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Pulchrocladia retipora

March 12, 2024

Pulchrocladia retipora, commonly known as the coral lichen, is a species of fruticose lichen in the family Cladoniaceae. Found predominantly in Australasia, its habitats range from the Australian Capital Territory to New Zealand's North and South Islands, and even the Pacific region of New Caledonia, where it grows in coastal and alpine heathlands. The lichen features coral-like branches and subbranches with numerous intricate, netlike perforations. It is known by multiple names, with some sources referring to it by its synonym Cladia retipora, or the common name lace lichen.

Pulchrocladia retipora
Scientific classification
Domain: Eukaryota
Kingdom: Fungi
Division: Ascomycota
Class: Lecanoromycetes
Order: Lecanorales
Family: Cladoniaceae
Genus: Pulchrocladia
Species:
P. retipora
Binomial name
Pulchrocladia retipora
(Labill.) S.Stenroos, Pino-Bodas & Ahti (2018)
Synonyms[3]
List
  • Baeomyces reteporus Labill. (1806)
  • Lichen retiporus (Labill.) DC. (1813)
  • Cenomyce retipora (Labill.) Ach. (1814)
  • Pycnothelia retipora (Labill.) Fée (1825)[1]
  • Cladonia retipora (Labill.) Fr. (1826)
  • Cladina retipora (Labill.) Nyl. (1868)[2]
  • Cladia retipora (Labill.) Nyl. (1876)
  • Clathrina retipora (Labill.) Müll.Arg. (1883)

The lichen was first scientifically collected by the French biologist Jacques Labillardière on board Bruni d'Entrecasteaux's 1792 expedition. Labillardière erroneously classified it as an alga rather than a lichen. Pulchrocladia retipora holds the distinction of being the first Australian lichen to be scientifically documented. It is now the type species of the genus Pulchrocladia. This genus was established in 2018 as a result of a molecular phylogenetics-led restructuring of the Cladoniaceae.

Taxonomy edit

The species was first formally described by Jacques Labillardière in 1806, as Baeomyces reteporus. The type specimen was collected from Tasmania.[4] This sample was obtained as part of the botanical collections he made during Labillardière's 1791–1794 voyage to the South Seas with the French explorer Antoine Bruni d'Entrecasteaux in an unsuccessful search for the French naval officer Jean-François de Galaup, comte de Lapérouse. Labillardière had first collected the lichen in 1792, and published the description in Novae Hollandiae Plantarum Specimen, erroneously describing the lichen as an alga.[5] According to the Australian lichenologist Rex Filson, this lichen was the first to be described for Australia.[6]

In its taxonomic history, the species has been shuffled to several genera, some of which are no longer used or have been synonymized with other genera.[3] In 1814, the Swedish botanist Erik Acharius changed the spelling of the specific epithet to retipora (from retepora) when he introduced the new combination Cenomyce retipora.[7] It is not known for certain if Acharius's change was intentional, as he still referred to the basionym as Baeomyces retiporus Labill. The term rete translates to "net", and the correct connecting vowel in such compounds is "i", making retiporus the appropriate spelling. The original spelling by Labillardière is considered an orthographical variant due to the lack of evidence indicating a deliberate choice of spelling. Since retipora is widely recognized, the current spelling has been maintained to avoid confusion.[8]

Other genera that have housed the species are Pycnothelia (Fée, 1825), Cladonia (Fries, 1826), Cladina (Nylander, 1868), Cladia (Nylander, 1876), and Clathrina (Johann Müller, 1883).[3] Nylander proposed the genus Cladia in 1870 to contain three Cladonia species based on their shared trait of having a cortex made of conglutinate (stuck together), longitudinally aligned filaments. In 1883,[9] the Swiss botanist Johannes Müller Argoviensis suggested that the name Cladia could be confused with Cladium (a genus of sedges), and proposed a replacement genus Clathrina.[10] Nylander persisted with the genus name Cladia, a decision that was largely accepted by later taxonomists. Cladia retiporus was the most prevalent name for the lichen for more than a century.[10]

Pulchrocladia retipora is now the type species of genus Pulchrocladia, which was circumscribed in 2018 by Soili Stenroos, Raquel Pino-Bodas, Helge Thorsten Lumbsch, and Teuvo Ahti following a large-scale molecular phylogenetic analysis of the family Cladoniaceae.[11]

It is commonly known as the coral lichen,[12] or the lace lichen.[13]

Description edit

 
Closeup of highly perforated podetia, with dark reddish brown-coloured apothecia at the end of some branchlets

