[1] Bardsley DK, Sweeney SM. Guiding climate change adaptation within vulnerable natural resource management systems. Environmental Management, 45, 1127-1141(2010).

[2] Bardsley DK, WeberD, Robinson GM et al. Wildfire risk, biodiversity and peri-urban planning in the Mt Lofty Ranges, South Australia. Applied Geography, 63, 155-165(2015).

[3] BickfordS, GellP. Holocene vegetation change, Aboriginal wetland use and the impact of European settlement on the Fleurieu Peninsula, South Australia. The Holocene, 15, 200-215(2005).

[4] BickfordS, GellP, Hancock GJ. Wetland and terrestrial vegetation change since European settlement on the Fleurieu Peninsula, South Australia. The Holocene, 18, 425-436(2008).

[5] BickfordS, MackeyB. Reconstructing pre-impact vegetation cover in modified landscapes using environmental modelling, historical surveys and remnant vegetation data: A case study in the Fleurieu Peninsula, South Australia. Journal of Biogeography, 31, 787-805(2004).

[6] Bradstock RA, Keith DA, Auld TD. 1995. Fire conservation: Imperatives and constraints on managing for diversity. In: Bradstock R A, Auld T D, Keith D A, et al. Conservation biodiversity: Threats and solutions. Chipping Borton: Surrey Beatty and Sons:, 323-333.

[7] Callister KE, Florentine SK, Westbrooke ME. An investigation of the soil seedbank and seed germination of perennial species in Belah (. Casuarina pauper) woodlands in north-west Victoria. Australian Journal of Botany, 66, 202-212(2018).

[8] ClarkeB, RuddD, HarveyN. The ‘sea change’ phenomenon in South Australia. South Australia Geographical Journal, 107, 69-85(2008).

[9] CollierP, GarnettR. Threatened plant translocation case study:. Wrinkled Dollybush), Asteraceae. Australasian Plant Conservation, 26, 21-24(2018).

[10] Corlett RT. Plant diversity in a changing world: Status, trends, and conservation needs. Plant Divers, 38, 10-16(2016).

[11] Crossman ND, Bryan BA, Cooke DA. An invasive plant and climate change threat index for weed risk management: Integrating habitat distribution pattern and dispersal process. Ecological Indicators, 11, 183-198(2011).

[12] Dilcher DL, Christophel DC, Bhagwandin HO et al. Evolution of the. Casuarinaceae: Morphological comparisons of some extant species. American Journal of Botany, 77, 338-355(1990).

[13] Dolan RW, Moore ME, Stephens JD. Documenting effects of urbanization on flora using herbarium records. Journal of Ecology, 99, 1055-1062(2011).

[14] Elzinga CL, Salzer DW, Willoughby JW. Measuring & monitoring plant populations. Denver Colorado: Bureau of. Land Management National Business Center.(1998).

[15] Emery NJ, HillierP, Offord CA. Threatened plant translocation case study:. North Rothbury Persoonia), Proteaceae. Australasian Plant Conservation, 26, 18-21(2018).

[16] Farrel TP, Ashton DH. Population studies on. Acacia melanoxylon R. Br. I. variation in seed and vegetative characteristics. Australian Journal of Botany, 26, 365-379(1978).

[17] FordT. Population change in Adelaide’s Peri-urban region: Patterns, causes and implication. Master diss., University of. Adelaide.(1998).

[18] Fusco DA, McDowell MC, Prideaux GJ. Late-Holocene mammal fauna from southern Australia reveals rapid species declines post-European settlement: Implications for conservation biology. The Holocene, 26, 699-708(2015).

[19] Gaston KJ. Valuing common species. Science, 327, 154-155(2010).

[20] Given DR, Norton DA. A multivariate approach to assessing threat and for priority setting in threatened species conservation. Biological Conservation, 64, 57-66(1993).

[21] Gogol-ProkuratM. Predicting habitat suitability for rare plants at local spatial scales using a species distribution model. Ecological Applications, 21, 33-47(2011).

[22] Guerin GR. Monitoring diversity and tree demography in vegetation communities of the Mount Lofty - Flinders Ranges. The South Australian Naturalist, 91, 56-67(2017).

[23] Guerin GR, BiffinE, BaruchZ et al. Identifying Centres of Plant Biodiversity in South Australia. Plos One, 11, e0144779(2016).

[24] HansenM.J, Clevenger AP. The influence of disturbance and habitat on the presence of non-native plant species along transport corridors. Biological Conservation, 125, 249-259(2005).

[25] Harding CL. 4.3 Threatening processes and management issues. Wetland Inventory for the Fleurieu Peninsula. Harding C L. Adelaide South Australia, National Action Plan for Salinity and Water Quality / Department for Environment &. Heritage.(2005).

[26] Heywooda VH, Iriondo JM. Plant conservation: Old problems, new perspectives. Biological Conservation, 113, 321-335(2003).

[27] JessopJ, Black JM, Toelken HR. Flora of South Australia: Lycopodiaceae-Rosaceae. South Australian Government Printing Division.(1986).

[28] Johnson L AS. Notes on. Casuarinaceae II. Journal of Adelaide Botanic Gardens, 6, 73-87(1982).

[29] KeanJ, BarlowN. Exploring rarity using a general model for distribution and abundance. The American Naturalist, 163, 407-416(2004).

[30] Kricsfalusy VV, TrevisanN. Prioritizing regionally rare plant species for conservation using herbarium data. Biodiversity and Conservation, 23, 39-61(2013).

[31] Ladiges PY, Bayly MJ, NelsonG. Searching for ancestral areas and artifactual centers of origin in biogeography: With comment on east-west patterns across southern Australia. Systematic Biology, 61, 703-708(2012).

