TY - JOUR

T1 - Seedling mycorrhiza

T2 - a discussion of origin and evolution in Orchidaceae

AU - Rasmussen, Hanne Nina

AU - Rasmussen, Finn N.

PY - 2014

Y1 - 2014

N2 - Recent phylogenetic analyses confirm the monophyly of Orchidaceae as sister group to the remainder of Asparagales, and identify the sequence of early branching lineages in Orchidaceae. Orchid seedling mycorrhiza (OSM) involving rhizoctonious fungi is distributed widely in all subfamilies, including the first branching ones, and its status as a founding event is thus supported. OSM is recognized as one element in the character syndrome that distinguishes orchid biology, and we argue that OSM was the first to evolve. We also discuss the possible evolutionary origins of OSM in Asparagales. The prevalent mycobionts suggest a derivation from a pathogenic relationship, and sister group comparison offers little support for derivation from other mycorrhizal relationships. A combination of in situ sowings and molecular identification of seedling mycobionts has established that a broad range of fungi besides rhizoctonious mycelia are presently involved in OSM, presumably evolving secondarily and often in parallel in different orchid clades. Structural features and internal patterns of mycobiont behaviour appear to have remained largely the same, implying that OSM needs only minor physiological adjustment to accommodate new mycobionts. Such modifications will have involved checkpoints for recognition/rejection and the formation/breakdown of pelotons. These physiological mechanisms are so far largely unknown. The trophic versatility of the mycobionts and the apparently easy shifts could be a main factor in the ecological adaptability of orchids and proliferation

AB - Recent phylogenetic analyses confirm the monophyly of Orchidaceae as sister group to the remainder of Asparagales, and identify the sequence of early branching lineages in Orchidaceae. Orchid seedling mycorrhiza (OSM) involving rhizoctonious fungi is distributed widely in all subfamilies, including the first branching ones, and its status as a founding event is thus supported. OSM is recognized as one element in the character syndrome that distinguishes orchid biology, and we argue that OSM was the first to evolve. We also discuss the possible evolutionary origins of OSM in Asparagales. The prevalent mycobionts suggest a derivation from a pathogenic relationship, and sister group comparison offers little support for derivation from other mycorrhizal relationships. A combination of in situ sowings and molecular identification of seedling mycobionts has established that a broad range of fungi besides rhizoctonious mycelia are presently involved in OSM, presumably evolving secondarily and often in parallel in different orchid clades. Structural features and internal patterns of mycobiont behaviour appear to have remained largely the same, implying that OSM needs only minor physiological adjustment to accommodate new mycobionts. Such modifications will have involved checkpoints for recognition/rejection and the formation/breakdown of pelotons. These physiological mechanisms are so far largely unknown. The trophic versatility of the mycobionts and the apparently easy shifts could be a main factor in the ecological adaptability of orchids and proliferation

U2 - 10.1111/boj.12170

DO - 10.1111/boj.12170

M3 - Review

VL - 175

SP - 313

EP - 327

JO - Botanical Journal of the Linnean Society

JF - Botanical Journal of the Linnean Society

SN - 0024-4074

IS - 3

ER -