Parmelia (fungus)

Parmelia was circumscribed by Swedish lichenologist Erik Acharius in 1803. His idea of the genus, which included foliose species with lecanorine apothecia, was quite broad and included species that are now dispersed in many different genera and families, such as the Peltigeraceae (Lobaria), the Pannariaceae (Pannaria, Parmeliella), the Physciaceae (Physcia, Heterodermia, Physconia), the Teloschistaceae (Xanthoria), as well as the Parmeliaceae (Cetraria, Hypogymnia, and Parmeliopsis). Its broad circumscription meant that almost every lichen with a thalline apothecial rim was included by 19th-century authors.{{sfn|Hale|1987|page=1}}

In an attempt to create more homogeneous groups of taxa, lichenologists created new segregate genera for species once in Parmelia. These included Menegazzia (1854), Parmotrema (1860), Anzia (1861), Parmeliopsis (1869), Hypogymnia (1896), Pseudevernia (1903), Pannoparmelia (1912), and Pseudoparmelia (1914).{{sfn|Hale|1987|page=1}} In the 1970s and 1980s, electron microscopy was used to help divide several Parmelia species groups into different genera based on the structure of their cortex. These include Arctoparmelia, Bulbothrix, Canoparmelia, Cetrariastrum, Concamerella, Everniastrum, Flavoparmelia, Hypotrachyna, Neofuscelia, Paraparmelia, Parmelina, Parmotrema, Pseudoparmelia, Relicina, Relicinopsis, Xanthomaculina, and Xanthoparmelia. Another group of species was segregated on the basis of the presence of pseudocyphellae: Punctelia, Flavopunctelia, and Melanelia. In Mason Hale's 1987 monograph on Parmelia, he commented: "The group has been further subdivided ... now leaving in Parmelia a small, apparently irreducible assemblage of species typified by P. saxatilis".{{sfn|Hale|1987|page=1}} In 2016, however, sixteen mostly Australasian species were moved to the new genus Notoparmelia; these species had been shown by molecular phylogenetic analysis to form a monophyletic lineage in Parmelia.

Traditional morphological and chemical characteristics have proven insufficient for reliable species identification within Parmelia. For example, while {{lichengloss|pruina}} (a dusty looking surface appearance) was previously considered a diagnostic feature in {{lichengloss|isidiate}} Parmelia species, studies have shown that individual specimens can vary in their degree of pruinosity. Similarly, in Parmelia species without vegetative propagules, the presence of lobaric acid was once considered diagnostic.{{sfn|Hale|1987}} However, this secondary metabolite has been found to be inconsistently present within specimens of the same species. The incorporation of molecular methods in Parmelia taxonomy has led to the discovery of cryptic taxa, such as P. encryptata and near-cryptic species like P. rojoi.

There are two foliose fossil taxa, Parmelia ambra and P. isidiiveteris, that have been placed provisionally in genus Parmelia due to their overall resemblance to members of this genus. Later authors have suggested, however, that this generic placement is not appropriate for the current concept of Parmelia, and that because of the dearth of specimens available for analysis, it is impossible to know for certain which of the many foliose genera in the family Parmeliaceae is best suited for these fossils.

Parmelia species have a foliose (leafy) thallus with a substrate attachment ranging from loose to tight. The lobes comprising the thallus are rounded, more or less straight, and may be contiguous or overlapping (imbricate). The texture of the upper thallus ranges from smooth to foveolate (covered with puts and depressions). The colour is typically green to whitish grey to greyish brown, and some species have a coating of pruina on the surface. Most species have pseudocyphellae (tiny pores that allow for gas exchange), and vegetative propagules such as isidia or soredia, or both. The lower surface of the thallus is black (or close to it), and has rhizines (either simple or branched) that function as holdfasts to attach it to its substrate. The cortex (botany) is paraplectenchymatous – a cell arrangement where the hyphae are oriented in all directions.

The ascomata of Parmelia species are in the form of apothecia, which have a zeorine structure (an apothecium in which a proper exciple is enclosed in the thalline exciple) and are laminal (superficial on the surface) to somewhat stipitate. The exposed upper surface of the hymenium, the disc, is brown, rarely blackish. The asci are eight-spored, while the spores are colorless, ellipsoid, and measure 10–18 by 5–13 μm. The conidiomata are in the form of pycnidia; these black spots are laminal and immersed in the thallus surface. They produce dumbbell-shaped conidia with dimensions of 5.5–8 μm. The photobiont partners of Parmelia are green algae from the genera Asterochloris or Trebouxia.

Recent research has revealed insights into the ecological relationships between Parmelia lichens and their algal partners ({{lichengloss|photobionts}}). While earlier studies suggested that Parmelia species were highly selective in their choice of photobionts, a 2024 study revealed a more nuanced picture. By examining the genetic diversity of both fungi and algae at the species and haplotype (genetic variant) levels, the researchers found that some widespread Parmelia species, such as P. saxatilis and P. sulcata, exhibit more flexibility in their photobiont associations than previously thought. This adaptability may help explain these species' broad geographic distributions. The study also found that the mode of reproduction (whether through soredia or isidia, two types of vegetative propagules) did not significantly affect the specificity of fungal-algal partnerships.

