Banksia aemula

Wallum banksia
looking down at some yellow flowerheads among foliage on an overcast day
B. aemula, Wybung Head
Lake Munmorah
Scientific classification
Kingdom: Plantae
(unranked): Angiosperms
(unranked): Eudicots
Order: Proteales
Family: Proteaceae
Genus: Banksia
Species: B. aemula
Binomial name
Banksia aemula
R.Br.
Synonyms

Banksia elatior R.Br.

Banksia aemula, commonly known as the wallum banksia, is a shrub of the family Proteaceae. Found from Bundaberg south to Sydney on the Australian east coast, it is encountered as a shrub or a tree to 8 m (26 ft) in coastal heath on deep sandy soil, known as Wallum. It has wrinkled orange bark and shiny green serrated leaves, with green-yellow flower spikes, known as inflorescences, appearing in autumn. The flower spikes turn grey as they age and large grey follicles appear. Banksia aemula resprouts from its woody base, known as a lignotuber, after bushfires.

First described by the botanist Robert Brown in the early 19th century, it derives its specific name "similar" from its resemblance to the closely related Banksia serrata. No varieties are recognised. It was known for many years in New South Wales as Banksia serratifolia, contrasting with the use of B. aemula elsewhere. However, the former name, originally coined by Richard Anthony Salisbury, proved invalid, and Banksia aemula has been universally adopted as the correct scientific name since 1981. A wide array of mammals, birds, and invertebrates visit the inflorescences and are instrumental in pollination; honeyeaters are particularly prominent visitors. Grown as a garden plant, it is less commonly seen in horticulture than its close relative B. serrata.

Description

Grey spike in foreground on left with three huge seed pods. An ageing flowerhead in background turning brown.
B. aemula, showing large follicles, Cranbourne Annexe, RBG Melbourne Oct 2003

Banksia aemula is generally a gnarled shrub or small tree to 8 m (26 ft), although usually smaller.[1] Conversely, individual wallum banksias have been measured at 8.3–12.1 m (27–40 ft) high, with a maximum diameter at breast height of 44 cm (17 in) in forest on North Stradbroke Island.[2] The trunk has thick orange-brown wrinkled and warty bark, and the new growth is hairy but becomes smooth as it ages.[1] New shoot growth is in spring and summer.[3] The shiny green leaves are obovate to oblong in shape and measure 3–22 cm (1 148 34 in) in length, and 1–2 cm (1234 in) in width. The leaf ends are truncate and the margins flat and serrated. Flowering is in autumn, from March to June; the green-yellow flower spikes, known as inflorescences, are terminal, found on the ends of branches and emerging from the foliage. Measuring 4 to 20 cm (1 12 to 8 in) in height and 8 to 9 cm (3 14 to 3 12 in) in width, they are various shades of pale and greenish yellow.[1] Anywhere from 800 to 1700 individual small flowers arise from a central woody spike (or rachis). Initially tipped with white conical pollen presenters, the flowers open sequentially from the bottom to the top of the flower spike over one to two weeks,[4] in a process known as sequential anthesis. Each flower produces nectar for around seven days after opening.[5] The flower spikes turn grey as they age and up to 25 finely furred grey follicles appear, which can be very large, measuring 3–4.5 cm (1 141 34 in) long, 2–3.5 cm (341 12 in) high, and 2–3.5 cm (341 12 in) wide. They split open either after bushfire or spontaneously, and release oval seeds 4–4.7 cm (1 121 34 in) in length, composed of a wedge-shaped body 1–1.5 cm (3858 in) long and 1.1–1.6 cm (3858 in) wide, and curved wing 2–3.2 cm (341 14 in) wide. Banksia aemula resprouts from its woody lignotuber after fire.[1]

B. aemula closely resembles Banksia serrata, but the latter can be distinguished by a greyer, not orange-brown, trunk, and adult leaves wider than 2 cm (34 in) in diameter. Inflorescences of serrata are generally a duller grey-yellow in colour, and have longer (23 mm), more fusiform (spindle-shaped) or cylindrical pollen presenters tipping unopened flowers.[6][7] Finally, the follicles are smaller.[8]

Taxonomy

A green-yellow cylindrical flower spike is made up of many small flowers. The flowers are unopened and tipped with conical swellings
Inflorescence in late bud, showing more conical pollen presenters on the tips of the styles

