Mycoheterotrophic Plants

How many of them are there?

Literature

Authorssort ascendingYearTitle
B. W. Young, Massicotte, H. B., Tackaberry, L. E., Baldwin, Q. F., Egger, K. N.2002Monotropa uniflora: morphological and molecular assessment of mycorrhizae retrieved from sites in the Sub-Boreal Spruce biogeoclimatic zone in central British Columbia
M. Yamato, Yagame, T., Shimomura, N., Iwase, K., Takahashi, H., Ogura-Tsujita, Y., Yukawa, T.2011Specific arbuscular mycorrhizal fungi associated with non-photosynthetic Petrosavia sakuraii (Petrosaviaceae)
M. Yamato, Takahashi, H., Shimono, A., Kusakabe, R.2016Distribution of Petrosavia sakuraii (Petrosaviaceae), a rare mycoheterotrophic plant, may be determined by the abundance of its mycobionts
M. Yamato2001Identification of a mycorrhizal fungus in the roots of achlorophyllous Sciaphila tosaensis Makino (Triuridaceae)
T. Yagame, Yamato, M., Szuzki, A., Iwase, K.2008Ceratobasidiaceae mycorrhizal fungi isolated from nonphotosynthetic orchid Chamaegastrodia sikokiana
L. Vincenot, Tedersoo, L., Richard, R., Horcine, H., Koljalg, U., Selosse, M. - A.2008Fungal associates of Pyrola rotundifolia, a mixotrophic Ericaceae, from two Estonian boreal forests
T. Uesugi, Nakano, M., Selosse, M. - A., Obase, K., Matsuda, Y.2016Pyrola japonica, a partially mycoheterotrophic Ericaceae, has mycorrhizal preference for russulaceaen fungi in central Japan
C. Paduano, Rodda, M., Ercole, E., Girlanda, M., Perotto, S.2011Pectin localization in the mediterranean ochid Limodorum abortivum reveals modulation of the plant interface in response to different mycorrhizal fungi
M. Okayama, Yamato, M., Yagame, T., Iwase, K.2012Mycorrhizal diversity and specificity in Lecanorchis (Orchidaceae)
Y. Matsuda, Okochi, S., Katayama, T., Yamada, A., Ito, S.2011Mycorrhizal fungi associated with Monotropastrum humile (Ericaceae) in central Japan
H. B. Massicotte, Melville, L. H., Tackaberry, L. E., Peterson, R. L.2007Pityopus californicus: structual characteristics of seed and seedling development in a myco-heterotrophic species
H. B. Massicotte, Melville, L. H., Peterson, R. L., Tackaberry, L. E., Luoma, D. L.2010Structural characteristics of root-fungus associations in two mycoheterotrophic species, Allotropa virgata and Pleuricospora fimbriolata (Monotropoideae), from southwest Oregon, USA
H. B. Massicotte, Melville, L. H., Peterson, R. L.2005Structural features of mycorrhizal associations in two members of the Monotropoideae, Monotropa uniflora and Pterospora andromedea
S. Imhof, Feller, B., Heser, A.2020Morpho-anatomical differences among mycoheterotrophic Afrothismia spp. (Thismiaceae) indicate an evolutionary progression towards improved mycorrhizal benefit
S. Imhof1999Root morphology, anatomy and mycotrophy of the achlorophyllous Voyria aphylla (Jacq.) Pers. (Gentianaceae)
S. Imhof2003A dorsiventral mycorrhizal root in the achlorophyllous Sciaphila polygyna (Triuridaceae)
C. Hazard, Lilleskov, E. A., Horton, T. R.2012Is rarity of pinedrops (Pterospora andromedea) in eastern North America linked to rarity of its unique fungal symbiont
B. Feller, Dancák, M., Hroneš, M., Sochor, M., Suetsugu, K., Imhof, S.2022Mycorrhizal structures in mycoheterotrophic Thismia spp. (Thismiaceae): functional and evolutionary interpretations
S. M. Berch, Massicotte, H. B., Tackaberry, L. E.2005Re-publication of a translation of 'The vegetative organs of Monotropa hypopitys L.' published by F. Kamienski in 1882, with an update on Monotropa mycorrhizas
Scratchpads developed and conceived by (alphabetical): Ed Baker, Katherine Bouton Alice Heaton Dimitris Koureas, Laurence Livermore, Dave Roberts, Simon Rycroft, Ben Scott, Vince Smith