The impact of feral pigs (Sus scrofa) on an Australian lowland tropical rainforest

Article

<< Previous

Next >>

Contents Vol 38(5)

doi:10.1071/WR08138

Ecology, Management and Conservation in Natural and Modified Habitats

	Search




	Advanced Search



	Journal Home

	About the Journal

	Editorial Board

	Contacts



	Content

	Online Early

	Current Issue

	Just Accepted

	All Issues

	Special Issues

	Sample Issue



	For Authors

	General Information

	Notice to Authors

	Submit Article

	Open Access



	For Referees

	General Information

	Review Article

	Referee Guidelines

	Annual Referee Index



	For Subscribers

	Subscription Prices

	Customer Service

	Print Publication Dates

e-Alerts

Subscribe to our Email Alert or

feeds for the latest journal papers.

Connect with us

The impact of feral pigs (Sus scrofa) on an Australian lowland tropical rainforest

D. L. Taylor ^A, L. K.-P. Leung ^A ^D and I. J. Gordon ^B ^C

^A School of Animal Studies, University of Queensland, Gatton, Qld 4343, Australia.
^B Sustainable Ecosystems, CSIRO, Davies Laboratory, PMB PO, Aitkenvale, Qld 4814, Australia.
^C Present address: The James Hutton Institute, Invergowrie, Dundee, DD2 5DA, UK.
^D Corresponding author. Email: luke.leung@uq.edu.au

Wildlife Research 38(5) 437-445 http://dx.doi.org/10.1071/WR08138
Submitted: 26 September 2009 Accepted: 8 March 2011 Published: 12 October 2011





	PDF (763 KB) $25



	Export Citation

Print

Abstract

Context: Feral pigs are thought to damage tropical rainforests, but long-term impact has not yet been quantified.

Aims: This study aimed to determine the impact of feral pigs on soil, soil biota and vegetation in a lowland tropical rainforest in Daintree, north-eastern Australia, and the recovery following exclusion of feral pigs for 12 years.

Methods: Three types of plots were established in 1994: damaged plots were fenced in areas where severe damage had already occurred (‘fenced damaged’); undamaged plots were fenced in areas showing no evidence of damage (‘fenced undamaged’); and unfenced plots were randomly placed and remained at risk of damage (‘unfenced’).

Key results: In 2006, feral pigs had caused significant declines in seedling density, soil macroinvertebrate density and leaf litter cover, but not in soil pH, soil conductivity, invertebrate diversity, vegetation diversity, tree density, canopy cover or fallen log cover. Mean seedling density was lower in the fenced damaged plots than the fenced undamaged plots in 1994 but not in 2006. Other response variables also did not differ significantly between these two plot types, indicating that any damage caused by feral pigs to soil, soil biota or vegetation before 1994 was fully recovered within 12 years.

Conclusions: Our findings suggest that reductions in soil invertebrate density, seedling density, and leaf litter cover should be monitored regularly to inform feral pig management programs, and that these variables should be measured for objective assessment of the outcome of any feral pig control program. These declines may continue and be translated into the decline of trees and other keystone species or processes into the future.

Implications: The efficacy of feral pig control programs can be assessed using the quantitative analysis of the aforementioned variables. The results of such monitoring programs, in conjunction with baseline data, can provide an indication of ecosystem recovery and therefore the level of success achieved by the applied control measures.

References

Alexiou, P. N. (1983). Effect of feral pigs (Sus scrofa) on subalpine vegetation at Smokers Gap, ACT. Proceedings of the Ecological Society of Australia 12, 135–142.

Arrington, D. A., Toth, L. A., and Koebel, J. W. (1999). Effects of rooting by feral hogs Sus scrofa L. on the structure of a floodplain vegetation assemblage. Wetlands 19, 535–544.
| CrossRef |

Beckmann, R., and Davidson, S. (1990). The pig problem. Ecos 65, 20–22.

Bowman, D. M. J. S., and McDonough, L. (1991). Feral pig (Sus scrofa) rooting in a monsoon forest–wetland transition, northern Australia. Wildlife Research 18, 761–765.
| CrossRef |

Brady, N. C., and Weil, R. R. (2000). ‘Elements of the Nature and Properties of Soils.’ (Prentice Hall: Englewood Cliffs, NJ.)