Banksia aemula was called wallum by the Kabi people of the Sunshine Coast, giving rise not only to its common name of wallum banksia but also to the name of the ecological community it grows in.[9] Frederick Manson Bailey reported in 1913 that the indigenous people of Stradbroke Island knew it as mintie.[10] Banyalla is another aboriginal name for the species.[8]

Banksia aemula was collected by Scottish botanist Robert Brown in June 1801 in the vicinity of Port Jackson, and published by him in his 1810 work Prodromus Florae Novae Hollandiae et Insulae Van Diemen. The specific name, Latin for "similar", refers to its similarity to B. serrata.[8] Brown also collected a taller tree-like specimen from Sandy Cape which he called Banksia elatior; the specific name is the comparative form of the Latin adjective ēlātus "elevated".[11][12]

For many years in New South Wales, the wallum banksia had gone by the scientific name of Banksia serratifolia. Richard Anthony Salisbury had published this binomial name in 1796, which was followed by Otto Kuntze, and then Karel Domin in 1921. Botanist and banksia authority Alex George conclusively established aemula as the correct name to be used in his 1981 revision of the genus. He pointed out that Salisbury's original described the leaves only, was insufficient to diagnose the species and is hence a nomen dubium—the description could have fit juvenile leaves of B. paludosa as well. In fact, Brown himself had been unsure whether serratifolia applied to what he called Banksia aemula. Salisbury's taxon appeared as Banksia serraefolia in Knight's 1809 work On the cultivation of the plants belonging to the natural order of Proteeae, but that entry might also refer to serrata.[1] Where Salisbury got his material is unclear, but John White had sent material to James Edward Smith now held in the Linnean Society marked as B. serratifolia Salisb. as well as B. aemula R.Br.[13]

Under Brown's taxonomic arrangement, B. aemula and B. elatior were placed in subgenus Banksia verae, the "True Banksias", because the inflorescence is a typical Banksia flower spike. Banksia verae was renamed Eubanksia by Stephan Endlicher in 1847, and demoted to sectional rank by Carl Meissner in his 1856 classification. Meissner further divided Eubanksia into four series, with B. aemula placed in series Quercinae on the basis of its toothed leaves.[14] When George Bentham published his 1870 arrangement in Flora Australiensis, he discarded Meissner's series, replacing them with four sections. B. aemula was placed in Orthostylis, a somewhat heterogeneous section containing 18 species.[15] This arrangement would stand for over a century.

In 1891, German botanist Otto Kuntze challenged the generic name Banksia L.f., on the grounds that the name Banksia had previously been published in 1775 as Banksia J.R.Forst & G.Forst, referring to the genus now known as Pimelea. Kuntze proposed Sirmuellera as an alternative, republishing B. aemula as Sirmuellera serratifolia. The challenge failed, and Banksia L.f. was formally conserved.[1]

Current placement

Alex George published a new taxonomic arrangement of Banksia in his classic 1981 monograph The genus Banksia L.f. (Proteaceae).[1] Endlicher's Eubanksia became B. subg. Banksia, and was divided into three sections. B. aemula was placed in B. sect. Banksia, and this was further divided into nine series, with B. aemula placed in B. ser. Banksia. He thought its closest relative was clearly Banksia serrata and then B. ornata, and that the three formed a link with western species. Since Brown's original publication had treated all of Fraser's specimens as syntypes (shared type specimens) for the species, George also chose a lectotype (a single specimen to serve as the type specimen).[1]

In 1996, Kevin Thiele and Pauline Ladiges published a new arrangement for the genus, after cladistic analyses yielded a cladogram significantly different from George's arrangement. Thiele and Ladiges' arrangement retained B. aemula in series Banksia, placing it in B. subser. Banksia along with serrata as its sister taxon (united by their unusual seedling leaves) and ornata as next closest relative.[16] This arrangement stood until 1999, when George effectively reverted to his 1981 arrangement in his monograph for the Flora of Australia series.[17]

A pale yellow flowerhead nestles among green foliage
Inflorescence after anthesis, with all flowers fully opened

Under George's taxonomic arrangement of Banksia, B. aemula's taxonomic placement may be summarised as follows:

Genus Banksia
Subgenus Banksia
Section Banksia
Series Banksia
B. serrata
B. aemula
B. ornata
B. baxteri
B. speciosa
B. menziesii
B. candolleana
B. sceptrum

