Contemporary fire regimes in a fragmented and an unfragmented landscape: implications for vegetation structure and persistence of the fire-sensitive malleefowl
Blair C. Parsons A B D and Carl R. Gosper A CA CSIRO Ecosystem Sciences, Private Bag 5, Wembley, WA 6913, Australia.
B School of Animal Biology M092, University of Western Australia, 35 Stirling Highway, Crawley, WA 6009, Australia.
C Science Division, Department of Environment and Conservation, Locked Bag 104, Bentley Delivery Centre, WA 6983, Australia.
D Corresponding author. Present address: Outback Ecology, 1/71 Troy Terrace, Jolimont, WA 6014, Australia. Email: blair.parsons@outbackecology.com
International Journal of Wildland Fire 20(2) 184-194 https://doi.org/10.1071/WF09099
Submitted: 10 September 2009 Accepted: 16 July 2010 Published: 30 March 2011
Abstract
Habitat fragmentation alters fire regimes by changing the spatial and temporal context in which fire operates, potentially altering ecosystem state and threatening taxa. In the fragmented wheatbelt of Western Australia, spatial patterns of contemporary fire and their effects on biodiversity conservation are poorly understood. We addressed this by: (1) determining if fire regimes differed between vegetation remnants of differing sizes and uncleared vegetation, using analysis of satellite imagery; (2) determining vegetation structural responses to time since fire in three habitats: mallee-shrub, Acacia shrublands and mallee-heath; and (3) exploring the consequences of these differences, using the fire-sensitive malleefowl (Leipoa ocellata) as a case study. Fire was infrequent in small remnants, more frequent in large remnants, and most frequent in uncleared areas. Key vegetation structural attributes for malleefowl, such as canopy and litter cover, increased beyond 45 years post-fire in mallee-shrub, reached a plateau in mallee-heath after 30–40 years, and declined in Acacia shrublands after 25–40 years. Senescence in long-unburnt vegetation, combined with rare contemporary fires, suggest progressive decline in habitat quality of Acacia shrublands for malleefowl in the wheatbelt. In the adjacent, continuously vegetated landscapes, more frequent (and extensive) fires in structurally developing mallee-shrub communities are of concern for malleefowl conservation.
Additional keywords: bird, chronosequence, habitat, remote sensing, senescence.
References
Baker WL (1992) The landscape ecology of large disturbances in the design and management of nature reserves. Landscape Ecology 7, 181–194.| The landscape ecology of large disturbances in the design and management of nature reserves.Crossref | GoogleScholarGoogle Scholar |
Beard JS (1990) ‘Plant Life of Western Australia.’ (Kangaroo Press: Kenthurst, NSW)
Benshemesh J (1990) Management of malleefowl – with regard to fire. In ‘The Mallee Lands – a Conservation Perspective’. (Eds JC Noble, PJ Joss, GK Jones) pp. 206–211. (CSIRO Publishing: Melbourne)
Benshemesh J (1992) The conservation ecology of malleefowl with particular regard to fire. PhD thesis, Monash University, Melbourne.
Benshemesh J (2007) ‘National Recovery Plan for Malleefowl Leipoa ocellata.’ (SA Department for Environment and Heritage: Adelaide, SA)
Bond WJ, van Wilgen BW (1996) ‘Fire and Plants.’ (Chapman and Hall: London)
Bond WJ, Woodward FI, Midgley GF (2005) The global distribution of ecosystems in a world without fire. New Phytologist 165, 525–538.
| The global distribution of ecosystems in a world without fire.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD2M%2Fpt1OktQ%3D%3D&md5=b175ada0572066ceb07cc6834cd7bd56CAS | 15720663PubMed |
Burgman MA, Keith D, Hopper SD, Widyatmoko D, Drill C (2007) Threat syndromes and conservation of the Australian flora. Biological Conservation 134, 73–82.
