Mycoheterotrophic Plants

How many of them are there?

Literature

AuthorsYearsort descendingTitle
G. Gebauer, Meyer M.200315N and 13C natural abundance of autotrophic and myco-heterotrophic orchids provides insight into nitrogen and carbon gain from fungal association
M. I. Bidartondo, Burghardt, B., Gebauer, G., Bruns, T. D., Read, D. J.2004Changing partners in the dark: isotopic and molecular evidence of ectomycorrhizal liaisons between forest orchids and trees
T. Julou, Burghardt, B., Gebauer, G., Berveiller, D., Damesin, C., Selosse, M. - A.2005Mixotrophy in orchids: insights from a comparative study of green individuals and nonphotosynthetic individuals of Cephalanthera damasonium
J. - C. Abadie, Püttsepp, Ü., Gebauer, G., Faccio, A., Bonfante, P., Selosse, M. - A.2006Cephalanthera longifolia (Neottieae, Orchidaceae) is mixotrophic: a comparative study between green and nonphotosynthetic individuals
K. Zimmer, Hynson, N. A., Gebauer, G., Allen, E. B., Allen, M. F., Read, D. J.2007Wide geographical and ecological distribution of nitrogen and carbon gains from fungi in pyroloids and monotropoids (Ericaceae) and in orchids
K. Zimmer, Meyer, C., Gebauer, G.2008The ectomycorrhizal specialist orchid Corallorhiza trifida is a partial myco-heterotroph
N. A. Hynson, Preiss, K., Gebauer, G., Bruns, T. D.2009Isotopic evidence of full and partial myco-heterotrophy in the plant tribe Pyroleae (Ericaceae)
D. D. Cameron, Preiss, K., Gebauer, G., Read, D. J.2009The chlorophyll-containing orchid Corallorhiza trifida derives little carbon through photosynthesis
Y. Ogura-Tsujita, Gebauer, G., Hashimoto, T., Umata, H., Yukawa, T.2009Evidence for novel and specialized mycorrhizal parasitism: the orchid Gastrodia confusa gains carbon from saprotrophic Mycena
V. Merckx, Stöckel, M., Fleischmann, A., Bruns, T. D., Gebauer, G.201015N and 13C natural abundance of two mycoheterotrophic and a putative partially mycoheterotrophic species associated with arbuscular mycorrhizal fungi
H. R. Liebel, Bidartondo, M. I., Preiss, K., Segreto, R., Stöckel, M., Rodda, M., Gebauer, G.2010C and N stable isotope signatures reveal constraints to nutritional modes of orchids from the Mediterranean and Macaronesia
K. Preiss, Adam, I. K., Gebauer, G.2010Irradiance governs exploitation of fungi: fine-tuning of carbon gain by two partially myco-heterotrophic orchids
M. Stöckel, Meyer, C., Gebauer, G.2011The degree of mycoheterotrophic carbon gain in green, variegated and vegetative albino individuals of Cephalanthera damasonium is related to leaf chlorophyll
H. T. Liebel, Gebauer G.2011Stabel isotope signatures confirm carbon and nitrogen gain through ectomycorrhizas in the ghost orchid Epipogium aphyllum Swartz
N. A. Hynson, Madsen, T. P., Selosse, M. - A., Adam, I. K. U., Ogura-Tsujita, Y., Roy, M., Gebauer, G.2013The Physiological Ecology of Mycoheterotrophy
Y. I. Lee, Yang, C. K., Gebauer, G.2015The importance of associations with saprotrophic non-Rhizoctonia fungi among fully mycoheterotrophic orchids is currently under-estimated: novel evidence from sub-tropical Asia
G. Gebauer, Preiss, K., Gebauer, A. C.2016Partial mycoheterotrophy ist more widespread among orchids than previously assumed
N. A. Hynson, Schiebold, J. M. I., Gebauer, G.2016Plant family identity distinguishes patterns of carbon and nitrogen stable isotope abundance and nitrogen concentration in mycoheterotrophic plants associated with ectomycorrhizal fungi
Y. Ogura-Tsujita, Gebauer, G., Xu, H., Fukasawa, Y., Umata, H., Tetsuka, K., Kubota, M., Schweiger, J. M. - I., Yamashita, S., Maekawa, N., Maki, M., Isshiki, S., Yukawa, T.2018The giant mycoheterotrophic orchid Erythrorchis altissima is associated mainly with a divergent set of wood-decaying fungi
Scratchpads developed and conceived by (alphabetical): Ed Baker, Katherine Bouton Alice Heaton Dimitris Koureas, Laurence Livermore, Dave Roberts, Simon Rycroft, Ben Scott, Vince Smith