Like most species in the family Cladoniaceae, Pulchrocladia retipora has a cladoniiform growth form, meaning it has both a primary (horizontal) and secondary (vertical) thallus. The primary thallus is nodular (i.e. with small raised areas or swellings), white, and only lasts for a short period.[11] Podetia are the secondary thallus that originate from the primary thallus. The podetia are typically up to 5 cm (2 in) tall, white to pale grey in colour, sometimes tinged pinkish or yellowing or superficially blackening at tips. They are rigid when dry, but become spongy when wet. They are irregularly or dichotomously branched, forming cushiony clumps. The wall is highly perforated (about 5–11 perforations per centimetre), with large, round to ellipsoidal holes. The surface of the podetium is continuously corticate and lacks soredia. The inner medulla is made of twisted strands of hyphae with a cobweb-like form.[11] The lichen, nonetheless, generates soredia-like clusters of algal cells and hyphae within the strands of the inner medulla.[14]

Apothecia occur infrequently. When present, they are small, black, peltate, and crowd together at the ends of small, terminal branches (branchlets). The colour of the hymenium ranges from dark reddish-brown to black. Ascospores have dimensions of 25–27 by 5 μm. The conidiomata end on branchlets, and are covered with translucent slime; they produce curved or straight conidia measuring 6 by 1 μm.[11] Specimens collected in Australia tend to have a brownish colouring, while New Zealand specimens range from pure white to grey, to grayish-green, or slightly yellowish.[15] The photobiont partner is green algae from the Trebouxia. Occasionally, free-living algae become trapped in the irregularly intertwined hyphae of the medulla.[16]

Usnic acid and atranorin are the major secondary compounds present in Pulchrocladia retipora. Other compounds present in smaller quantities, identifiable through thin-layer chromatography, are protolichesterinic and ursolic acids,[16] as well as rangiformic acid and norrangiformic acids in many cases.[11] Usnic acid is thought to be responsible for the antimicrobial, antiviral and cytotoxic biological activity of Pulchrocladia retipora lichen extracts tested in in vitro experiments.[17] The hue of P. retipora is determined by the concentration of usnic acid in the thallus, leading to a colour spectrum that ranges from an opaque greyish-white through yellowish-white to a distinct yellow.[14]

Pulchrocladia retipora and P. corallaizon are closely related species, and their similarities may lead to confusion in identifying them. However, one can distinguish them by observing the inner-medulla of Pulchrocladia retipora, which is characteristically tightly packed. In the more mature pseudopodetia of C. corallaizon, there may be areas where the inner medulla is missing or appears less dense. Nonetheless, the medulla always remains compacted in the top branches of the pseudopodetia, ensuring it never appears stranded or corticated.[18]

Habitat and distribution edit

 
Pulchrocladia retipora in its native habitat

Pulchrocladia retipora is widely distributed throughout Australasia. In Australia, it has been recorded from the Australian Capital Territory, New South Wales, Queensland, Victoria, and Tasmania. In New Zealand, it is known from both the North and South Islands as well as the Antipodes Islands, Auckland Islands, Campbell Island, and Chatham Islands. In the Pacific, it occurs in New Caledonia.[11]

The coral lichen is common in subalpine peat bogs; it is often found in association with the lichens Cladonia confusa, Rexiella sullivani, and Stereocaulon ramulosum. It is found on peaty soils among tussocks or in heaths comprising Dracophyllum and Leptospermum, most often at the margins of Nothofagus forests, in fellfield, or rarely on surfaces such as rocks, logs, and sand dunes.[12] In the moorlands of the Meredith Range area in Tasmania, it thrives in well-drained, elevated locations, especially close to decomposing buttongrass hummocks.[19]

The lichen replicates vegetatively when new podetia grow from fragments of old podetia.[15] It has highly variable growth rates, ranging from less than 1 mm per year to up to a few centimetres per year.[20] It has been noted to grow in clusters, sometimes up a metre in diameter. The unique morphology of the lichen helps it to survive the exposed heaths it inhabits, as the coral structure increases gas exchange, moderates temperature extremes, and maximises light and water access.[16]

Pulchrocladia retipora grows in cushion-like growths ranging in diameter from about 10 centimetres (4 in) to 100 centimetres (40 in).[12] The New Zealand botanist William Martin remarked finding square metre-sized cushions in the area of Lewis Pass in Canterbury, New Zealand. Lichen cushions about the size of a football have been observed growing on the mountain range in Australia's Grampians National Park. According to Martin, the lichen forms large growths only occur in subalpine zones, with lowland forms being only 5–10 centimetres (2–4 in) in size.[21]

Uses and research edit

 
Pulchrocladia retipora is depicted in the top row, centre, of Ernst Haeckel's chart of lichens first published in his 1904 work Kunstformen der Natur ("Art Forms of Nature").

