Verrucariaceae

The Verrucariaceae are a family of lichens and a few non-lichenised fungi in the order Verrucariales. The lichens have a wide variety of thallus forms, from crustose to foliose and squamulose. Most of them grow on land, some in freshwater and a few in the sea. Many are free-living but there are some species that are parasites on other lichens, while one marine species always lives together with a leafy green alga.
Several characteristics of the spore-bearing structures, the ascomata, define the family, including their perithecioid form–more or less spherical or flask-shaped, with a single opening and otherwise completely enclosed by a wall. Squamulose members of the Verrucariaceae with simple ascospores, and without algae in the spore-bearing region are known as lichens; there are more than 80 of these species. The family has several dozen lichenicolous examples, including a few genera that contain solely lichenicolous members. An unusually diverse variety of photobiont partners have been recorded, mostly green algae, but also brown algae and yellow-green algae.
The family, circumscribed nearly two centuries ago, now includes 56 genera and about one thousand species, and is the third-largest family of lichen-forming fungi. Most diversity occurs in temperate climates of the Northern Hemisphere. Rocks and soil are the most common substrates for the Verrucariaceae, with growth on wood, bark, and leaves less common. Several species are components of biological soil crusts and contribute to the formation and stabilisation of soil. Some semi-aquatic lichens occur in this family, including about two dozen species of marine lichens. Traditionally, Verrucariaceae species have been grouped into genera based largely on the growth form of the thallus, and on the septation of the spores. Molecular phylogenetics research conducted in the past couple of decades has helped to clarify the phylogenetic framework of the family, but many genera remain poorly investigated.

Systematics

Taxonomic history

A system of classification for the Verrucariaceae was first suggested by German botanist Franz Gerhard Eschweiler in 1824. In his scheme, taxa were distributed between two taxonomic ranks intended as names of orders, the Dermatocarpeae and the Verrucariae, based on thallus structure. The Dermatocarpeae contained squamulose and foliose species, while the Verrucariae had the crustose species. Although several genera were included in each cohor, most of these are now known to be not closely related and are classified in other families; the only currently applicable genera from Eschweiler's list are Dermatocarpon and Endocarpon in the Dermatocarpeae, and Verrucaria in the Verrucariae. Because Eschweiler published these taxa as "cohors", they do not meet the requirements of valid publication according to nomenclatural rules, and the authorship of the family cannot be attributed to him. The family was validly published by Jonathan Carl Zenker three years later in 1827, with Verrucaria assigned as the type genus. In Zenker's proposed classification, the family was divided into Cryolichenes, which contained Verrucaria and other unrelated crustose genera, and Phyllolichenes, with genus Endocarpon representing the squamulose and foliose taxa.
Nearly a century later, Alexander Zahlbruckner's publication Catalogus Lichenum Universalis became an influential work for lichen classification. He divided the order Verrucariales into two families, Dermatocarpaceae and Verrucariaceae, the latter of which was divided into 13 genera, 9 of which remain in the family. Around this time, German lichenologist Georg Hermann Zschacke contributed the first extensive monographic series on the family in a set of publications from 1913 to 1927. His classification scheme was similar to that of Zahlbruckner.
Historically, there were three main morphological criteria used to separate genera in the Verrucariaceae: spore septation ; the structure of the thallus; and the presence or absence of algae in the spore-bearing tissue, the hymenium. However, even before the advent of molecular phylogenetics, the use of these have been contentious, as several authors have considered them artificial, and not representative of true phylogenetic relationships. As one example, the use of the degree of spore septation as a major character to circumscribe genera was shown to be problematic when it was demonstrated that in some instances, spore septation is variable with a single species. In 1953, Czech lichenologist Miroslav Servít proposed a new system of classification for the Verrucariaceae, based largely on characteristics of the —the upper, often pigmented, part of the fruiting body covering the. Josef Halda summarised Servít's contribution: "Servít's studies contributed to complicacy of the taxonomy of the whole order Verrucariales. The huge amount of newly described taxa and new combinations almost brought an end to good orientation necessary for new researchers. Any of his studies is not really a revision since it contains only a further list of new taxa and their combinations within the many genera and family framework. Servít neither returned to his newly described taxa nor he revised them in his monographs". Servít's classification was not widely adopted by future authors, and according to Cécile Gueidan and colleagues, it was the lack of clear morphological characteristics in the Verrucariaceae that hindered future proposals for changes in classification.
Because of the relatively simple morphology of most of the crustose Verrucariaceae, and the fact that this morphology is often variable depending on environmental conditions, identification and delimitation of the species in this family is difficult. Many morphological traits are symplesiomorphic or homoplastic, and are not suitable as distinguishing characters to define genera. Studies have demonstrated several examples of cryptic species–genetically distinct lichens that are difficult or impossible to distinguish by morphology alone–in the genera Hydropunctaria, Sporodictyon, and Verrucaria. These difficulties are reflected in the number of species of uncertain status described by previous lichenologists: of the 84 Verrucariaceae species described by Zahlbruckner, about 37 are currently accepted as valid species; Zschacke described 133 species, of which about 50 are now accepted; of Servít's 424 described species, only about 60 are accepted.

