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References

  • Alexander C, Hadley G. 1983. Variation in symbiotic activity of Rhizoctonia isolates from Goodyera repens mycorrhizas. Transactions of the British Mycological Society 152: 99106.
  • Arditti J. 1992. Fundamentals of Orchid Biology. New York, USA: John Wiley & Sons.
  • Arditti J, Ghani AKA. 2000. Numerical and physical properties of orchid seeds and their biological implications. New Phytologist 145: 146569.
  • Ba MA, Garbaye J, Dexheimer J. 1991. Influence of fungal propagules during the early stages of the time sequence of ectomycorrhizal colonization on Afzelia africana seedlings. Canadian Journal of Botany 69: 24422447.
  • Baskin CC, Baskin JM. 1998. Seeds ecology, biogeography, and evolution of dormancy and germination. San Diego, CA, USA: Academic Press.
  • Batty AL. 2001. The role of symbiotic seed germination in the conservation of selected Western Australian terrestrial orchids. PhD thesis, University of Western Australia.
  • Batty AL, Dixon KW, Sivasithamparam K. 2000. Soil seed bank dynamics of terrestrial orchids. Lindleyana 15: 227236.
  • Brundrett MC, Abbott LK. 1995. Mycorrhizal fungus propagules in the jarrah forest. II. Spatial variability in inoculum levels. New Phytologist 131: 461469.
  • Brundrett M, Bougher N, Dell B, Grove T, Malajczuk N. 1996. Working with Mycorrhizas in Forestry and Agriculture. Canberra, Australia: Australian Centre for International Agricultural Research.
  • Campbell CL, Noe JP. 1985. The spatial analysis of soil-borne pathogens and root diseases. Annual Review of Phytopathology 23: 129148.
  • Clements MA, Ellyard RK. 1979. The symbiotic germination of Australian terrestrial orchids. American Orchid Society Bulletin 48: 810816.
  • Clements MA, Muir H, Cribb PJ. 1986. A preliminary report on the symbiotic germination of European terrestrial orchids. Kew Bulletin 41: 437445.
  • Dahlberg A, Stenlid J. 1990. Population structure and dynamics in Suillus bovinus as indicated by spatial distribution of fungal clones. New Phytologist 115: 487493.
  • Dixon KW. 1989. Seed Propagation of ground orchids. In: DixonKW, BuirchellBJ, CollinsMJ, eds. Orchids of Western Australia. Victoria Park, Western Australian, Australia: Native Orchid Study and Conservation Group Inc., 1826.
  • Esnault AL, Masuhara G, McGee PA. 1994. Involvement of the exodermal passage cells in mycorrhizal infection of some orchids. Mycological Research 98: 672676.
  • Friese CF, Koske RE. 1991. The spatial dispersion of spores of vesicular-arbuscular mycorrhizal fungi in a sand dune: microscale patterns associated with the root architecture of American beachgrass. Mycological Research 95: 952957.
  • Garrett SD. 1956. Biology of Root Infecting Fungi. Cambridge, UK: Cambridge University Press.
  • Gentilli J. 1989. Climate of the jarrah forest. In: DellB, HavelJJ, MalajczukN, eds. The Jarrah Forest. Dordrecht, The Netherlands: Kluwer Academic Publishers, 2340.
  • Griffiths RP, Caldwell BA. 1992. Mycorrhizal mat communities in forest soils. In: ReadDJ, LewisDH, FitterAH, AlexanderIJ, eds. Mycorrhizas in Ecosystems. Wallingford, UK: CAB International, 98105.
  • Harley JL, Smith SE. 1983. Mycorrhizal Symbiosis. London, UK: Academic Press.
  • Hoffman N, Brown A. 1992. Orchids of South-West Australia. Nedlands, Australia: University of Western Australia Press.
  • IUCN/SSC Orchid Specialist Group. 1996. Orchids – Status Survey and Conservation Action Plan. Gland Switzerland and Cambridge UK: IUCN.
  • Jasper DA, Abbott LK, Robson AD. 1991. The effect of soil disturbance on vesicular–arbuscular mycorrhizal fungi in soils from different vegetation types. New Phytologist 118: 471476.
