Species of
Lepraria are characterised by their powdery,
crustose thalli, which are composed almost entirely of
soredia—small, granular clusters of fungal and algal cells that allow for
asexual reproduction. The
thallus may appear loosely attached or more firmly integrated with the
substrate, forming irregular, diffuse patches or well-defined, margins. Most species exhibit shades of grey, greenish-grey, or cream, lacking the bright pigmentation seen in some other lichens. Unlike many lichen-forming fungi,
Lepraria species have not been observed producing fruiting bodies (
apothecia) or sexual spores (
ascospores). Instead, they are thought to spread mainly by soredia. In some species, soredia clump into larger clusters (), which can make the thallus look rough or grainy. In wetter or more sheltered habitats, some species may look cottony or form a thin, membrane-like layer. The thallus may also include a basal —a mat of fungal
hyphae—whose colour can range from white to dark brown or black.
Genomic work on
Lepraria neglecta suggests that "asexual" in this genus mainly means "no sexual structures observed". Although
Lepraria has not been seen forming sexual structures and is often treated as clonal, a chromosome-scale genome assembly of
L. neglecta identified a
mating-type locus (
MAT), including conserved
MAT1-2 genes and a putative
MAT1-1 pseudogene. Later comparisons across multiple
Lepraria species found intact mating-type loci present as single copies. Both MAT1-1 and MAT1-2 idiomorphs (alternative, non-homologous DNA sequences found at the same mating-type locus) occur in the genus, consistent with a
heterothallic system. The same work recovered many genes and many genes related to
meiosis and to the development of fungal sexual structures. It suggested that
Lepraria may undergo cryptic recombination (genetic mixing that leaves no obvious sexual structures) even though sexual reproduction has not been observed in over 200 years of lichenological study. One proposed explanation is a
parasexual cycle, in which
recombination occurs without visible fruiting bodies. The genus
Lepraria is chemically diverse, with species producing a wide range of
secondary metabolites, including
depsides,
depsidones,
aliphatic acids, and
terpenoids. These substances, detectable through
thin-layer chromatography, are often the primary basis for distinguishing species. Many species grow in humid, shaded environments such as tree bark, moss-covered rocks, and soil, although some are found in more exposed, dry habitats.
Molecular phylogenetics studies have refined the circumscription of
Lepraria. Several species formerly included in the genus, particularly those producing
usnic acid, have been reassigned to other genera within the
Lecanoromycetes, including
Lecanora and
Leprocaulon. This reclassification has clarified
Lepraria as a lineage most closely related to the family
Stereocaulaceae. ==Habitat, distribution, and ecology==