Historical taxonomy The family was
circumscribed by the French botanist
François Fulgis Chevallier in his 1826 work . His original included basic
morphological characters of the
type genus,
Roccella: "Apothecia shield-like, stalked or embedded in the
thallus, with a coloured that is (firm and somewhat flexible), initially concave and eventually becoming flat and margined, with a thin margin. Thallus erect or (hanging), branched, tufted, cartilaginous-homogeneous (uniformly firm and somewhat flexible), and in many cases compressed". Chevallier included the genus
Roccella in the family, which was erected in 1805 by the Swiss botanist
Augustin Pyramus de Candolle with
Roccella fuciformis as the
type species. Three genera in the Roccellaceae were previously placed in distinct families. These are the Lecanactidaceae for genus
Lecanactis (
Ernst Stizenberger, 1862); the Chiodectonaceae for genus
Chiodecton (
Alexander Zahlbruckner, 1905); and Dirinaceae for genus
Dirina (Zahlbruckner, 1905). These families have since been
synonymised with Roccellaceae.
Etymology Following
standard practice in
botanical nomenclature, the name
Roccellaceae is derived from the
type genus Roccella, with the suffix denoting its
rank as a family. The genus name
Roccella probably originates from the Italian word , a common name for lichens, itself derived from the
Latin (meaning ) with the
diminutive suffix -ella.
Classification Roccellaceae is the largest family in the order
Arthoniales by number of genera. Its status as a distinct family was firmly established by genetic evidence, first demonstrated in a large-scale
phylogenetic study by Damien Ertz and Anders Tehler in 2011. This study distinguished Roccellaceae from
Opegraphaceae and laid the groundwork for further research. Additional molecular phylogenetic studies have since reinforced its position as a separate family within the order. The family is part of one of the three major evolutionary lines identified within Arthoniales, specifically the
lineage that includes
Lecanographaceae,
Opegraphaceae, Roccellaceae, and
Roccellographaceae. These four families are consistently grouped together in phylogenetic analyses, suggesting they are closely related. However, the exact relationships among these families are not fully resolved, partly because the deeper branches within the Roccellaceae (the
basal nodes) tree lack strong evidence, making the connections uncertain. This phylogenetic uncertainty may explain some differences in
tree structure among various studies. Within Roccellaceae in the
strict sense, Ertz and Tehler identified five main lineages: the
sister pair
Dirina and
Roccella;
Chiodecton natalense and
Lecanactis (grouped together but not identified as a sister pair);
Roccellina;
Syncesia; and
Dendrographa. Roccellaceae was the only family in their analysis to include large genera that had been thoroughly sequenced, such as
Roccella and
Roccellina. Roccellaceae is distinct from
Arthoniaceae, the largest family in the order. This distinction is supported by both genetic and morphological differences, particularly in
ascus type. Roccellaceae typically have cylindrical asci, whereas Arthoniaceae have more or less spherical () to club-shaped () asci. Some
synapomorphies for Roccellaceae include the reduction of the , the protective layer around the
hymenium, (with a reversal in
Lecanactis) and the loss of the gelatinous sheath surrounding
ascospores. These characteristics are significant because they provide morphological support for the family's
monophyly, complementing the molecular data. The reduction of the proper exciple suggests a shared evolutionary trend within the family, possibly related to environmental adaptations or reproductive strategies. The absence of a gelatinous sheath around ascospores, a feature often associated with spore dispersal and protection, indicates a unique developmental pathway in Roccellaceae compared to related families. The reversal of the reduced exciple in
Lecanactis demonstrates that even synapomorphies can exhibit exceptions within a monophyletic group. Some genera previously assigned to Roccellaceae, such as
Enterographa and
Erythrodecton, have been shown to belong to a separate, well-supported
clade distinct from Roccellaceae. This was first suggested by Ertz and Tehler in 2011 and later confirmed by subsequent studies. While Roccellaceae includes a diverse range of species, no former members of the genus
Arthonia are currently classified within it. This taxonomic separation aligns with morphological and genetic distinctions between the families.
Molecular phylogenetics Phylogenetic studies of Roccellaceae have made substantial progress in recent decades. Early work in the 1990s used
cladistic methods based on morphological and chemical characteristics. Tehler's 1990 study was among the first to apply cladistic analysis to relationships within Arthoniales and Roccellaceae, using type species of genera as the end points of the
evolutionary tree. This early work supported the monophyly of Roccellaceae within Arthoniales, based on synapomorphies such as cortex
plectenchyma. It also highlighted the ecological association of many Roccellaceae species with coastal habitats and suggested multiple origins of the fruticose (shrub-like) habit within the family, with reversals to crustose forms in some lineages. Molecular phylogenetic studies of Roccellaceae began in the late 1990s, with early work utilising both
internal transcribed spacer (ITS) and small subunit ribosomal DNA (
SSU rDNA) sequences. These initial studies revealed that fruticose and crustose growth forms had evolved multiple times within the family. They also suggested a broader circumscription of Roccellaceae, incorporating genera previously assigned to other families such as
Lecanactis,
Schismatomma, and
Syncesia. However, these studies also highlighted challenges in molecular analysis of the family, particularly in aligning the highly variable ITS regions. The usefulness of ITS sequences was found to vary among genera, proving more informative for some (e.g.,
Roccella,
Dendrographa) than others (e.g.,
Roccellina,
Dirina). }} Building on these early findings, more recent molecular studies, particularly those using nuclear large subunit ribosomal RNA (LSU) and
RNA polymerase II second largest subunit (RPB2) gene sequences, have provided insights into the phylogenetic relationships within Roccellaceae. These studies have revealed that the family is divided into two main clades, each with distinct characteristics. The first clade, the "pale hypothecium clade", includes genera such as
Llimonea,
Combea,
Pentagenella,
Hubbsia, and
Ingaderia. This group is characterised by species with pale-coloured and has a range of growth forms from crustose to fruticose. The second major clade, known as the "carbonaceous hypothecium clade", encompasses genera such as
Roccella,
Dirina,
Roccellina,
Lecanactis,
Schismatomma,
Dendrographa, and
Syncesia. Species in this group are distinguished by their black, hypothecia. Like the first clade, this group also displays a variety of growth forms from crustose to fruticose. The carbonaceous hypothecium clade further divides into two groups: the
Dirina-
Roccella subgroup and the
Lecanactis-
Schismatomma-
Dendrographa-
Syncesia-
Roccellina subgroup. A 2014 study, based on analyses of 341 sequences representing about 114 species, has further refined the understanding of these relationships. The genus
Cresponea was identified as possibly
sister to the rest of the Roccellaceae. The first major clade was expanded to include genera such as
Dichosporidium,
Enterographa,
Erythrodecton, and
Mazosia, in addition to
Cresponea. In the second major clade,
Sigridea californica was resolved as sister to the rest of the group, with the genera
Gyrographa and
Psoronactis forming a well-supported group near the base of this clade. These phylogenetic findings have important implications for understanding the evolution of morphological traits within the family, particularly the development of different growth forms. The research has shown that the fruticose growth form has evolved independently multiple times within the family. This
convergent evolution is particularly evident in the genus
Roccellina, where the fruticose form has appeared several times. The molecular data have also led to major taxonomic revisions within the family. Several species previously classified in other genera, particularly
Opegrapha, have been transferred to Roccellaceae based on these analyses. Additionally, some genera have been shown to be
polyphyletic (derived from more than one evolutionary ancestor), leading to the description of new genera to accommodate distinct lineages. ==Evolution of growth forms==