  • Masuhara G, Katsuya K. 1994. In situ and in vitro specificity between Rhizoctonia spp. & Spiranthes sinensis (Persoon.) Ames. var. amoena (M. Beiberstein) Hara (Orchidaceae). New Phytologist 127: 711718.
  • McKendrick SL, Leake JR, Taylor DL, Read DJ. 2000. Symbiotic germination and development of myco-heterotrophic plants in nature: ontogeny of Corallorhiza trifida and characterisation of its mycorrhizal fungi. New Phytologist 145: 523537.
  • Muir HJ. 1989. The role of physiology ecology and management. In: PritchardHW, ed. Modern Methods in Orchid Conservation. Cambridge, UK: Cambridge University Press, 3956.
  • Otten W, Gilligan CA. 1998. Effect of physical conditions on the spatial and temporal dynamics of the soil-borne fungal pathogen Rhizoctonia solanii. New Phytologist 138: 629637.
  • Pate JS, Dixon KW. 1982. Tuberous, Cormous and Bulbous Plants – Biology and Adaptive Strategy. Nedlands, Western Australia: University of Western Australia Press.
  • Perkins AJ, Masuhara G, McGee PA. 1995. Specificity of the associations between Microtis parviflora (Orchidaceae) and its mycorrhizal fungi. Australian Journal of Botany 43: 8591.
  • Perkins AJ, McGee PA. 1995. Distribution of the orchid mycorrhizal fungus Rhizoctonia solani, in relation to it’s host, Pterostylis acuminata, in the field. Australian Journal of Botany 43: 565575.
  • Phillips JM, Hayman DS. 1970. Improved procedures for clearing roots and staining parasitic and vesicular–arbuscular mycorrhizal fungi for rapid assessment of infection. Transactions of the British Mycological Society 55: 158160.
  • Ramsay RR, Sivasithamparam K, Dixon KW. 1986. Patterns of infection and endophytes associated with Western Australian orchids. Lindleyana 1: 203214.
  • Rasmussen HN. 1995. Terrestrial Orchids From Seed to Mycotrophic Plant. Cambridge, UK: Cambridge University Press.
  • Rasmussen HN, Whigham D. 1993. Seed ecology of dust seeds in situ: a new study technique and its application in terrestrial orchids. American Journal of Botany 80: 13741378.
  • Rasmussen HN, Whigham D. 1998a. Importance of woody debris in seed germination of Tipularia discolor (Orchidaceae). American Journal of Botany 85: 829834.
  • Rasmussen HN, Whigham DF. 1998b. The underground phase: a special challenge in studies of terrestrial orchid populations. Botanical Journal of the Linnean Society 126: 4964.
  • Rayment GR, Higginson FR. 1992. Australian Laboratory Handbook of Soil and Water Chemical Methods. Sydney, Australia: Inkata Press.
  • Roche S, Dixon KW, Pate JS. 1998. For everything a season: Smoke- induced seed germination and seedling recruitment in a Western Australian Banksia woodland. Australian Journal of Ecology 23: 111120.
  • Rokich D. 1999. Banksia Woodland Restoration. PhD thesis, University of Western Australia.
  • Skinner MF, Bowen GD. 1974. The penetration of soil by mycelial strands of ectomycorrhizal fungi. Soil Biology and Biochemistry 6: 5761.
  • Van der Kinderen G. 1995. Observations on in situ germination of Epipactis helleborine (L.) Crantz. Lindleyana 10: 223231.
  • Warcup JH. 1971. Specificity of mycorrhizal associations in some Australian terrestrial orchids. New Phytologist 70: 4146.
  • Warcup JH. 1973. Symbiotic germination of some Australian terrestrial orchids. New Phytologist 72: 387392.
  • Warcup JH. 1981. The mycorrhizal relationships of Australian orchids. New Phytologist 87: 371381.
  • Zelmer CD, Currah RS. 1997. Symbiotic germination of Spiranthes lacera (Orchidaceae) with naturally occurring endophyte. Lindleyana 12: 142148.
  • Zelmer CD, Cuthbertson L, Currah RS. 1996. Fungi associated with terrestrial orchid mycorrhizas, seeds and protocorms. Mycoscience 37: 439448.
  • Zettler LW, Hofer CJ. 1998. Propagation of the little club-spur orchid (Platanthera clavellata) by symbiotic seed germination and its ecological implications. Environmental and Experimental Botany 39: 189195.