Bratton, S. P. (1975). The effect of the European wild boar, Sus scrofa, on gray beech forest in the Great Smoky Mountains. Ecology 56, 1356–1366.
| CrossRef |

Bruenig, E. F. (1996). ‘Conservation and Management of Tropical Rainforests – an Integrated Approach to Sustainability.’ (CAB International: Hamburg, Germany.)

Bruinderink, G. W. T. A. G., and Hazebroek, E. (1996). Wild boar (Sus scrofa scrofa L.) rooting and forest regeneration on podzolic soils in the Netherlands. Forest Ecology and Management 88, 71–80.
| CrossRef |

Challies, C. N. (1975). Feral pigs (Sus scrofa) on Auckland Island: status and effects on vegetation and nesting sea birds. New Zealand Journal of Zoology 2, 479–490.
| CrossRef |

Chazdon, R. L. (2003). Tropical forest recovery: legacies of human impact and natural disturbances. Perspectives in Plant Ecology, Evolution and Systematics 6, 51–71.
| CrossRef |

CSIRO Division of Entomology (1991). ‘The Insects of Australia – a textbook for students and researchers.’ (Melbourne University Press: Melbourne.)

Frith, H. J. (1979). ‘Wildlife Conservation.’ (Angus and Robertson Publishers: Sydney.)

Grainger, A. (1980). The status of the world’s tropical forests. The Ecologist 10, 6–54.

Heyer, W. R., and Berven, K. A. (1973). Species diversities of herpetofaunal samples from similar microhabitats at two tropical sites. Ecology 54, 642–645.
| CrossRef |

Hobbs, R. J., and Huenneke, L. F. (1992). Disturbance, diversity, and invasion: implications for conservation. Conservation Biology 6, 324–337.
| CrossRef |

Hone, J. (1988). Feral pig rooting in a mountain forest and woodland: distribution, abundance and relationships with environmental variables. Australian Journal of Ecology 13, 393–400.
| CrossRef |

Hyland, B. P. M., Whiffin, T., Christophel, D. C., Gray, B., and Blick, R. W. (2003). ‘Australian Tropical Rainforest Plants, Trees, Shrubs and Vines.’ (CSIRO Publishing: Melbourne.)

Ickes, K., DeWalt, S. J., and Appanah, S. (2001). Effects of native pigs (Sus scrofa) on the understory vegetation in a Malaysian lowland rain forest: an exclosure study. Journal of Tropical Ecology 17, 191–206.
| CrossRef |

Ickes, K., Paciorek, C. J., and Thomas, S. C. (2005). Impacts of nest construction by native pigs (Sus scrofa) on lowland Malaysian rain forest saplings. Ecology 86, 1540–1547.
| CrossRef |

Jones, R. E., and Kitching, R. (1991). Biological inventory. In ‘Tropical Rainforest Research in Australia – Present Status and Future Directions for the Institute for Tropical Rainforest Studies, Proceedings of a Workshop Held in Townsville, Australia, 4–6 May 1990’. (Eds N. Goudberg, M. Bonell and D. Benzaken.) (Institute for Tropical Rainforest Studies: Townsville.)

Keto, A., and Scott, K. (1986). ‘Tropical Rainforests of North Queensland, Their Conservation Significance – a Report to the Australian Heritage Commission by the Rainforest Conservation Society of Queensland.’ (Rainforest Conservation Society of Queensland: Canberra.)

Kitayama, K., Suzuki, S., Hori, M., Takyu, M., Aiba, S., Majalap-Lee, N., and Kikuzawa, K. (2004). On the relationships between leaf-litter lignin and net primary productivity in tropical rain forests. Oecologica 140, 335–339.
| CrossRef |

Laurance, W., and Harrington, G. N. (1997). Ecological associations of feeding sites of feral pigs in the Queensland wet tropics. Wildlife Research 24, 579–590.
| CrossRef |

Metcalfe, D. J., and Ford, A. J. (2009). A re-evaluation of Queensland’s wet tropics based on primitive plants. Pacific Conservation Biology 15, 80–86.