In 2002, a molecular study by Austin Mast again showed the three eastern species to form a group, but they were only distantly related to other members of the series Banksia. Instead, they formed a sister group to a large group comprising the series Prostratae, Ochraceae, Tetragonae (including Banksia elderiana), Banksia lullfitzii and Banksia baueri.[18]

In 2005, Mast, Eric Jones and Shawn Havery published the results of their cladistic analyses of DNA sequence data for Banksia. They inferred a phylogeny greatly different from the accepted taxonomic arrangement, including finding Banksia to be paraphyletic with respect to Dryandra.[19] A new taxonomic arrangement was not published at the time, but early in 2007 Mast and Thiele initiated a rearrangement by transferring Dryandra to Banksia, and publishing B. subg. Spathulatae for the species having spoon-shaped cotyledons; in this way they also redefined the autonym B. subg. Banksia. They foreshadowed publishing a full arrangement once DNA sampling of Dryandra was complete. In the meantime, if Mast and Thiele's nomenclatural changes are taken as an interim arrangement, then B. aemula is placed in B. subg. Banksia.[20]

Distribution and habitat

Map of Australia with a green stripe straddling the eastern coastline
Range of B. aemula

Banksia aemula is found along the east coast of Australia from around 70 km (43 mi) north of Bundaberg in central Queensland down to Sydney.[3] Specifically, its southernmost occurrence is at La Perouse on the northern side of Botany Bay.[21] It is also found on Fraser, Moreton and North Stradbroke Islands. Almost all populations are within a few kilometres of the coast, except for one at Agnes Banks in western Sydney, and two just north and south of Grafton at Coaldale and Glenreagh, and a last around 30 km (19 mi) southwest of Bundaberg.[3]

B. aemula is most commonly found in deep sandy soils, either on dunes or flattish areas which may be seasonally wet. On coastal dunes in southern Queensland, it replaces Banksia serrata, which occupies the same niche to the south.[13] The latter areas, with open woodland or heathland, are known as wallum.[8] In Queensland it is found with Banksia robur, with the latter species found in flatter wetter areas and B. aemula found on rises. It is also found with Banksia oblongifolia in Queensland.[3] In some areas of wallum, it may grow as a small tree, along with mallee forms of the red bloodwood (Corymbia gummifera).[22] In Cooloola National Park, it is an occasional emergent plant (along with Melaleuca quinquenervia and Eucalyptus umbra) in closed graminoid heathland, a community of shrubs 0.5–2 m (1 346 12 ft) high containing Xanthorrhoea fulva, Empodisma minus, Petrophile shirleyae, and Hakea and Leptospermum species.[23] On the New South Wales Central Coast, it generally grows as a 1–2 m (3 146 12 ft) high shrub and is a canopy component of Banksia aemula open heathland, located on coastal headlands on highly leached Pleistocene white sands overlying Triassic and Permian strata. Areas include Wybung Head in Munmorah State Conservation Area, and near Myall Lakes. Other plants it grows in association with include Ricinocarpos pinifolius, Brachyloma daphnoides, Dillwynia glaberrima, D. retorta, Allocasuarina distyla, Bossiaea ensata, Aotus ericoides, Phyllota phylicoides, and Empodisma minus. Sandmining has eradicated much of the community around Redhead. In less leached yellower sands, the community (and B. aemula) is replaced by a taller heath containing B. serrata and B. oblongifolia.[24]

At the southern end of its range, B. aemula is a component of the Eastern Suburbs Banksia Scrub (ESBS), designated an endangered ecological community. This community is found on younger, windblown sands than the heathlands to the north.[25]

The Agnes Banks Woodland in western Sydney has been recognised by the New South Wales Government as an Endangered Ecological Community. Here Banksia aemula is an understory plant in low open woodland, with scribbly gum (Eucalyptus sclerophylla), narrow-leaved apple (Angophora bakeri) and B. serrata as canopy trees, and B. oblongifolia, Conospermum taxifolium, Ricinocarpus pinifolius, Dillwynia sericea and nodding geebung (Persoonia nutans) as other understory species.[26]

On North Stradbroke Island, B. aemula is one of three canopy tree species of Eucalyptus signata-dominated forest 12–15 m (39 1449 14 ft) high, the third species being E. umbra. This forest is found on a ridge 100 m (330 ft) above sea level formed from an ancient sand dune. Here bracken (Pteridium esculentum) dominates the understory. Other tall shrubs associated include Persoonia cornifolia and Acacia concurrens.[2]