Molecular phylogenetics

The first molecular phylogenetic studies involving the Verrucariaceae, published between 2001 and 2006, were used to show the higher-level relationships in the Eurotiomycetes. This research showed that Verrucariales has a sister relationship to the Chaetothyriales, an order of non-lichenised fungi. In 2007 and 2009 publications, Cécile Gueidan and colleagues used molecular data from 83 Verrucariaceae taxa to demonstrate that many of the morphologically defined genera were polyphyletic—of mixed evolutionary origins. In their analysis, they identified 4 major lineages in the family, including ten monophyletic subgroups. They proposed several taxonomic changes to more closely align the morphology-based classification with the molecular phylogeny, including the new genera Parabagliettoa, Hydropunctaria, and Wahlenbergiella and several new combinations. Ancestral state reconstruction analysis suggests that the most recent common ancestor of the Verrucariaceae was probably crustose, had a weakly differentiated upper, a hymenium free of algae, and ascospores. The first lichen-forming fungus to have its genome sequenced was the mycobiont of Endocarpon pusillum, the type species of Endocarpon and a member of the Verrucariaceae.

Etymology

As is standard practice in botanical nomenclature, the name Verrucariaceae is based on the name of the type genus, Verrucaria, with the ending -aceae indicating the rank of family. The genus name is derived from the Latin word verruca and the suffix -aria.

Synonymy

Some genera now classified in the Verrucariaceae were considered by past authors to be distinctive enough to warrant inclusion in their own family. These historical family names are considered synonymous with Verrucariaceae:

Endocarpaceae – type genus: Endocarpon
Dermatocarpaceae – type genus: Dermatocarpon
Glomerillaceae – type genus: Glomerilla
Endopyreniaceae – type genus: Endocarpon
Mastodiaceae – type genus: Mastodia
Pyrenothamniaceae – type genus: Pyrenothamnia, now synonymised with Endocarpon
Thelidiaceae – type genus: Thelidium
Bagliettoaceae – type genus: Bagliettoa
Staurotheleaceae – type genus: ''Staurothele''
Description

Species of Verrucariaceae occur in a wide variety of morphologies, including crustose, foliose, and squamulose forms. The size of the lichen body, or thallus, usually ranges from a few millimetres to about in diameter. Typical thallus colours are greenish, brownish, grey, or black. The medulla is the internal layer of fungal hyphae below the cortex and the algal layer; three types occur in the Verrucariaceae. The type has loosely interlaced hyphae with elongated cells, the type comprises tightly arranged and rounded cells, and the mixed-type medulla has both rounded and elongated cells.
The ascomata are in the form of a perithecium, and these structures are often —meaning they have a shield-like stromatic growth, made of both fungal hyphae and host tissue, around the ostiole. In these instances the involucrellum is typically well developed. The is a term for all kinds of hyphae or other tissues between asci. In the Verrucariaceae, the hamathecium is , and usually hemiamyloid. The perithecia have short ; these vertical, filament-like support structures are similar to paraphyses but grow downwards in the perithecial cavity before ascus formation. In two genera, Endocarpon and Staurothele, algal cells occur in the hamathecium. Asci are usually bitunicate, meaning they have two functional ascal wall layers. The release of spores from the ascus, or dehiscence, has been shown in some species to involve the gelification of the outer wall apex. The ascospores usually number eight per ascus, are variably septate, and often have a gelatinous covering.
There have been several publications investigating the anatomy and development of the perithecia in Verrucariaceae species. Despite this, it is not clear whether the development of ascomata in the family should be considered ascohymenial or ascolocular.
Members of the Verrucariaceae that are squamulose, have simple ascospores, and lack algae in the hymenium were historically classified in the genus Catapyrenium. These species were later divided into several genera based on the structure of their pycnidia; the validity of this generic splitting was confirmed with phylogenetic analyses. The so-called "catapyrenioid" lichens include members of Anthracocarpon, Catapyrenium, Heteroplacidium, Involucropyrenium, Neocatapyrenium, Placidiopsis, Placidium, and Scleropyrenium, and, as of 2010, numbered 81 species.
The morphological variety of the thallus in the Verrucariaceae includes some rarely encountered forms. For example, the thallus of Flakea papillata consists of what has been described as "minute 'lawns' of small leaflets", in which the algae are arranged in a net-like structure of adjacent cells, one cell layer thick. In Psoroglaena stigonemoides, the thallus consists of tiny coral-like branches of algal threads that are covered by a layer of pimpled fungal hyphae. In the sterile lichen Normandina pulchella, the thallus comprises small bluish-green squamules. These squamules have edges can extend upward to form structures similar in appearance to the basidiolichen species Lichenomphalia hudsoniana, or in other instances transform into soralia, somewhat resembling the leprose genus Lepraria.