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References

  • Ackerman, J.D., Sabat, A. & Zimmerman, J.K. (1996) Seedling establishment in an epiphytic orchid: an experimental study of seed limitation. Oecologia, 106, 192198.
  • Agresti, A. (2002) Categorical Data Analysis. John Wiley & Sons, Inc., Hoboken, NJ.
  • Arditti, J. & Ghani, A.K.A. (2000) Tansley review No. 110 – Numerical and physical properties of orchid seeds and their biological implications. New Phytologist, 145, 367421.
  • Bascompte, J. & Jordano, P. (2007) Plant-animal mutualistic networks: the architecture of biodiversity. Annual Review of Ecology Evolution and Systematics, 38, 567593.
  • Bever, J.D., Dickie, I.A., Facelli, E., Facelli, J.M., Klironomos, J., Moora, M., Rillig, M.C., Stock, W.D., Tibbett, M. & Zobel, M. (2010) Rooting theories of plant community ecology in microbial interactions. Trends in Ecology & Evolution, 25, 468478.
  • Bonnardeaux, Y., Brundrett, M., Batty, A., Dixon, K., Koch, J. & Sivasithamparam, K. (2007) Diversity of mycorrhizal fungi of terrestrial orchids: compatibility webs, brief encounters, lasting relationships and alien invasions. Mycological Research, 111, 5161.
  • Brooker, R.W., Maestre, F.T., Callaway, R.M., Lortie, C.L., Cavieres, L.A., Kunstler, G. et al. (2008) Facilitation in plant communities: the past, the present, and the future. Journal of Ecology, 96, 1834.
  • Cascante-Marin, A.C., Wolf, J.H.D., Oostermeijer, J.G.B. & Den Nijs, J.C.M. (2008) Establishment of epiphytic bromeliads in successional tropical premontane forests in Costa Rica. Biotropica, 40, 441448.
  • Christensen, R.H.B. (2011a) Ordinal-regression models for ordinal data. http://www.cran.r-project.org/package=ordinal/.
  • Christensen, R.H.B. (2011b) A tutorial on fitting cumulative link mixed models with clmm2 from the ordinal package. http://cran.r-project.org/web/packages/ordinal/vignettes/clmm2_tutorial.pdf.
  • Dearnaley, J. (2007) Further advances in orchid mycorrhizal research. Mycorrhiza, 17, 475486.
  • Diez, J.M. (2007) Hierarchical patterns of symbiotic orchid germination linked to adult proximity and environmental gradients. Journal of Ecology, 95, 159179.
  • Gardner, T.A., Barlow, J., Chazdon, R.L., Ewers, R.M., Harvey, C.A., Peres, C.A. & Sodhi, N.S. (2009) Prospects for tropical forest biodiversity in a human-modified world. Ecology Letters, 12, 561582.
  • Gentry, A.H. (1988) Changes in plant community diversity and floristic composition on environmental and geographic gradients. Annals of the Missouri Botanical Garden, 75, 134.
  • Gowland, K.M., Wood, J., Clements, M.A. & Nicotra, A.B. (2011) Significant phorophyte (substrate) bias is not explained by fitness benefits in three epiphytic orchid species. American Journal of Botany, 98, 197206.
  • Hadley, G. (1970) Non-specificity of symbiotic infection in orchid mycorrhiza. New Phytologist, 69, 10151023.
  • Herrera, P., Suárez, J.P. & Kottke, I. (2010) Orchids keep the ascomycetes outside: a highly diverse group of ascomycetes colonizing the velamen of epiphytic orchids from a tropical mountain rainforest in Southern Ecuador. Mycology: An International Journal on Fungal Biology, 1, 262268.
  • Hothorn, T., Hornik, K. & Zeileis, A. (2006) Unbiased recursive partitioning: a conditional inference framework. Journal of Computational and Graphical Statistics, 15, 651674.
  • Jersáková, J. & Malinová, T. (2007) Spatial aspects of seed dispersal and seedling recruitment in orchids. New Phytologist, 176, 237241.
  • Köster, N., Kreft, H., Nieder, J. & Barthlott, W. (2012) Range size and climatic niche correlate with the vulnerability of epiphytes to human land use in the tropics. Journal of Biogeography, 40, 963976.
  • McCormick, M.K., Taylor, D.L., Juhaszova, K., Burnett, R.K.J., Whigham, D.F. & O'Niell, J.P. (2012) Limitations on orchid recruitment: not a simple picture. Molecular Ecology, 21, 15111523.
  • Morales, J.F. (2009) Orchids of Costa Rica. Editorial INBio, Costa Rica.
  • Nadkarni, N.M. (2000) Colonization of stripped branch surfaces by epiphytes in a lower montane cloud forest, Monteverde, Costa Rica. Biotropica, 32, 358363.
  • Nadkarni, N.M. & Haber, W.A. (2009) Canopy seed banks as time capsules of biodiversity in pasture-remnant tree crowns. Conservation Biology, 23, 11171126.