| Threat syndromes and conservation of the Australian flora.Crossref | GoogleScholarGoogle Scholar |
Burrows N, Abbott I (2003) Fire in south-west Western Australia: synthesis of current knowledge, management implications and new research directions. In ‘Fire in Ecosystems of South-west Western Australia: Impacts and Management’. (Eds I Abbott, ND Burrows) pp. 437–452. (Backhuys Publishers: Leiden)
Burrows ND, McCaw WL, Maisey KG (1987) Planning for fire management in Dryandra forest. In ‘Nature Conservation: the Role of Remnants of Native Vegetation’. (Eds DA Saunders, GW Arnold, AA Burbidge, AJM Hopkins) pp. 305–312. (Surrey Beatty and Sons: Sydney)
Burvill GH (1979). ‘Agriculture in Western Australia 1829–1979.’ (UWA Press: Perth, WA)
Caccetta PA, Allen A, Watson I (2000) The Land Monitor Project. In ‘Proceedings of the Tenth Australasian Remote Sensing Conference’, August 2000, Adelaide. pp. 97–107. (Remote Sensing and Photogrammetry Association of Australia: Adelaide)
Carter T (1923) Birds of the Broome Hill district. Emu 23, 125–142.
| Birds of the Broome Hill district.Crossref | GoogleScholarGoogle Scholar |
Clarke MF (2008) Catering for the needs of fauna in fire management: science or just wishful thinking? Wildlife Research 35, 385–394.
| Catering for the needs of fauna in fire management: science or just wishful thinking?Crossref | GoogleScholarGoogle Scholar |
Cullen LE, Grierson PF (2009) Multi-decadal scale variability in autumn–winter rainfall in south-western Australia since 1655 AD as reconstructed from tree rings of Callitris columellaris (Cupressaceae). Climate Dynamics 33, 433–444.
| Multi-decadal scale variability in autumn–winter rainfall in south-western Australia since 1655 AD as reconstructed from tree rings of Callitris columellaris (Cupressaceae).Crossref | GoogleScholarGoogle Scholar |
Fahrig L (2003) Effects of habitat fragmentation on biodiversity. Annual Review of Ecology Evolution and Systematics 34, 487–515.
| Effects of habitat fragmentation on biodiversity.Crossref | GoogleScholarGoogle Scholar |
Ford HA, Barrett GW, Saunders DA, Recher HF (2001) Why have birds in the woodlands of southern Australia declined? Biological Conservation 97, 71–88.
| Why have birds in the woodlands of southern Australia declined?Crossref | GoogleScholarGoogle Scholar |
Gardner CA (1957) The fire factor in relation to the vegetation of Western Australia. Western Australian Naturalist 5, 166–173..
Garnett S, Crowley G (2000) ‘The Action Plan for Australian Birds 2000.’ (Environment Australia: Canberra, ACT)
Gill AM, Williams JE (1996) Fire regimes and biodiversity: the effects of fragmentation of south-eastern Australian eucalypt forests by urbanisation, agriculture and pine plantations. Forest Ecology and Management 85, 261–278.
| Fire regimes and biodiversity: the effects of fragmentation of south-eastern Australian eucalypt forests by urbanisation, agriculture and pine plantations.Crossref | GoogleScholarGoogle Scholar |
Harlen R, Priddel D (1996) Potential food resources available to malleefowl Leipoa ocellata in marginal mallee lands during drought. Australian Journal of Ecology 21, 418–428.
| Potential food resources available to malleefowl Leipoa ocellata in marginal mallee lands during drought.Crossref | GoogleScholarGoogle Scholar |
Hobbs RJ (2003) How fire regimes interact with other forms of ecosystem disturbance and modification. In ‘Fire in Ecosystems of South-west Western Australia: Impacts and Management’. (Eds I Abbott, ND Burrows) pp. 421–436. (Backhuys Publishers: Leiden)
Hobbs RJ, Yates CJ (2003) Impacts of ecosystem fragmentation on plant populations: generalising the idiosyncratic. Australian Journal of Botany 51, 471–488.
