Historical taxonomy Genus
Schaereria was named and
circumscribed by the German lichenologist
Gustav Wilhelm Körber in 1855, with
Schaereria lugubris assigned as the
type, and at the time, only species. According to
Hannes Hertel and L. Zürn, it is clear that he was actually referring to
Schaereria cinereorufa , but he mistakenly believed he had
Ropalospora lugubris (formerly
Lecidea lugubris) on hand. For this reason, Körber's name is not available for the genus. Despite this,
Schaereria was accepted a few years later (in 1860) by
Theodor Magnus Fries, who used it in his work on Arctic, European, and Greenlandic lichens. It subsequently fell into disuse for more than a century after
William Nylander placed it in
synonymy with
Lecidea.
Josef Poelt and
Antonín Vězda resurrected
Schaereria in 1977, and included
S. cinereorufa. The genus name honours the
Swiss pastor and lichenologist
Ludwig Emanuel Schaerer. In 1989,
David Leslie Hawksworth and John Charles David put forth a proposal to
conserve the name
Schaereria (as defined by
Theodor Magnus Fries in 1874) for a group of species with
S. cinereorufa as the type species, instead of using
Schaereria as defined by Körber. The reason for this proposal is that
S. cinereorufa is a well-known species under the name
Schaereria, while Körber applied the name
S. lugubris to a different species that should have been named
S. cinereorufa. By conserving the name
Schaereria as suggested, it avoids the need to create a new name for the same group of lichens and prevents confusion with another genus called
Ropalospora. By accepting this proposal, both
Ropalospora and
Schaereria could continue to be used with their current meanings, avoiding any unnecessary changes. In the subsequent recommendations of the Committee for Fungi and Lichens, they agreed that it was desirable to conserve the genus with one of the original specimens used by the author, noting that this specimen was erroneously labelled
Schaereria lugubris, but clearly belongs to
S. cinereorufa.
Schaereria is one of several dozen genera whose species were previously included in the large genus
Lecidea. However,
Lecidea has a different
ascus structure than
Schaereria. The family Schaereriaceae was first proposed by French lichenologist
Maurice Choisy in 1949, but he did not publish the name
validly as it did not meet the criteria for publication as determined by the
International Code of Nomenclature for algae, fungi, and plants.
Josef Hafellner published the family name Schaereriaceae validly in 1984.
Classification Hafellner noted some similarities in the characteristics of the
hymenium between the Schaereriaceae and the order
Pezizales, and the family was included there in the 1985 version of the
Outline of the Ascomycota. This classification was later shown to be inappropriate as the Schaereriaceae do not have
operculate ascia characteristic of the Pezizales. After this the family was associated with either the Teloschistineae (a
suborder of the
Teloschistales), the Agyriineae (a suborder of the
Lecanorales), or placed in the order
Sarrameanales.
Schaereria has also been included and excluded from the family
Lecideaceae several times.
Molecular studies that have included
Schaereria species have shown that it occupies a relatively isolated
phylogenetic position. In 2018,
H. Thorsten Lumbsch and Steven Leavitt proposed the new order Schaereriales to contain the family, segregating the order Schaereriales from Sarrameanales. They considered the Schaereriales to have "unresolved relationships" in the parent taxon,
Ostropomycetidae. In their analysis, which used a "temporal" method to group together comparable ordinal and family ranks, Schaereriales has a
sister group relationship with the order Sarrameanales. Both Schaereriales and Sarrameanales form a
clade that is sister to the
Baeomycetales. In a critical review of the temporal method for lichen classification,
Robert Lücking found flaws in their analysis and rejected the proposed split, instead retaining both Sarrameanaceae and Schaereriaceae in the Sarrameanales. ==Description==