Ecology

Most Proteaceae and all Banksia species, including B. aemula, have proteoid roots, roots with dense clusters of short lateral rootlets that form a mat in the soil just below the leaf litter. These roots are particularly efficient at absorbing nutrients from nutrient-poor soils, such as the phosphorus-deficient native soils of Australia.[27] A study of six wallum species, including B. aemula, found they have adapted to very low levels of phosphorus and are highly sensitive to increased levels of the element, leading to phosphorus toxicity. Some evidence suggests they are efficient at using potassium, and sensitive to calcium toxicity as well.[28] A field study on North Stradbroke Island noted increased root growth in autumn (around April), but that overall root growth was more constant than other species looked at, possibly because its deeper roots had more regular access to groundwater.[29]

A 1998 study in Bundjalung National Park in northern New South Wales found that B. aemula inflorescences are foraged by a variety of small mammals, including marsupials such as yellow-footed antechinus (Antechinus flavipes), and rodents such as pale field rat (Rattus tunneyi), Australian swamp rat (R. lutreolus) and grassland melomys (Melomys burtoni) and even the house mouse (Mus musculus). These animals carry pollen loads comparable to those of nectarivorous birds, making them effective pollinators. Grey-headed flying foxes (Pteropus poliocephalus) were also observed visiting B. aemula and their heads and bellies were noted to contact stigmas while feeding.[30] Bird species that have been observed feeding at the flowers of B. aemula include rainbow lorikeet and scarlet[31] and Lewin's honeyeaters.[4] Several other honeyeaters were recorded on B. aemula inflorescences for The Banksia Atlas, including the New Holland, brown, white-cheeked, and tawny-crowned honeyeaters, noisy miner, little wattlebird and noisy friarbird.[3] The Bundjalung field study found the brown honeyeater carried much higher loads of B. aemula pollen than other species measured, which included white-cheeked and yellow-faced honeyeaters and silvereyes.[30] Insects such as ants and bees (including the introduced honeybee) have also been recorded.[3]

Banksia aemula resprouts from a lignotuber or shoots from epicormic buds after fire.[3] Fire management of Banksia aemula heath in Southeast Queensland recommends 7- to 20-year fire intervals.[32] Intervals of 10–15 years are recommended for the Eastern Suburbs Banksia Scrub, as longer leads to overgrowth by Leptospermum laevigatum.[33] Experimenting with seed germination and early growth of B. aemula showed that phosphorus was toxic to seedlings, inhibiting growth at double normal soil concentrations and causing seedling death at quadruple normal soil concentrations. The addition of potassium or magnesium ameliorated these effects a little although potassium in high concentrations impacted on growth as well. Overall, seedlings grow slowly over the first 21 weeks of life compared with other plant species, the reasons for which are unclear, although it may be that it offers an increased chance of survival in a nutrient- or water-poor environment. Seed was killed by exposure to 150 °C, but survived seven-minute exposure to 100 °C.[34]

A study of coastal heaths on Pleistocene sand dunes around the Myall Lakes found B. aemula grew on ridges (dry heath) and B. oblongifolia on slopes (wet heath), and the two species did not overlap.[35] Manipulation of seedlings in the same study area showed that B. aemula grows longer roots seeking water and that seedlings do grow in wet heath, but it is as yet unclear why the species does not grow in wet heath as well as dry heath.[36] Unlike similar situations with banksia species in Western Australia, the two species did not appear to impact negatively on each other.[37] A field study on seedling recruitment conducted at Broadwater National Park and Dirrawong Reserve on the New South Wales North Coast showed that generally Banksia aemula produced seedlings in low numbers but the attrition rate was low, and that seedlings had a greater survival rate on dry rather than wet heaths.[38] Field work including the experimental planting out of seedlings at Crowdy Bay National Park showed that Banksia aemula seedling roots reach the water table within six months of germination, and that they can germinate in the presence or absence of recent bushfire. The reasons for bradyspory (that is fewer seeds with greater percentage of survival) is unclear, but may be a defence against seed-eating animals.[39] Similarly in field work on North Stradbroke Island, B. aemula was noted to shed its winged seeds over time between (as well as after) fire, and germinate and grow readily with little predation by herbivores.[2]