[32] LindenmayerD. Small patches make critical contributions to biodiversity conservation. Proceedings of the National Academy of Sciences, 116, 717-719(2019).

[33] Lopez Ortiz MJ, MarceyT, Lucash MS et al. Post-fire management affects species composition but not Douglas-fir regeneration in the Klamath Mountains. Forest Ecology and Management, 432, 1030-1040(2019).

[34] LothianA, HarrisC. Clearance of native vegetation in the Mount Lofty Ranges 1945-68. South Australian Geographical Journal, 113, 29-42(2014).

[35] Lunt ID, Spooner PG. Using historical ecology to understand patterns of biodiversity in fragmented agricultural landscapes. Journal of Biogeography, 32, 1859-1873(2005).

[36] Master LL. Assessing threats and setting priorities for conservation. Conservation Biology, 5, 559-563(1991).

[37] McIntyreS, LavorelS. Predicting richness of native, rare, and exotic plants in response to habitat and disturbance variables across a variegated landscape. Conservation Biology, 8, 521-531(1994).

[38] MorganJ. Have tube stock plantings successfully established populations of rare grassland species into reintroduction sites in western Victoria?. Biological Conservation, 89, 235-243(1999).

[39] Morrison DA. Effects of fire intensity on plant species composition of sandstone communities in the Sydney region. Austral Ecology, 27, 433-441(2002).

[40] MotzkinG, WilsonP, Foster DR et al. Vegetation patterns in heterogeneous landscapes: The importance of history and environment. Journal of Vegetation Science, 10, 903-920(1999).

[41] NualartN, Ibá?ezN, SorianoI et al. Assessing the relevance of herbarium collections as tools for conservation biology. The Botanical Review, 83, 303-325(2017).

[42] Ottewell KM, Bickerton DC, ByrneM et al. Bridging the gap: A genetic assessment framework for population-level threatened plant conservation prioritisation and decision-making. Diversity and Distributions, 22, 174-188(2016).

[43] Pannell JR, Myerscough PJ. Canopy-stored seed banks of. Allocasuarina distyla and A. nana in relation to time since fire. Australian Journal of Botany, 41, 1-9(1993).

[44] PatonP, CromptonJ. Birds of the hundred of Encounter Bay listed by John W Crompton from 1909 to 1925. South Australian Ornithologist, 39, 18-35(2013).

[45] Pilgrim ES, Crawley MJ, DolphinK. Patterns of rarity in the native British flora. Biological Conservation, 120, 161-170(2004).

[46] Pressey RL, Nicholls AO. Efficiency in conservation evaluation: Scoring versus iterative approaches. Biological Conservation, 50, 199-218(1989).

[47] QuarmbyJ. Action plan for mount compass oak--Bush (Allocasuarina robusta). Department of Environment and Natural Resources, Stirling (Cleland Conservation Park), Adelaide & Mount Lofty Ranges Natural Resource Management Board.(2011).

[48] ReuterD. The South Australian superphosphate story - Part I. Agricultural Science, 1, 23-33(2012).

[49] Rivers MC, TaylorL, Brummitt NA et al. How many herbarium specimens are needed to detect threatened species?. Biological Conservation, 144, 2541-2547(2011).

[50] Roxburgh SH, SheaK, Wilson JB. The intermediate disturbance hypothesis: Patch dynamics and mechanisms of species coexistence. Ecology, 85, 359-371(2004).

[51] SalzerD, SalafskyN. Allocating Resources Between Taking Action, Assessing Status, and Measuring Effectiveness of Conservation Actions. Natural Areas Journal, 26, 310-316(2006).

[52] Spooner PG, Lunt ID. The influence of land-use history on roadside conservation values in an Australian agricultural landscape. Australian Journal of Botany, 52, 445-458(2004).

[53] Steane DA, Wilson KL, Hill RS. Using matK sequence data to unravel the phylogeny of Casuarinaceae. Molecular Phylogenetics and Evolution, 28, 47-59(2003).

[54] Stenhouse RN. Assessing disturbance and vegetation condition in urban bushlands. Australasian Journal of Environmental Management, 12, 16-26(2005).

[55] Swamy B GL. A contribution to the life history of Casuarina. Proceedings of the American Academy of Arts and Sciences, 77(1): 3-, 27, 29-32(1948).

[56] Swetnam TW, Allen CD, Betancourt JL. Applied historical ecology: Using the past to manage for the future. Ecological Applications, 9, 1189-1206(1999).

[57] TurnbullJ. Historical GIS - Examples from the Creswick Goldfields. Geospatial science research,. CEUR workshop proceedings, 2, 37-46(2012).

[58] ViolleC, ThuillerW, MouquetN et al. Functional rarity: The ecology of outliers. Trends of Ecology and Evolution, 32, 356-367(2017).

[59] Williams JN, SeoC, ThorneJ et al. Using species distribution models to predict new occurrences for rare plants. Diversity and Distributions, 15, 565-576(2009).

[60] Willis CG, Ellwood ER, Primack RB et al. Old plants, new tricks: Phenological research using herbarium specimens. Trends of Ecology and Evolution, 32, 531-546(2017).

[61] WillsonA, BignallJ. 2009. Regional recovery plan for threatened species and ecological communities of the Adelaide and the Mount Lofty Ranges South Australia. South Australian Government Department for Environment and Heritage.. http://www.environment.gov.au/biodiversity

[62] WilsonK. Johnson L A S. 1989. Casuarinaceae. In: Robertson R et al., eds. Flora of Australia, George A S. Canberra ACT Australia, Australian Government Printing Service:, 3, 100-174.