Karl J. Duffy scite author profile

Aim Interactions with mycorrhizal fungi are increasingly recognized as an important factor underlying the distribution and abundance of orchid species. However, the geographical distribution of orchid mycorrhizal fungi (OMF) and how their communities vary over large geographical areas are less well understood. Because climatic and environmental similarity may decrease with geographical distance or because some OMF have limited dispersal capabilities, similarities in orchid mycorrhizal communities can be expected to decrease with increasing distances separating orchid populations. However, up till now empirical evidence is largely lacking. Location Eurasia. Taxa Gymnadenia conopsea (L.) R. Brown and Epipactis helleborine (L.) Crantz. Methods High‐throughput sequencing was used to perform a cross‐continental comparison of OMF that associate with two widespread Eurasian terrestrial orchids, Epipactis helleborine and Gymnadenia conopsea. Both phylogenetic and nonphylogenetic measures of community dissimilarity and their components were calculated and related to geographical distances using Mantel tests. Results Our results showed that in both orchid species similarity in mycorrhizal communities decreased significantly with geographical distance. Decomposing the contribution of spatial turnover and nestedness to overall dissimilarity showed that the observed dissimilarity was mainly the result of species replacement between regions, and not of species loss. Similarly, a strong relationship was observed between phylogenetic community dissimilarity and geographical distance. Decomposing PCD values into a nonphylogenetic and phylogenetic component showed that orchid populations located closely next to each other were likely to contain the same operational taxonomic units (OTUs), but that the non‐shared taxa came from different phylogenetic clades. Species indicator analyses showed that the majority of OMF OTUs were restricted to particular geographical areas. However, some OTUs occurred in both continents, indicating that some fungi have very wide distributions. Main conclusions Overall, these results demonstrate that orchid mycorrhizal communities differ substantially across large geographical areas, but that the distribution of orchids is not necessarily restricted by the distribution of particular OMF. Hence, widespread orchid species can be considered mycorrhizal generalists that are flexible in the OMF with which they associate across large geographical areas.

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Ecology and genetic diversity of the dense-flowered orchid, Neotinea maculata, at the centre and edge of its range

Duffy

Scopece

Cozzolino

et al. 2008

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Background and Aims Species may occur over a wide geographical range within which populations can display large variation in reproductive success and genetic diversity. Neotinea maculata is a rare orchid of conservation concern at the edge of its range in Ireland, where it occurs in small populations. However, it is relatively common throughout the Mediterranean region. Here, factors that affect rarity of N. maculata in Ireland are investigated by comparing Irish populations with those found in Italy, where it is more common. † Methods Vegetation communities, breeding system and genetic diversity were compared using three amplified fragment length polymorphism (AFLP) primer pairs in populations in Ireland and Italy. Vegetation was quantified using quadrats taken along transects in study populations, and hand pollination experiments were performed to assess reliance of N. maculata on pollinators in both Irish and Italian populations. † Key Results Neotinea maculata occupies different vegetation communities in Italian and Irish populations.Breeding system experiments show that N. maculata is 100 % autogamous, and there are no differences in fruit and seed production in selfed, outcrossed and unmanipulated plants. AFLP markers revealed that Irish and Italian populations have similar genetic diversity and are distinct from each other. † Conclusions Neotinea maculata does not suffer any negative effects of autogamous reproduction; it self-pollinates and sets seed readily in the absence of pollinators. It occupies a variety of habitats in both Ireland and Italy; however, Irish populations are small and rare and should be conserved. This could be due to climatic factors and the absence of suitable soil mycorrhizas to allow recruitment from seed.

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Latitudinal variation in mycorrhizal diversity associated with a European orchid

Duffy

Waud

Schatz

et al. 2019

Journal of Biogeography

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Aim Biodiversity is known to be unevenly distributed along latitudinal gradients. While this pattern has been observed for many different organisms, it is unclear whether the distributions of ecologically important belowground mutualists, such as orchid mycorrhizal fungi (OMF), also vary according to latitude. Location Europe. Taxon Spiranthes spiralis (L. Chevall) Orchidaceae. Methods We sampled 37 populations over a >3,000 km latitudinal gradient of the European orchid Spiranthes spiralis to test whether the diversity and community composition of OMF are influenced by latitude. For this, we sequenced the broad spectrum ITS3/4OF region to identify OMF and quantified environmental variables that may influence their occurrence. To assess whether seed germination was affected by suitable OMF in different regions, we performed a reciprocal translocation germination experiment at the northern, central and southern part of its range. Results In total, 75 OMF taxa were associated with S. spiralis, the majority belonging to the Ceratobasidiaceae and Thelephoraceae. Both taxonomic and phylogenetic OMF diversity decreased with increasing latitude. Three Ceratobasidiaceae taxa were widespread, but the number of sequences of two of these taxa decreased with increasing latitude. Reciprocal translocation germination experiments revealed that S. spiralis seeds germinated in each region regardless of seed provenance, but germination rates were highest in the southern part of its range where mycorrhizal diversity was highest. Main conclusions OMF diversity decreased with increasing latitude, indicating that communities of OMF may be shaped by latitudinal gradients. These results highlight the need to understand the factors that determine the distribution of belowground mutualists, which are essential to predict how plant distributions will shift under future environmental change.

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Karl J. Duffy

Biogeography of Orchid Mycorrhizas

The effects of plant density and nectar reward on bee visitation to the endangered orchid Spiranthes romanzoffiana

Similarity in mycorrhizal communities associating with two widespread terrestrial orchids decays with distance

Ecology and genetic diversity of the dense-flowered orchid, Neotinea maculata, at the centre and edge of its range

Latitudinal variation in mycorrhizal diversity associated with a European orchid

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