  • Olden, J.D., Lawler, J.J. & Poff, N.L. (2008) Machine learning methods without tears: a primer for ecologists. The Quarterly Review of Biology, 83, 171193.
  • Osorio-Gil, E.M., Forero-Montana, J. & Otero, J.T. (2008) Variation in mycorrhizal infection of the epiphytic orchid Ionopsis utriculariodes (Orchidaceae) on different substrata. Caribbean Journal of Science, 44, 130132.
  • Otero, J.T., Bayman, P. & Ackerman, J.D. (2005) Variation in mycorrhizal performance in the epiphytic orchid Tolumnia variegata in vitro: the potential for natural selection. Evolutionary Ecology, 19, 2943.
  • Phillips, R.D., Barrett, M.D., Dixon, K.W. & Hopper, S.D. (2011) Do mycorrhizal symbioses cause rarity in orchids? Journal of Ecology, 99, 858869.
  • R Core Development Team (2010) R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria. http://www.R-project.org/.
  • Rabinowitz, D. (1981) Seven forms of rarity. The Biological Aspects of Rare Plant Conservation (ed. H. Synge), pp. 205217. Wiley, New York, NY.
  • Ramsay, R.R., Silvasithamparam, K. & Dixon, K. (1986) Patterns of infection and endophytes associated with Western Australian orchids. Lindleyana, 1, 203214.
  • Rasmussen, H.N. (2011) Methods of studying field germination and seedling physiology: present potential and drawbacks. European Journal of Environmental Sciences, 1, 5559.
  • Rasmussen, H.N. & Whigham, D.F. (1993) Seed ecology of dust seeds in situ: a new study technique and its application in terrestrial orchids. American Journal of Botany, 80, 13741378.
  • Sánchez-Azofeifa, A., Harriss, R.C. & Skole, D.L. (2001) Deforestation in Costa Rica: a quantitative analysis using remote sensing imagery. Biotropica, 33, 378384.
  • Shipley, B., Vile, D. & Garnier, É. (2006) From plant traits to plant communities: a statistical mechanistic approach to biodiversity. Science, 314, 812814.
  • Sodhi, N.S., Koh, L.P., Peh, K.S.H., Tan, H.T.W., Chazdon, R.L., Corlett, R.T., Lee, T.M., Colwell, R.K., Brook, B.W., Sekercioglu, C.H. & Bradshaw, C.J.A. (2008) Correlates of extinction proneness in tropical angiosperms. Diversity and Distributions, 14, 110.
  • Stephens, P.A. & Sutherland, W.J. (1999) Consequences of the Allee effect for behavior, ecology, and conservation. Trends in Ecology & Evolution, 14, 401405.
  • Stuntz, S., Simon, U. & Zotz, G. (2002) Rainforest air-conditioning: the moderating influence of epiphytes on the microclimate in tropical tree crowns. International Journal of Biometeorology, 46, 5359.
  • Suárez, J.P., Weiß, M., Abele, A., Oberwinkler, F. & Kottke, I. (2008) Members of Sebacinales subgroup B form mycorrhizae with epiphytic orchids in a Neotropical mountain rain forest. Mycological Progress, 7, 7585.
  • Swarts, N.D., Sinclair, E.A., Francis, A. & Dixon, K.W. (2010) Ecological specialization in mycorrhizal symbiosis leads to rarity in an endangered orchid. Molecular Ecology, 19, 32263242.
  • Tabarelli, M., Peres, C.A. & Melo, F.P.L. (2012) The ‘few winners and many losers’ paradigm revisited: emerging prospects for tropical forest biodiversity. Biological Conservation, 155, 136140.
  • Trapnell, D.W., Hamrick, J.L. & Nason, J.D. (2004) Three-dimensional fine-scale genetic structure of the Neotropical epiphytic orchid, Laelia rubescens. Molecular Ecology, 13, 11111118.
  • Vujanovic, V., St-Arnaud, M., Barabe, D. & Thibeault, G. (2000) Viability testing of orchid seed and the promotion of colouration and germination. Annals of Botany, 86, 7986.
  • Yoder, J.A., Imfeld, S.M., Heydinger, D.J., Hard, C.E., Collier, M.H., Gribbins, K.M. & Zettler, L.W. (2010) Comparative water balance profiles of Orchidaceae seeds for epiphytic and terrestrial taxa endemic to North America. Plant Ecology, 211, 717.
  • Zettler, L.W., Corey, L.L., Richardson, L.W., Ross, A.Y. & Moller-Jacobs, L. (2011) Protocorms of an epiphytic orchid (Epidendrum amphistomum A. Richard) recovered in situ, and subsequent identification of associated mycorrhizal fungi using molecular markers. European Journal of Environmental Sciences, 1, 108114.
  • Zotz, G. & Hietz, P. (2001) The physiological ecology of vascular epiphytes: current knowledge, open questions. Journal of Experimental Botany, 52, 20672078.
  • Zotz, G. & Winkler, U. (2013) Aerial roots of epiphytic orchids: the velamen radicum and its role in water and nutrient uptake. Oecologia, 171, 733741.