| Impacts of ecosystem fragmentation on plant populations: generalising the idiosyncratic.Crossref | GoogleScholarGoogle Scholar |
Hodgkinson KC (2002) Fire regimes in Acacia wooded landscapes: effects on functional processes and biological diversity. In ‘Flammable Australia: the Fire Regimes and Biodiversity of a Continent’. (Eds RA Bradstock, JE Williams, AM Gill) pp. 259–277. (Cambridge University Press: Cambridge, UK)
Hopkins AJM, Robinson CJ (1981) Fire induced structural change in a Western Australian woodland. Australian Journal of Ecology 6, 177–188.
| Fire induced structural change in a Western Australian woodland.Crossref | GoogleScholarGoogle Scholar |
Horton JS, Kraebel CJ (1955) Development of vegetation after fire in the chamise chaparral of southern California. Ecology 36, 244–262.
| Development of vegetation after fire in the chamise chaparral of southern California.Crossref | GoogleScholarGoogle Scholar |
Hurlbert SH (1984) Pseudoreplication and the design of ecological field experiments. Ecological Monographs 54, 187–211.
| Pseudoreplication and the design of ecological field experiments.Crossref | GoogleScholarGoogle Scholar |
IUCN (2008) 2008 IUCN Red List of threatened species. (International Union for Conservation of Nature) Available at www.iucnredlist.org [Verified January 2009]
Kemper J, Cowling RM, Richardson DM (1999) Fragmentation of South African renosterveld shrublands: effects on plant community structure and conservation implications. Biological Conservation 90, 103–111.
| Fragmentation of South African renosterveld shrublands: effects on plant community structure and conservation implications.Crossref | GoogleScholarGoogle Scholar |
Lunt ID (1998) Allocasuarina (Casuarinaceae) invasion of an unburnt coastal woodland at Ocean Grove, Victoria: structural changes 1971–1996. Australian Journal of Botany 46, 649–656.
| Allocasuarina (Casuarinaceae) invasion of an unburnt coastal woodland at Ocean Grove, Victoria: structural changes 1971–1996.Crossref | GoogleScholarGoogle Scholar |
Lyons TJ (2002) Clouds prefer native vegetation. Meteorology and Atmospheric Physics 80, 131–140.
| Clouds prefer native vegetation.Crossref | GoogleScholarGoogle Scholar |
MacArthur RH, MacArthur JW (1961) On bird species diversity. Ecology 42, 594–598.
| On bird species diversity.Crossref | GoogleScholarGoogle Scholar |
Maher KA (2007) Encroachment of sandplain heathland (kwongan) by Allocasuarina huegeliana in the Western Australian wheatbelt: the role of herbivores, fire and other factors. PhD thesis, Murdoch University, Perth.
McCaw L, Hanstrum B (2003) Fire environment of Mediterranean south-west Western Australia. In ‘Fire in Ecosystems of South-west Western Australia: Impacts and Management’. (Eds I Abbott, ND Burrows) pp. 87–106. (Backhuys Publishers: Leiden)
McCaw WL (1997) Predicting fire spread in Western Australian mallee-heath shrubland. PhD thesis, University of New South Wales, Canberra.
Milligan AW (1903) Notes on a trip to the Wongan Hills, Western Australia, with a description of a new Ptilotis. Emu 3, 217–226.
| Notes on a trip to the Wongan Hills, Western Australia, with a description of a new Ptilotis.Crossref | GoogleScholarGoogle Scholar |
National Land and Water Resources Audit (2001) ‘Australian Native Vegetation Assessment 2001.’ (National Land and Water Resources Audit: Canberra, ACT)
Noble IR, Slatyer RO (1980) The use of vital attributes to predict successional changes in plant communities subject to recurrent disturbances. Vegetatio 43, 5–21.
| The use of vital attributes to predict successional changes in plant communities subject to recurrent disturbances.Crossref | GoogleScholarGoogle Scholar |
Noble JC, Smith AW, Leslie HW (1980) Fire in the mallee shrublands of western New South Wales. The Rangeland Journal 2, 104–114.