The complex net-like structures of Pulchrocladia retipora are known as fenestrations.[16] Rosmarie Honegger referred to the thallus of this species as "likely to be among the most complex vegetative structures ever produced in the fungal kingdom".[22] The appearance of the lichen has been described as "of considerable beauty resembling lace or coral". As a result, it has been used in floral decoration and architectural design.[12] In his review of The Lichenologist journal's cover designs, German lichenologist Robert Lücking highlighted the design of volume 37, issue 1, from 2005, as particularly striking. This issue featured an image of Pulchrocladia retipora set against a blue-themed background.[23]

Thallus development edit

Understanding the branching pattern of Pulchrocladia retipora is important for comprehending its unique developmental biology, and some studies have focused on this aspect. The first structure to emerge from the primary thallus is a meristem, which is a solid bundle of tissue comprising only fungal cells. Two adjacent meristem bundles give rise to the erect secondary thallus, the podetium. These bundles continue to split dichotomously, resulting in groups of three meristem bundles. Because the development of same-age bundles is unequal, the developmental differences become more pronounced as the meristem bundles grow farther apart. Splitting of the meristem is not synchronized between approximately same-age bundles; consequently, one meristem bundle or one side of the podetium can grow beyond the others. During its early development, the meristem of P. retipora undergoes slight bends and twists. These early changes become noticeable later in the form of varying angles between the meristem bundles. Perforations that are developmentally unrelated to the central perforation tend to occur early in the lichenised tissue distal to the meristem, while perforations that occur between meristem bundles happen later in development.[24]

Resynthesis edit

The Pulchrocladia retipora lichen thallus has been successfully resynthesized from isolated mycobiont and photobiont under laboratory conditions. In these experiments, lichen primordia, consisting of fungal mycelia and enclosed algae appear after about one month. After four months, the cultures form small scales that are the starting units for the development of the complex hyphal network that becomes the thallus. Later, the scales differentiate into columns that grow together vertically to form a thin network, and more hyphae join and fuse together to strengthen and stabilize the network. Eventually, algae colonise the network prior to further development of the inner medulla and connecting of the fenestrations. In the laboratory, the entire process takes about two years.[16]

Biomonitoring edit

The Baseline Air Pollution Station in Tasmania (part of the World Meteorological Organization-Global Atmosphere Watch network) has used Pulchrocladia retipora as a bioindicator to identify how atmospheric nitrogen and sulphur deposition in Tasmania is affected by human pollution.[20]

