’. (Eds KS Bawa, M Hadley) pp. 237–245. (The Parthenon Publishing Group: Paris)

Auld TD, Hutton I, Ooi MKJ, Denham AJ (2010) Disruption of recruitment in two endemic palms on Lord Howe Island by invasive rats. Biological Invasions 12, 3351–3361.
Disruption of recruitment in two endemic palms on Lord Howe Island by invasive rats.Crossref | GoogleScholarGoogle Scholar |

Ballardie RT, Whelan RJ (1986) Masting, seed dispersal and seed predation in the cycad Macrozamia communis. Oecologia 70, 100–105.
Masting, seed dispersal and seed predation in the cycad Macrozamia communis.Crossref | GoogleScholarGoogle Scholar |

Baskin CC, Baskin JM (1998) ‘Seeds: ecology, biogeography, and evolution of dormancy and germination.’ (Academic Press: San Diego, CA)

Beard KH, Vogt KA, Vogt DJ, Scatena FN, Covich AP, Sigurdardotti R, Siccama TG, Crowl TA (2005) Structural and functional responses of a subtropical forest to 10 years of hurricanes and droughts. Ecological Monographs 75, 345–361.
Structural and functional responses of a subtropical forest to 10 years of hurricanes and droughts.Crossref | GoogleScholarGoogle Scholar |

Billing J (1999) ‘The management of introduced rodents on Lord Howe Island.’ (Lord Howe Island Board: Lord Howe Island)

Brewer SW, Webb MAH (2001) Ignorant seed predators and factors affecting the survival of a tropical palm. Oikos 93, 32–41.
Ignorant seed predators and factors affecting the survival of a tropical palm.Crossref | GoogleScholarGoogle Scholar |

Brown KE (1976) Ecological studies of the cabbage palm Sabal palmetto. III. Seed germination and seedling establishment. Principes 20, 98–115.

Carlile N (2002) Demography of the cabbage tree palm Livistona australis. MSc Thesis, University of Technology, Sydney.

Carlile N, Priddel D (2009) Mortality of adult Livistona australis on Cabbage Tree Island, Australia. Palms 53, 46–50.

Clancy KE, Sullivan MJ (1988) Some observations on seed germination, the seedling, and polyembryony in the needle palm Rhapidophyllum hystrix. Principes 32, 18–25.

Dowe JL (2010) ‘Australian palms: biogeography, ecology and systematics.’ (CSIRO Publishing: Melbourne)

Eriksson O, Ehrlen J (1992) Seed and microsite limitation of recruitment in plant populations. Oecologica 91, 360–364.
Seed and microsite limitation of recruitment in plant populations.Crossref | GoogleScholarGoogle Scholar |

Everham EM, Myster RW, Vandergenachte E (1996) Effects of light, moisture, temperature and litter on the regeneration of five tree species in the tropical montane wet forest of Puerto Rico. American Journal of Botany 83, 1063–1068.
Effects of light, moisture, temperature and litter on the regeneration of five tree species in the tropical montane wet forest of Puerto Rico.Crossref | GoogleScholarGoogle Scholar |

Figueroa JA (2003) Seed germination in temperate rainforest species of southern Chile: chilling and gap-dependency germination. Plant Ecology 166, 227–240.
Seed germination in temperate rainforest species of southern Chile: chilling and gap-dependency germination.Crossref | GoogleScholarGoogle Scholar |

Floyd AG (1989) ‘Rainforest trees of mainland south-eastern Australia.’ (Inkata Press: Melbourne)

Floyd AG (1990) ‘Australian Rainforests in New South Wales. Vol 2.’ (Surrey Beatty: Sydney)

Forget PM, Munoz E, Leigh EG (1994) Predation by rodents and Bruchid beetles on seeds of Scheelea palms on Barro Colorado Island, Panama. Biotropica 26, 420–426.
Predation by rodents and Bruchid beetles on seeds of Scheelea palms on Barro Colorado Island, Panama.Crossref | GoogleScholarGoogle Scholar |

Forget PM, Milleron T (1991) Evidence for secondary seed dispersal by rodents in Panama. Oecologia 87, 596–599.
Evidence for secondary seed dispersal by rodents in Panama.Crossref | GoogleScholarGoogle Scholar |

Foster SA (1986) On the adaptive value of large seeds for tropical moist forest trees: a review and synthesis. Botanical Review 52, 260–299.
On the adaptive value of large seeds for tropical moist forest trees: a review and synthesis.Crossref | GoogleScholarGoogle Scholar |

Fox J, Dixon B, Monk D (1987) Germination in other plant families. In ‘Germination of Australian native plant seed’. (Ed. P Langkamp) pp. 211–233. (Inkata Press: Melbourne)

Fullagar PJ (1976) Seabird islands no. 35: Cabbage Tree Island, New South Wales. Australian Bird Bander 14, 94–97.

Higgins PJ, Peter JM, Cowling SJ (2006) Strepera graculina Pied Currawong. In ‘Handbook of Australian, New Zealand and Antarctic birds. Vol 7’. (Eds PJ Higgins, JM Peter, SJ Cowling) pp. 529–563. (Oxford University Press: Melbourne)

Hindwood KA, Serventy DL (1943) The Gould petrel of Cabbage Tree Island. Emu 72, 273–329.

Hull AFB (1911) Description of the nest and egg of white-winged petrel Estrelata leucoptera, Gould. Emu 10, 252–253.
Description of the nest and egg of white-winged petrel Estrelata leucoptera, Gould.Crossref | GoogleScholarGoogle Scholar |

Jakobasch E (1981) Some notes on two native palms of south-eastern Australia. Principes 25, 130–132.