| Fire in the mallee shrublands of western New South Wales.Crossref | GoogleScholarGoogle Scholar |
O’Donnell AJ, Boer MM, McCaw WL, Grierson PF (2011) Vegetation and landscape connectivity control wildfire intervals in unmanaged semi-arid shrublands and woodlands in Australia. Journal of Biogeography 38, 112–124.
| Vegetation and landscape connectivity control wildfire intervals in unmanaged semi-arid shrublands and woodlands in Australia.Crossref | GoogleScholarGoogle Scholar |
Oksanen L (2001) Logic of experiments in ecology: is pseudoreplication a pseudoissue? Oikos 94, 27–38.
| Logic of experiments in ecology: is pseudoreplication a pseudoissue?Crossref | GoogleScholarGoogle Scholar |
Parsons BC, Short JC, Roberts JD (2008) Contraction in range of malleefowl (Leipoa ocellata) in Western Australia: a comparative assessment using presence-only and presence–absence datasets. Emu 108, 221–231.
| Contraction in range of malleefowl (Leipoa ocellata) in Western Australia: a comparative assessment using presence-only and presence–absence datasets.Crossref | GoogleScholarGoogle Scholar |
Parsons BC, Short JC, Roberts JD (2009) Using community observations to predict the occurrence of malleefowl (Leipoa ocellata) in the Western Australian wheatbelt. Biological Conservation 142, 364–374.
| Using community observations to predict the occurrence of malleefowl (Leipoa ocellata) in the Western Australian wheatbelt.Crossref | GoogleScholarGoogle Scholar |
Priddel D (1989) Conservation of rare fauna: the regent parrot and the malleefowl. In ‘Mediterranean Landscapes in Australia: Mallee Ecosystems and their Management’. (Eds JC Noble, RA Bradstock) pp. 243–249. (CSIRO Publishing: Melbourne)
Priddel D (1990) Conservation of the malleefowl in New South Wales: an experimental management strategy. In ‘The Mallee Lands – a Conservation Perspective’. (Eds JC Noble, PJ Joss, GK Jones) pp. 71–74. (CSIRO Publishing: Melbourne)
Priddel D, Wheeler R, Copley P (2007) Does the integrity or structure of mallee habitat influence the degree of fox predation on malleefowl (Leipoa ocellata)? Emu 107, 100–107.
| Does the integrity or structure of mallee habitat influence the degree of fox predation on malleefowl (Leipoa ocellata)?Crossref | GoogleScholarGoogle Scholar |
Saunders DA, Hobbs RJ, Arnold GW (1993) The Kellerberrin Project on fragmented landscapes: a review of current information. Biological Conservation 64, 185–192.
| The Kellerberrin Project on fragmented landscapes: a review of current information.Crossref | GoogleScholarGoogle Scholar |
Syphard AD, Radeloff VC, Hawbaker TJ, Stewart SI (2009) Conservation threats due to human-caused increases in fire frequency in Mediterranean-climate ecosystems. Conservation Biology 23, 758–769.
| Conservation threats due to human-caused increases in fire frequency in Mediterranean-climate ecosystems.Crossref | GoogleScholarGoogle Scholar |
Tabarelli M, Gascon C (2005) Lessons from fragmentation research: improving management and policy guidelines for biodiversity conservation. Conservation Biology 19, 734–739.
| Lessons from fragmentation research: improving management and policy guidelines for biodiversity conservation.Crossref | GoogleScholarGoogle Scholar |
Verdú M, Pausas JG (2007) Fire drives phylogenetic clustering in Mediterranean Basin woody plant communities. Journal of Ecology 95, 1316–1323.
| Fire drives phylogenetic clustering in Mediterranean Basin woody plant communities.Crossref | GoogleScholarGoogle Scholar |
Yates CJ, Broadhurst LM (2002) Assessing limitations on population growth in two critically endangered Acacia taxa. Biological Conservation 108, 13–26.
| Assessing limitations on population growth in two critically endangered Acacia taxa.Crossref | GoogleScholarGoogle Scholar |