Cultivation

In 1788, Banksia aemula was one of the first banksias to be cultivated in England,[8] where it was illustrated in Curtis's Botanical Magazine and its rival, The Botanical Register.[40] Its shiny green leaves, showy flower spikes, huge follicles, and wrinkled bark are attractive horticultural features.[40] It is also a bird- and insect-attracting plant.[41]

Trials in Western Australia and Hawaii have shown B. aemula to be resistant to Phytophthora cinnamomi dieback.[42][43] It requires a well drained slightly acid (pH 5.5–6.5) soil,[40] preferably fairly sandy and a sunny aspect. Summer watering is also prudent, as it does not suffer water stress well.[8] Slow-growing,[44] the plant takes four to six years to flower from seed.[40] It is less commonly grown than Banksia serrata.[6] An investigation into optimum temperatures for germination found a nighttime temperature of 20–28 °C, and a daytime of 24–33 °C gave best results, and recommended summer planting times.[45]

It has also been used as a rootstock for grafting Banksia speciosa, and has potential in bonsai.[40] The red textured timber has been used in cabinet-making.[8]

Cultural references

Although Banksia attenuata was the common banksia in Australian children's author May Gibbs' own childhood in Western Australia, the old flower spikes of Banksia aemula with their large follicles are thought to have been the inspiration for the villains of her Snugglepot and Cuddlepie books, the "Big Bad Banksia Men".[44]

