Lichens are classified by the fungal component. Lichen species are given the same scientific name (
binomial name) as the fungus species in the lichen. Lichens are being integrated into the classification schemes for fungi. The alga bears its own scientific name, which bears no relationship to that of the lichen or fungus. and taxonomists have estimated that the total number of lichen species (including those yet undiscovered) might be as high as 28,000. Nearly 20% of known fungal species are associated with lichens. Formerly, some lichen taxonomists placed lichens in their own division, the
Mycophycophyta, but this practice is no longer accepted because the components belong to separate
lineages. Neither the ascolichens nor the basidiolichens form
monophyletic lineages in their respective fungal phyla, but they do form several major solely or primarily lichen-forming groups within each phylum. and have a symbiotic relationship with
seaweed (such as
rockweed) and
Blidingia minima, where the algae are the dominant components. The fungi is thought to help the rockweeds to resist desiccation when exposed to air. In addition, lichens can also use
yellow-green algae (
Heterococcus) as their symbiotic partner. Lichens independently emerged from fungi associating with algae and cyanobacteria multiple times throughout history.
Fungi The fungal component of a lichen is called the
mycobiont. The mycobiont may be an
Ascomycete or
Basidiomycete. or multiple genotypes of the same alga. Although each lichen thallus generally appears homogeneous, some evidence seems to suggest that the fungal component may consist of more than one genetic individual of that species. Two or more fungal species can interact to form a lichen assemblage. Algal photobionts are called
phycobionts, while cyanobacterial photobionts are called
cyanobionts. The second most commonly represented green alga genus is
Trentepohlia. Most cyanolichen are also ascolichens, but a few basidiolichen like
Dictyonema and
Acantholichen have cyanobacteria as their partner. The most commonly occurring cyanobacterium
genus is
Nostoc. Another cyanolichen group, the
jelly lichens of the genera
Collema or
Leptogium are gelatinous and live on moist soils. Another group of large and
foliose species including
Peltigera,
Lobaria, and
Degelia are grey-blue, especially when dampened or wet. Many of these characterize the
Lobarion communities of higher rainfall areas in western Britain, e.g., in the
Celtic rain forest. Strains of cyanobacteria found in various cyanolichens are often closely related to one another. The lichen association is a close symbiosis. It extends the ecological range of both partners but is not always obligatory for their growth and reproduction in natural environments, since many of the algal symbionts can live independently. A prominent example is the alga
Trentepohlia, which forms orange-coloured populations on tree trunks and suitable rock faces. Lichen propagules (
diaspores) typically contain cells from both partners, although the fungal components of so-called "fringe species" rely instead on algal cells dispersed by the "core species". The same phycobiont species can occur in association with different fungal species as lichen partners. These multiple genotypes may better enable response to adaptation to environmental changes, and enable the lichen to inhabit a wider range of environments.
Controversy over classification method and species names There are about 20,000 known lichen
species. But what is meant by "species" is different from what is meant by biological species in plants, animals, or fungi, where being the same species implies that there is a common
ancestral lineage. Next to the Ascomycota, the largest number of lichenized fungi occur in the unassigned
fungi imperfecti, a catch-all category for fungi whose sexual form of reproduction has never been observed. Comparatively few
basidiomycetes are lichenized, but these include
agarics, such as species of
Lichenomphalia,
clavarioid fungi, such as species of
Multiclavula, and
corticioid fungi, such as species of
Dictyonema.
Identification methods Lichen identification uses growth form, microscopy and reactions to chemical tests. The outcome of the "Pd test" is called "Pd", which is also used as an abbreviation for the chemical used in the test,
para-phenylenediamine. The extreme habitats that lichens dominate, such as tundra, mountains, and deserts, are not ordinarily conducive to producing fossils. is permineralized in the
Rhynie Chert of Scotland, dating from early
Early Devonian, about 400 million years ago. and
Prototaxites were lichenized. Thus lichenized
Ascomycota and
Basidiomycota were a component of
Early Silurian-
Devonian terrestrial ecosystems. The ancestral ecological state of both
Ascomycota and
Basidiomycota was probably
saprobism, and independent lichenization events may have occurred multiple times. It has also been claimed that
Ediacaran fossils including
Dickinsonia, and 2200 million year old
Diskagma. Discovery of these fossils suggest that fungi developed symbiotic partnerships with photoautotrophs long before the evolution of vascular plants, though the Ediacaran lichen hypothesis is largely rejected due to an inappropriate definition of lichens based on taphonomy and substrate ecology. However, a 2019 study by the same scientist who rejected the Ediacaran lichen hypothesis, Nelsen, used new time-calibrated phylogenies to conclude that there is no evidence of lichen before the existence of vascular plants. Lecanoromycetes, one of the most common classes of lichen-forming fungi, diverged from its ancestor, which may have also been lichen forming, around 258 million years ago, during the late Paleozoic period. However, the closely related clade Euritiomycetes appears to have become lichen-forming only 52 million years ago, during the early Cenozoic period. == Ecology and interactions with environment ==