Keith DA (2004) ‘Ocean shores to desert dunes: the native vegetation of New South Wales and the ACT.’ (NSW Department of Environment and Conservation: Sydney)

Marchant S, Higgins PJ (1993) Alectura lathami Australian brush-turkey. In ‘Handbook of Australian, New Zealand and Antarctic birds. Vol. 2’. (Eds S Marchant, PJ Higgins) pp. 341–353. (Oxford University Press: Melbourne)

Merton D (1987) Eradication of rabbits from Round Island Mauritius: a conservation success story. Dodo 24, 19–43.

NSW Scientific Committee (2004) Swamp sclerophyll forest on coastal floodplains endangered ecological listing. Office of Environment and Heritage. Available at http://www.environment.nsw.gov.au/determinations/SwampSchlerophyllEndSpListing.htm [Verified 20 February 2011]

Orozco-Segovia A, Batis AI, Rojas-Aréchiga M, Mendoza A (2003) Seed biology of palms: a review. Palms 47, 79–94.

Orscheg CK, Parsons RF (1996) Ecology of Livistona australis (R.Br.) Martius (Arecaceae) at its southern limit, south-eastern Australia. Part II. Phenology, germination, herbivory, regeneration and fire effects. Mooreana 6, 36–50.

Priddel D, Carlile N (1995a) Mortality of adult Gould’s petrel Pterodroma leucoptera at the nesting site on Cabbage Tree Island, New South Wales. Emu 95, 259–264.
Mortality of adult Gould’s petrel Pterodroma leucoptera at the nesting site on Cabbage Tree Island, New South Wales.Crossref | GoogleScholarGoogle Scholar |

Priddel D, Carlile N (1995b) An artificial nest box for burrow-nesting seabirds. Emu 95, 290–293.
An artificial nest box for burrow-nesting seabirds.Crossref | GoogleScholarGoogle Scholar |

Priddel D, Carlile N (1997) Conservation of the endangered Gould’s petrel Pterodroma leucoptera leucoptera. Pacific Conservation Biology 3, 322–329.

Priddel D, Carlile N (2009) Key elements in achieving a successful recovery programme: a discussion illustrated by the Gould’s petrel case study. Ecological Management & Restoration 10, S97–S102.
Key elements in achieving a successful recovery programme: a discussion illustrated by the Gould’s petrel case study.Crossref | GoogleScholarGoogle Scholar |

Priddel D, Carlile N, Wheeler R (2000) Eradication of European rabbits (Oryctolargus cuniculus) from Cabbage Tree Island, NSW Australia, to protect the breeding habitat of Gould’s petrel Pterodroma leucoptera leucoptera. Biological Conservation 94, 115–125.
Eradication of European rabbits (Oryctolargus cuniculus) from Cabbage Tree Island, NSW Australia, to protect the breeding habitat of Gould’s petrel Pterodroma leucoptera leucoptera.Crossref | GoogleScholarGoogle Scholar |

Rodd AN (1998) Revision of Livistona (Arecaceae) in Australia. Telopea 8, 49–153.

Silva MG, Tabarelli DM (2001) Seed dispersal, plant recruitment and spatial distribution of Bactris acanthocarpa Martius (Arecaceae) in a remnant of Atlantic forest in northeast Brazil. Acta Oecologica 22, 259–268.
Seed dispersal, plant recruitment and spatial distribution of Bactris acanthocarpa Martius (Arecaceae) in a remnant of Atlantic forest in northeast Brazil.Crossref | GoogleScholarGoogle Scholar |

Silvertown JW (1982) ‘Introduction to plant population ecology.’ (Longman Press: London)

Smythe N (1989) Seed survival in the palm Astrocaryum standleyanum: evidence for dependence upon its seed dispersers. Biotropica 21, 50–56.
Seed survival in the palm Astrocaryum standleyanum: evidence for dependence upon its seed dispersers.Crossref | GoogleScholarGoogle Scholar |

Svenning J-C (1998) The effect of land-use on the local distribution of palm species in an Andean rain forest fragment in northwestern Ecuador. Biodiversity and Conservation 7, 1529–1537.
The effect of land-use on the local distribution of palm species in an Andean rain forest fragment in northwestern Ecuador.Crossref | GoogleScholarGoogle Scholar |

Triggs B (1996) ‘Tracks, scats and other traces: a field guide to Australian mammals.’ (Oxford University Press: Melbourne)

Underwood AJ (1981) Techniques of analysis of variance in experimental marine biology and ecology. Oceanographic Marine Biology Annual Review 19, 513–605.

Werren GL, Clough AR (1991) Effect of rabbit browsing on littoral rainforest, Cabbage Tree Island, New South Wales – with special reference to the status of the Gould’s petrel. In ‘The rainforest legacy: Australian national rainforests study, vol. 2 – flora and fauna of the rainforests’. (Eds G Werren, P Kershaw) pp. 257–277. (Australian Government Publishing Service: Canberra)

Willson MF, Irvine AK, Walsh NG (1989) Vertebrate dispersal syndromes in some Australian and New Zealand plant communities, with geographical comparisons. Biotropica 21, 133–147.
Vertebrate dispersal syndromes in some Australian and New Zealand plant communities, with geographical comparisons.Crossref | GoogleScholarGoogle Scholar |

Wright SJ, Duber HC (2001) Poachers and forest fragmentation alter seed dispersal, seed survival, and seedling recruitment in the palm Attalea butyraceae, with implications for tropical tree diversity. Biotropica 33, 583–595.