Parmelia lichens are food for the caterpillars of certain Lepidoptera, such as the bagworm moth Taleporia tubulosa.

The mycobiome (the complete community of fungi living within the lichen thallus) reveals that Parmelia lichens are more complex than the traditional view of a simple fungal-algal partnership. Research comparing lichen mycobiomes between Turkey and South Korea has revealed that Parmelia lichens host complex fungal communities dominated by Ascomycota (40%) and Basidiomycota (24%), with Capnodiales being particularly prevalent. While both host species identity and geographic location influence these fungal communities, geographic factors have a stronger effect on mycobiome composition than the lichen host genus. The Parmelia mycobiome includes core fungal members like Cutaneotrichosporon debeurmannianum and various Chaetothyriales and Dothideomycetes species, which persist across different locations. These fungal communities appear to be highly adaptable, allowing Parmelia to maintain consistent mycobiome features across diverse environmental conditions.

Two species of Parmelia have been assessed by the International Union for Conservation of Nature for the global IUCN Red List. Both Parmelia saxatilis and P. sulcata are considered species of least concern due to their widespread distribution, abundance, and stable populations.

Eleven Parmelia species were recorded for Europe in 2008. Nine occur in the Nordic lichen flora, of which P. saxatilis and P. sulcata are most common and widespread.

File:Parmelia hygrophila - Flickr - pellaea.jpg

File:Parmelia omphalodes - Flickr - pellaea.jpg

File:Parmelia sulcata - Lindsey.jpg

• Parmelia adaugescens {{small|Nyl. (1890)}}
• † Parmelia ambra {{small|Poinar, E.B.Peterson & Platt (2000)}} – extinct; fossilized in Dominican amber
• Parmelia asiatica {{small|A.Crespo & Divakar (2011)}} – China
• Parmelia barrenoae {{small|Divakar, M.C.Molina & A.Crespo (2005)}} – Europe
• Parmelia cochleata {{small|Zahlbr. (1927)}}
• Parmelia discordans {{small|Nyl. (1886)}} – Europe
• Parmelia encryptata {{small|A.Crespo, Divakar & M.C.Molina (2011)}}
• Parmelia ernstiae {{small|Feuerer & A.Thell (2002)}} – Europe
• Parmelia fertilis {{small|Müll.Arg. (1887)}}
• Parmelia fraudans {{small|(Nyl.) Nyl. (1861)}}
• Parmelia holleana {{small|Mont. & Bosch (1856)}}
• Parmelia hygrophila {{small|Goward & Ahti (1983)}} – North America
• Parmelia hygrophiloides {{small|Divakar, Upreti & Elix (2003)}} – India
• Parmelia imbricaria {{small|Goward, Divakar, M.C.Molina & A.Crespo (2017)}}
• † Parmelia isidiiveteris {{small|Poinar, E.B.Peterson & Platt (2000)}} – extinct; fossilized in Dominican amber
• Parmelia lambii {{small|Øvstedal (2009)}} – Antarctica
• Parmelia marmariza {{small|Nyl. (1890)}}
• Parmelia mayi {{small|Divakar, A.Crespo & M.C.Molina (2011)}} – northeastern North America
• Parmelia meiophora {{small|Nyl. (1889)}}
• Parmelia neocaledonica {{small|Nyl. (1885)}}
• Parmelia neodiscordans {{small|Hale (1987)}}{{sfn|Hale|1987|page=30}}
• Parmelia niitakana {{small|Asahina (1951)}}
• Parmelia omphalodes {{small|(L.) Ach. (1803)}} – Europe
• Parmelia pinnatifida {{small|Kurok. (1976)}} – Europe
• Parmelia protosignifera {{small|Elix & J.Johnst. (1988)}} – Australia
• Parmelia pseudoshinanoana {{small|Asahina (1951)}}
• Parmelia rojoi {{small|A.Crespo, V.J.Rico & Divakar (2020)}} – Europe
• Parmelia saxatilis {{small|(L.) Ach. (1803)}} – Europe
• Parmelia sectilis {{small|Hale (1968)}}
• Parmelia serrana {{small|A.Crespo, M.C.Molina & D.Hawksw. (2004)}} – Europe
• Parmelia shinanoana {{small|Zahlbr. (1927)}}
• Parmelia skultii {{small|Hale (1987)}}{{sfn|Hale|1987|page=43}} – Europe
• Parmelia squarrosa {{small|Hale (1971)}} – Europe
• Parmelia submontana {{small|Hale (1987)}} – Europe
• Parmelia submutata {{small|Hue (1899)}}
• Parmelia sulcata {{small|Taylor (1836)}} – Europe
• Parmelia sulymae {{small|Goward, Divakar, M.C.Molina & A.Crespo (2017)}}