References

  1. 1 2 3 4 5 6 7 8 George, Alex S. (1981). "The Genus Banksia L.f. (Proteaceae)". Nuytsia 3 (3): 239–473.
  2. 1 2 3 Westman, W.E.; Rogers, R. W. (1977). "Biomass and Structure of a Subtropical Eucalypt Forest, North Stradbroke Island". Australian Journal of Botany 25 (2): 171–191. doi:10.1071/BT9770171.
  3. 1 2 3 4 5 6 7 Taylor, Anne; Hopper, Stephen (1988). The Banksia Atlas (Australian Flora and Fauna Series Number 8). Canberra: Australian Government Publishing Service. ISBN 0-644-07124-9. pp. 50–51.
  4. 1 2 Dalgleish, Elizabeth (1999). "Effectiveness of invertebrate and vertebrate pollinators and the influence of pollen limitation and inflorescence position on follicle production of Banksia aemula (family Proteaceae)". Australian Journal of Botany 47 (4): 553–562. doi:10.1071/BT97070.
  5. Copland, B.J.; Whelan, R.J. (1989). "Seasonal variation in flowering intensity and pollination limitation of fruit set in four co-occurring Banksia species". Journal of Ecology (British Ecological Society) 77 (2): 509–523. doi:10.2307/2260766. JSTOR 2260766.
  6. 1 2 Walters, Brian (November 2007). "Banksia aemula". Australian Native Plants Society. Archived from the original on 23 September 2010. Retrieved 4 June 2010.
  7. Harden, Gwen J.; Hardin, David W.; Godden, Dianne C. (2000). Proteaceae of New South Wales. Sydney: UNSW Press. p. 167. ISBN 0-86840-302-4.
  8. 1 2 3 4 5 6 7 Wrigley, John; Fagg, Murray (1991). Banksias, Waratahs and Grevilleas. Sydney: Angus & Robertson. p. 87. ISBN 0-207-17277-3.
  9. Somerville, Margaret (2004). Wildflowering: The life and places of Kathleen McArthur. St Lucia, Queensland: University of Queensland Press. p. 11. ISBN 0-7022-3450-8.
  10. Bailey, Frederick Manson (1913). Comprehensive Catalogue of Queensland Plants. Brisbane, Queensland: A. J. Cumming, government printer. p. 455.
  11. Simpson, D. P. (1979) [1854]. Cassell's Latin Dictionary (5 ed.). London: Cassell Ltd. p. 208. ISBN 0-304-52257-0.
  12. Nilson, S.; Persson, O. (1977). Fungi of Northern Europe 1: Larger Fungi (Excluding Gill-Fungi). Penguin. p. 92. ISBN 0-14-063005-8.
  13. 1 2 Salkin, Abraham Isaac (1979). Variation In Banksia in Eastern Australia: An Investigation Using Experimental Methods. Clayton, Victoria: Monash University. pp. 18, 183.
  14. Meissner, Carl (1856). "Proteaceae". In de Candolle, A. P. Prodromus systematis naturalis regni vegetabilis, pars decima quarta (in Latin). Paris: Sumptibus Victoris Masson.
  15. Bentham, George (1870). "Banksia". Flora Australiensis: A Description of the Plants of the Australian Territory. Volume 5: Myoporineae to Proteaceae. London: L. Reeve & Co. pp. 541–562.
  16. Thiele, Kevin; Ladiges, Pauline Y. (1996). "A cladistic analysis of Banksia (Proteaceae)". Australian Systematic Botany 9 (5): 661–733. doi:10.1071/SB9960661.
  17. George, Alex S. (1999). "Banksia". In Wilson, Annette. Flora of Australia. Volume 17B: Proteaceae 3: Hakea to Dryandra. CSIRO Publishing / Australian Biological Resources Study. pp. 175–251. ISBN 0-643-06454-0.
  18. Mast, Austin R.; Givnish, Thomas J. (August 2002). "Historical biogeography and the origin of stomatal distributions in Banksia and Dryandra (Proteaceae) based on their cpDNA phylogeny". American Journal of Botany 89 (8): 1311–1323. doi:10.3732/ajb.89.8.1311. ISSN 0002-9122. PMID 21665734. Retrieved 2 July 2006.
  19. Mast, Austin R.; Jones, Eric H.; Havery, Shawn P. (2005). "An assessment of old and new DNA sequence evidence for the paraphyly of Banksia with respect to Dryandra (Proteaceae)". Australian Systematic Botany (CSIRO Publishing / Australian Systematic Botany Society) 18 (1): 75–88. doi:10.1071/SB04015.
  20. Mast, Austin R.; Thiele, Kevin (2007). "The transfer of Dryandra R.Br. to Banksia L.f. (Proteaceae)". Australian Systematic Botany 20: 63–71. doi:10.1071/SB06016.
  21. Fairley, Alan; Moore, Philip (2000). Native Plants of the Sydney District: An Identification Guide (2nd ed.). Kenthurst, NSW: Kangaroo Press. p. 176. ISBN 0-7318-1031-7.
  22. Central Threatened Species Unit (1 September 2005). "Overview of the Wallum Sand Heaths". Threatened species, populations and ecological communities in NSW. Hurstville, NSW: Department of Environment and Conservation, New South Wales Government. Retrieved 13 June 2010.
  23. McFarland, David C. (1988). "Fire and the Vegetation Composition and Structure of Subtropical Heathlands in South-eastern Queensland". Australian Journal of Botany 36 (5): 533–546. doi:10.1071/BT9880533.
  24. Benson, Doug (1986). "The vegetation of the Gosford and Lake Macquarie 1:100 000 vegetation map sheet" (PDF). Cunninghamia 1 (4): 467–489. Archived from the original (PDF) on 2 October 2009. Retrieved 7 June 2010.
  25. "Eastern Suburbs Banksia Scrub in the Sydney Basin Bioregion" (PDF). National Parks and Wildlife Service, New South Wales Government. February 2004. Retrieved 6 June 2010.