Mitchell, J., and Mayer, R. (1997). Diggings by feral pigs within the wet tropics World Heritage area of north Queensland. Wildlife Research 24, 591–601.
| CrossRef |

Mitchell, J. (2002). ‘Ecology and management of feral pigs (Sus scrofa) in rainforests.’ PhD Thesis. (James Cook University: Townsville, Qld, Australia.)

Mitchell, J., Dorney, W., Mayer, R., and McIlroy, J. (2007). Ecological impacts of feral pig diggings in north Queensland rainforests. Wildlife Research 34, 603–608.

Noble, A. D., Gillman, G. P., Nath, S., and Srivastava, R. J. (2001). Changes in the surface charge characteristics of degraded soils in the wet tropics through the addition of beneficiated bentonite. Australian Journal of Soil Research 39, 991–1001.
| CrossRef | CAS |

Pavlov, P. M. (1995). ‘Cape Tribulation Feral Pig Study.’ (Department of Environment and Heritage: Australia.)

Pavlov, P. M., Crome, F. H. J., and Moore, L. A. (1992). Feral pigs, rainforest conservation and exotic disease in north Queensland. Wildlife Research 19, 179–193.
| CrossRef |

Pavlov, P. M., and Edwards, P. C. (1995). Feral pig ecology in Cape Tribulation National Park, north Queensland, Australia. Journal of Mountain Ecology 3, 148–151.

Raven, R., Baehr, B., and Harvey, M. (2002). ‘Spiders of Australia – Interactive Identification to Subfamily.’ (ABRS: Brisbane, Australia.)

Rayment, G. E., and Higginson, F. R. (1992). ‘Australian Laboratory Handbook of Soil and Water Chemical Methods.’ (Inkata Press: Sydney.)

Scott, N. J. (1976). The abundance and diversity of the herpetofaunas of tropical forest litter. Biotropica 8, 41–58.
| CrossRef |

Singer, F. J., Swank, W. T., and Clebsch, E. E. C. (1984). Effects of wild pig rooting in a deciduous forest. The Journal of Wildlife Management 48, 464–473.
| CrossRef | CAS |

Stocker, G. C., Unwin, G. L., and West, P. W. (1985). Measures of richness, evenness and diversity in tropical rainforest. Australian Journal of Botany 33, 131–137.
| CrossRef |

Sundarapandian, S. M., and Swamy, P. S. (1999). Litter production and leaf-litter decomposition of selected tree species in tropical forests at Kodayar in the Western Ghats, India. Forest Ecology and Management 123, 231–244.
| CrossRef |

Webb, L. J., and Tracey, J. G. (1981). Australian rainforests: patterns and change. In ‘Ecological Biogeography of Australia’. (Ed. A. Keast.) pp. 607–694. (W. Junk: The Hague, Netherlands.)

Williams, S. E., Isaac, J. L., Graham, C., and Moritz, C. M. (2008). Towards an understanding of vertebrate biodiversity in the Australian wet tropics. In ‘Living in a Dynamic Tropical Forest Landscape’. (Eds N. Stork and S. Turton.) pp. 133–149. (Blackwell Publishing: Oxford.)

Williams, S. E. (2006). ‘Vertebrates of the Wet Tropics Rainforests of Australia: Species Distributions and Biodiversity.’ (Cooperative Research Centre for Tropical Rainforest Ecology and Management: Cairns, Australia.)

Yamamura, K. (1999). Transformation using (x + 0.5) to stabilize the variance of populations. Researches on Population Ecology 41, 229–234.
| CrossRef |

Yeates, D. K., and Monteith, G. B. M. (2007). The invertebrate fauna of the wet tropics: diversity, endemism and relationships. In ‘Living in a Dynamic Tropical Forest Landscape’. (Eds N. Stork and S. Turton.) pp. 178–191. (Blackwells Publishing: Oxford.)

Zar, J. H. (1999). ‘Biostatistical Analysis (4th edn).’ (Prentice Hall: Englewood Cliffs, NJ.)

Subscriber Login

	Username: Password:

Legal & Privacy | Contact Us | Help