on sycamore maple (Acer pseudoplatanus) in Chasseral, Switzerland. The species gives its name to the epiphytic alliance Lobarion pulmonariae'', regarded as a late-successional lichen community on mature hardwood trees in old forests across Europe. Because lichens are highly sensitive to atmospheric chemistry and habitat continuity, community composition has long been used in
bioindication. The 1970 Hawksworth–Rose scale used epiphytic assemblages to estimate
sulphur dioxide pollution in England and Wales. Francis Rose's 1976 woodland indicator work then linked particular epiphytic communities and species combinations to long ecological continuity, and later British workers turned this into explicit continuity indices: scoring tools that use indicator lists to grade woodland sites for their epiphytic lichen interest, refined for Britain and Ireland by
Coppins and Coppins. In Britain, these continuity indices grade woodland sites by their epiphytic lichen interest, using indicator-species lists drawn from old-growth and ancient-woodland epiphytes; they are intended as a broad-brush assessment rather than an infallible test of antiquity. The indices can mislead, however, because pollution and past management—especially clear-felling or heavy coppicing, which removes lichens with the timber—can sharply reduce epiphytic assemblages even on historically ancient sites, and recolonization is often dominated by widespread species rather than old-woodland specialists. In mature Alpine spruce forests, tree-level lichen richness and community composition both changed with tree age and size, and over-mature trees supported a distinct assemblage that included nationally rare and
calicioid species; the retention of over-mature trees was therefore recommended as a practical measure for lichen conservation in managed forests and protected areas. In Estonian wooded meadows, abandonment of traditional management and the resulting increase in canopy cover were found to shift epiphytic lichen communities away from the species-rich assemblages of semi-open stands toward species-poor communities characteristic of secondary forest, and the authors concluded that conserving these communities depends on retaining large old deciduous trees of several species while maintaining a semi-open stand structure. Quantitative work in upland
Aberdeenshire confirmed that lichen communities track land-use intensity across multiple substrates: native pinewoods supported species-rich epiphytic assemblages with continuity indicators and no nitrophytes, whereas intensive farmland had epiphytes poor in acidophytes and richer in nitrophytes; in treeless or sparsely wooded landscapes, saxicolous communities and nitrophyte indicators can therefore also help assess agricultural intensification. Experimental work in boreal spruce forest has also shown that added nitrogen alone can shift epiphytic lichen community composition and reduce species richness. Changes were detectable even at 6 kg N ha−1 yr−1, with different species showing different optima and decline thresholds; this helps explain why lichen communities are such sensitive indicators of nitrogen deposition. Work in the
Pacific Northwest has also explored continuous conservation indices that assign sites a graded score along a spectrum of conservation value rather than classifying them only as above or below a fixed threshold. Modern monitoring programmes have standardized some of these uses. ICP Forests samples epiphytic lichen diversity on fixed forest plots across Europe, while the
United States Forest Service FIA programme maintains a large database of epiphytic macrolichen communities for forest health and environmental assessment. In North America, comparable practice has more often taken the form of standardized lichen-community indicators embedded in forest-monitoring programmes than of formal syntaxonomic schemes. German VDI 3957 standards similarly use mapped epiphytic lichen assemblages in biomonitoring, especially for local climate-change assessment. In Norwegian subalpine
birch forests, for example, repeated monitoring over 15 years showed that, the widespread generalist
Hypogymnia physodes increased at all sites, while the subalpine birch-forest specialist
Melanohalea olivacea declined, and the greatest compositional shifts occurred where sulphur deposition decreased most. Formal community concepts also enter conservation practice unevenly. British surveys have classified saxicolous and epiphytic lichen-rich habitats, and a Welsh conservation review treated the
Lobarion and metallophyte lichens as priority lichen communities while also warning that the delimitation of such communities can be controversial. At European scale, the EuroVegChecklist, the EUNIS habitat expert system and FloraVeg.EU link syntaxa, habitat definitions and distribution data. Broader vegetation-plot infrastructures such as the European Vegetation Archive (EVA) and the global sPlot database provide a wider context for cross-regional community analysis. These tools are nevertheless much better developed for Europe and for general vegetation science than for global lichen syntaxonomy as a whole. ==Limitations and criticisms==