  26. Central Threatened Species Unit (1 September 2005). "Agnes Banks Woodland in the Sydney Basin – profile". Threatened species, populations and ecological communities in NSW. Hurstville, NSW: Department of Environment and Conservation, New South Wales Government. Retrieved 29 March 2012.
  27. Lamont, Byron B. (1993). "Why are hairy root clusters so abundant in the most nutrient-impoverished soils of Australia". Plant and Soil 156 (1): 269–272. doi:10.1007/BF00025034.
  28. Grundon, N.J. (1972). "Mineral nutrition of some Queensland heath plants". Journal of Ecology (British Ecological Society) 60 (1): 171–181. doi:10.2307/2258049. JSTOR 2258049.
  29. Rogers, R. W.; Westman, W. E. (1981). "Growth rhythms and productivity of a coastal subtropical eucalypt forest". Australian Journal of Ecology 6: 85–98. doi:10.1111/j.1442-9993.1981.tb01276.x.
  30. 1 2 Hackett, Damian, J.; Goldingay, Ross L. (2001). "Pollination of Banksia spp. by non-flying mammals in north-eastern New South Wales". Australian Journal of Botany 49 (5): 637–644. doi:10.1071/BT00004.
  31. Barker, R.D.; Vestjens, W.J.M. (1984). The Food of Australian Birds. Melbourne University Press. pp. 1:345, 2:242, 458. ISBN 0-643-05006-X.
  32. Watson, Penny (July 2001). "The role and use of fire for biodiversity conservation in Southeast Queensland: Fire management guidelines derived from ecological research" (PDF). SEQ Fire and Biodiversity Consortium. National Heritage Trust, Australian Government. Archived from the original (PDF) on 20 July 2008. Retrieved 8 June 2010.
  33. Best practice guidelines: Eastern Suburbs Banksia Scrub (PDF). Sydney: Department of Environment and Climate Change NSW. January 2009. p. 9. ISBN 978-1-74232-091-5. Retrieved 8 June 2010.
  34. Siddiqi, M. Y.; Myerscough, P. J.; Carolin, Roger C. (1976). "Studies in the ecology of coastal heath in New South Wales: IV. Seed survival, germination, seedling establishment and early growth in Banksia serratifolia Salisb., B. aspleniifolia Salisb. and B. ericifolia L.f. in relation to fire: temperature and nutritional effects". Australian Journal of Ecology 1 (3): 175–83. doi:10.1111/j.1442-9993.1976.tb01105.x.
  35. Myerscough, Peter J.; Clarke, Peter J.; Skelton, Nicholas J. (1995). "Plant coexistence in coastal heaths: Floristic patterns and species attributes" (PDF). Australian Journal of Ecology 20 (4): 482–93. doi:10.1111/j.1442-9993.1995.tb00567.x. Archived from the original (PDF) on 10 June 2011. Retrieved 7 June 2010.
  36. Myerscough, Peter J.; Clarke, Peter J.; Skelton, Nicholas J. (1996). "Plant coexistence in coastal heaths: Habitat segregation in the post-fire environment". Australian Journal of Ecology 21: 47–54. doi:10.1111/j.1442-9993.1996.tb00584.x. Archived from the original (PDF) on 9 June 2010. Retrieved 7 June 2010.
  37. Clarke, Peter J.; Myerscough, Peter J.; Skelton, Nicholas J. (1996). "Plant coexistence in coastal heaths: Between- and within-habitat effects of competition, disturbance and predation in the post-fire environment" (PDF). Australian Journal of Ecology 21: 55–63. doi:10.1111/j.1442-9993.1996.tb00585.x. Archived from the original (PDF) on 10 June 2011. Retrieved 7 June 2010.
  38. Benwell, Andrew S. (1998). "Post-fire Seedling Recruitment in Coastal Heathland in Relation to Regeneration Strategy and Habitat". Australian Journal of Botany 46: 75–101. doi:10.1071/BT94046.
  39. Griffith, S.J.; Bale, C.; Adam, P. (2004). "The influence of fire and rainfall upon seedling recruitment in sand-mass (wallum) heathland of north-eastern New South Wales". Australian Journal of Botany 52 (1): 93–118. doi:10.1071/BT03108.
  40. 1 2 3 4 5 Collins, Kevin; Collins, Kathy; George, Alex S. (2008). Banksias. Melbourne: Bloomings Books. pp. 100, 141–142. ISBN 978-1-876473-68-6.
  41. Birds Australia (29 August 2005). "Bird friendly spaces: Banksia aemula". Birds in Backyards. Birds Australia & Australian Museum. Archived from the original on 12 June 2010. Retrieved 8 June 2010.
  42. McCredie, T. A.; Dixon, K. W.; Sivasithamparam, K. (1985). "Variability in the resistance of Banksia L.f. species to Phytophthora cinnamomi Rands". Australian Journal of Botany 33 (6): 629–637. doi:10.1071/BT9850629.
  43. Cho, J. J. (1983). "Variability in Susceptibility of Some Banksia Species to Phytophthora cinnamomi and Their Distribution in Australia". Plant Disease 67 (8): 869–871. doi:10.1094/PD-67-869.
  44. 1 2 George, Alex S. (1987). The Banksia Book (Third Edition). Kenthurst, New South Wales: Kangaroo Press (in association with the Society for Growing Australian Plants). pp. 94–95. ISBN 0-86417-818-2.
  45. Heslehurst, M. R. (1979). "Germination of some Banksia species". Australian Plants 10 (80): 176–177.

External links

This article is issued from Wikipedia - version of the Monday, February 29, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.