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{{cite journal |last1=Ossowska|first1=Emilia |last2=Guzow-Krzemińska |first2=Beata |last3=Kolanowska |first3=Marta|last4=Szczepańska |first4=Katarzyna |last5=Kukwa |first5=Martin |title=Morphology and secondary chemistry in species recognition of Parmelia omphalodes group – evidence from molecular data with notes on the ecological niche modelling and genetic variability of photobionts |journal=MycoKeys |volume=61 |year=2019 |pages=39–74 |doi=10.3897/mycokeys.61.38175 |pmid=31866741 |pmc=6920222 |doi-access=free}}

{{cite journal |last1=Ossowska |first1=Emilia Anna |last2=Guzow-Krzemińska |first2=Beata |last3=Kukwa |first3=Martin |last4=Malíček |first4=Jiří |last5=Schiefelbein |first5=Ulf |last6=Thell |first6=Arne |last7=Kosecka |first7=Magdalena |title=The application of haplotypes instead of species-level ranks modifies the interpretation of ecological preferences in lichen symbiont interactions in Parmelia |journal=Scientific Reports |volume=14 |issue=1 |date=2024-08-24 |doi=10.1038/s41598-024-70667-1 |doi-access=free |page=19682|pmc=11344855 }}

{{cite journal |last1=Øvstedal, D.O. |last2=Lewis Smith, R.I. |year=2009 |title=Further additions to the lichen flora of Antarctica and South Georgia |journal=Nova Hedwigia |volume=88 |issue=1–2 |pages=157–168|doi=10.1127/0029-5035/2009/0088-0157 }}

{{cite journal |last1=Poinar |first1=G. O. |last2=Peterson |first2=E. B. |last3=Platt |first3=J. L. |title=Fossil Parmelia in new world amber |journal=The Lichenologist |volume=32 |issue=3 |year=2000 |pages=263–269 |doi=10.1006/lich.1999.0258}}

{{cite web |title=Synonymy. Current Name: Parmelia Ach., Methodus, Sectio post. (Stockholmiæ): xxxiii, 153 (1803) |url=http://www.speciesfungorum.org/Names/SynSpecies.asp?RecordID=3730 |publisher=Species Fungorum |access-date=17 March 2024}}

{{cite journal |last1=Thell |first=A. |last2=Elix |first2=J.A. |last3=Feuerer |first3=T. |last4=Hansen |first4=E.S. |last5=Kärnefelt |first5=I. |last6=Schuler |first6=N. |last7=Westberg |first7=M. |year=2008 |title=Notes on the systematics, chemistry and distribution of European Parmelia and Punctelia species (lichenized ascomycetes) |journal=Sauteria |volume=15 |pages=545–559}}

{{cite book |last1=Thell |first1=A. |last2=Thor |first2=G. |last3=Ahti |first3=T. |chapter=Parmelia |pages=83–89 |title=Nordic Lichen Flora |year=2011 |volume=4 |editor-last1=Thell |editor-first1=Arne |editor-last2=Moberg |editor-first2=Roland |publisher=Svenska Botaniska Föreningen |isbn=978-91-85221-24-0}}

{{cite journal |last1=Yang |first1=Jiho |last2=Woo |first2=Jung-Jae |last3=Sesal |first3=Cenk |last4=Gökalsın |first4=Barış |last5=Eldem |first5=Vahap |last6=Açıkgöz |first6=Birkan |last7=Başaran |first7=Tunahan Irmak |last8=Kurtuluş |first8=Gamze |last9=Hur |first9=Jae-Seoun |title=Continental scale comparison of mycobiomes in Parmelia and Peltigera lichens from Turkey and South Korea |journal=BMC Microbiology |volume=24 |issue=1 |year=2024 |pmid=38965478 |pmc=11223332 |doi=10.1186/s12866-024-03388-0 |doi-access=free |page=e243}}

{{cite book |editor-last=Yusuf |editor-first=Mohd |chapter=A review on trends and opportuny in edible lichens |last1=Yusuf |first1=Mohd |title=Lichen-Derived Products: Extraction and Applications |publisher=John Wiley & Sons, Inc |publication-place=Hoboken, NJ |year=2020 |isbn=978-1-119-59171-9 | oclc=1182019542 |page=}}

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• {{cite book |author-link=Mason Hale |last1=Hale |first1=Mason E. |year=1987 |title=A Monograph of the Lichen Genus Parmelia Acharius sensu stricto (Ascomycotina: Parmeliaceae) |series=Smithsonian Contributions to Botany |volume=66 |publisher=Smithsonian Institution Press |location=Washington, D.C. |url=https://archive.org/details/monographoflich661987hale/page/n1/mode/2up}}

{{Taxonbar|from=Q310585}}

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Category:Lichen genera

Category:Taxa named by Erik Acharius

Category:Lecanorales genera

Category:Taxa described in 1803