SOPPARÓT f FØROYSKUM FJALLAVØKSTRI 129 Type of mycorrhiza Correlation Phos. Nitr. Probability (rs) Phos. Nitr. Arbuscular 0.102 0.236 0.000 0.000 Ecto 0.152 0.143 0.000 0.001 Ericoid -0.076 0.052 0.078 0.232 Table 10. The different mycorrhizas correlated with phosphorus and nitrogen. While both arbuscular and ecto mycorrhizal plants as a group seem to be correlated to the nutrients at a significiant level, ericoid mycorrhizal plants are not. The fact that ecto- and ericoid mycor- rhizal plants do not grow together, has been noticed before. Robinson (1972) describes how the endophyte in Calluna vulgaris is eradicated by applying fertilisers, and after the endophyte is eradicated, the plant is vulnerable for fungal pathogenic infec- tions. Further Robinson concludes from ex- periments that it is likely that the ericoid fungal symbiont is responsible for this by excreting fungicides into the soil. Apart from preventing pathogenic infections, it also seems to be a growth inhibitor for ecto- mycorrhizal fungi. Robinson conducted only experiments with Calluna heath. However, it is likely that the same is valid for Empetrum ni- grum, but not for Vaccinium myrtillus. Only once does Calluna vulgaris get a score in a plot where ecto-mycorrhizal plant species are identilled. This occurs twice for Em- petrum, but Vaccinium achieves 88 scores together with ecto-mycorrhizal species. The only nutrients with good correla- tions to the vegetation were phosphorus and nitrogen. The correlations with some of the mycorrhizal groups are presented in Table 9. Conclusion Arbuscular mycorrhiza is the most wide- spread type of mycorrhiza. However, de- spite of few species forming ericoid and ec- tomycorrhiza, they are much more wide- spread than would be expected, if only the number of species was to account for their distribution. Both ecto- and ericoid mycor- rhizal fungi are able to degrade organic compounds and thus provide the plants with nutrients from organic sources. The Faroese soils are poor in available phos- phorus, and probably also ip inorganic ni- trogen (humus and total nitrogen in soil samples are extremely well correlated, r = 0.95). Further the teinperature is low, so mineralisation of organic material is slow. At such conditions ectomycorrhizas can be more competitive than arbuscular myc- orrhizas (Moyersoen et al., 1998). Howev- er, other findings indicate, that ectomycor- rhizal species impose a greater carbon drain on their host than do arbuscular mycor- rhizas, owing to the greater biomass of as- sociated fungi (Moyersoen et ai, 1998). Ericoid mycorrhizal fungi can be more efficient than ectomycorrhizal as decom- posers. On the other hand there seems to be a limited number of plant species capable to coexist with ericoid mycorrhizal fungi. Arbuscular mycorrhiza is the most wide- spread. This is probably because it is the type which is “cheapest” for the system. However, it is not as efficient as decompos- er as the olher types of mycorrhiza, and that could be why other types of mycorrhiza, despite their association with very few plant species, are so successful. The connection between sorne arbuscu-

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