References edit

  1. ^ Fée, Antoine Laurent Apollinaire (1825). Essai sur les cryptogames des écorces exotiques officinales (in French). Paris: Firmin Didot père et fils. p. xcviii.
  2. ^ Nylander, W. (1876). "Lichenes rapportes de l'Isle Campbell, par M. Filhol". Comptes Rendus des Séances de l'Académie des Sciences (in Latin). 83: 87–90.
  3. ^ a b c "Synonymy: Pulchrocladia retipora (Labill.) S. Stenroos, Pino-Bodas & Ahti, in Stenroos, Pino-Bodas, Hyvönen, Lumbsch & Ahti, Cladistics: 10.1111/cla.12363, 30 (2018)". Species Fungorum. from the original on 28 March 2022. Retrieved 1 April 2022.
  4. ^ Labillardière, JJ. (1806). Novae Hollandiae Plantarum Specimen (in Latin). Vol. 2. Paris: Ex typographia Dominæ Huzard. p. 110.
  5. ^ "Coral lichen - a scientific first". Shaping Tasmania: a journey in 100 objects. Tasmanian Museum and Art Gallery. from the original on 19 April 2022. Retrieved 1 April 2022.
  6. ^ Filson, Rex (1976). "Australian lichenology: a brief history" (PDF). Muelleria. 3 (3): 183–190.
  7. ^ Acharius, Erik (1814). Synopsis Methodica Lichenum (in Latin). Lund: Svanborg and Company. p. 248.
  8. ^ Filson 1981, pp. 2–3, 24.
  9. ^ Müller, J. (1883). "Lichenologische Beiträge XVII". Flora (Regensburg) (in Latin). 66: 75–80.
  10. ^ a b Filson 1981, pp. 2–3.
  11. ^ a b c d e f Stenroos, Soili; Pino‐Bodas, Raquel; Hyvönen, Jaakko; Lumbsch, Helge Thorsten; Ahti, Teuvo (2018). "Phylogeny of the family Cladoniaceae (Lecanoromycetes, Ascomycota) based on sequences of multiple loci". Cladistics. 35 (4): 351–384. doi:10.1111/cla.12363. hdl:10261/247495. PMID 34633698. S2CID 92664622.
  12. ^ a b c d Hutchison, Melissa. "Pulchrocladia retipora". New Zealand Plant Conservation Network. New Zealand Plant Conservation Network. from the original on 19 April 2022. Retrieved 28 March 2022.
  13. ^ Wassilieff, Maggy (24 September 2007). "Lichens - Lichens in New Zealand". Te Ara - the Encyclopedia of New Zealand. New Zealand Ministry for Culture and Heritage Te Manatu. from the original on 8 October 2015. Retrieved 28 March 2022.
  14. ^ a b Filson 1981, p. 6.
  15. ^ a b Martin, William (1958). "Notes on Cladonia, subgenus Clathrina". The Bryologist. 61 (1): 78–81. doi:10.2307/3239970. JSTOR 3239970.
  16. ^ a b c d e Stocker-Wörgötter, Elfie; Elix, John A. (2006). "Morphogenetic strategies and induction of secondary metabolite biosynthesis in cultured lichen-forming Ascomycota, as exemplified by Cladia retipora (Labill.) Nyl. and Dactylina arctica (Richards) Nyl" (PDF). Symbiosis. 40: 9–20.
  17. ^ Perry, Nigel B.; Benn, Michael H.; Brennan, Nerida J.; Burgess, Elain J.; Ellis, Gil; Galloway, David J.; Lorimer, Stephen D.; Tangney, Raymond S. (1999). "Antimicrobial, antiviral and cytotoxic activity of New Zealand lichens". The Lichenologist. 31 (6): 627–636. doi:10.1006/lich.1999.0241.
  18. ^ Filson 1981, p. 20.
  19. ^ Kantvilas, Gintaras; Jarmin, Jean (March 2011). Lichens of the Meredith Range (Report). Tasmanian Herbarium.
  20. ^ a b Hogan, Chad M.; Proemse, Bernadette C.; Barmuta, Leon A. (2017). "Isotopic fingerprinting of atmospheric nitrogen and sulfur using lichens (Cladia retipora) in Tasmania, Australia". Applied Geochemistry. 84: 126–132. Bibcode:2017ApGC...84..126H. doi:10.1016/j.apgeochem.2017.06.007.
  21. ^ Martin, William (1965). "The lichen genus Cladia". Transactions of the Royal Society of New Zealand. 3 (2): 8.
  22. ^ Honegger, Rosmarie (1993). "Developmental biology of lichens". New Phytologist. 125 (4): 659–677 [672]. doi:10.1111/J.1469-8137.1993.TB03916.X. PMID 33874446.
  23. ^ Lücking, Robert (2021). "Peter D. Crittenden: meta-analysis of an exceptional two-decade tenure as senior editor of The Lichenologist, the flagship journal of lichenology". The Lichenologist. 53 (1): 3–19 [5]. doi:10.1017/s0024282920000560.
  24. ^ Hammer, Samuel (2000). "Meristem growth dynamics and branching patterns in the Cladoniaceae". American Journal of Botany. 87 (1): 33–47. doi:10.2307/2656683. PMID 10636828.

Cited literature edit

  • Filson, Rex B. (1981). "A revision of the lichen genus Cladia Nyl". Journal of the Hattori Botanical Laboratory. 49: 1–72.

External links edit

  • Herbarium records of Pulchrocladia retipora at the Consortium of North American Lichen Herbaria

March 12, 2024
pulchrocladia, retipora, commonly, known, coral, lichen, species, fruticose, lichen, family, cladoniaceae, found, predominantly, australasia, habitats, range, from, australian, capital, territory, zealand, north, south, islands, even, pacific, region, caledoni. Pulchrocladia retipora commonly known as the coral lichen is a species of fruticose lichen in the family Cladoniaceae Found predominantly in Australasia its habitats range from the Australian Capital Territory to New Zealand s North and South Islands and even the Pacific region of New Caledonia where it grows in coastal and alpine heathlands The lichen features coral like branches and subbranches with numerous intricate netlike perforations It is known by multiple names with some sources referring to it by its synonym Cladia retipora or the common name lace lichen Pulchrocladia retiporaScientific classificationDomain EukaryotaKingdom FungiDivision AscomycotaClass LecanoromycetesOrder LecanoralesFamily CladoniaceaeGenus PulchrocladiaSpecies P retiporaBinomial namePulchrocladia retipora Labill S Stenroos Pino Bodas amp Ahti 2018 Synonyms 3 List Baeomyces reteporus Labill 1806 Lichen retiporus Labill DC 1813 Cenomyce retipora Labill Ach 1814 Pycnothelia retipora Labill Fee 1825 1 Cladonia retipora Labill Fr 1826 Cladina retipora Labill Nyl 1868 2 Cladia retipora Labill Nyl 1876 Clathrina retipora Labill Mull Arg 1883 The lichen was first scientifically collected by the French biologist Jacques Labillardiere on board Bruni d Entrecasteaux s 1792 expedition Labillardiere erroneously classified it as an alga rather than a lichen Pulchrocladia retipora holds the distinction of being the first Australian lichen to be scientifically documented It is now the type species of the genus Pulchrocladia This genus was established in 2018 as a result of a molecular phylogenetics led restructuring of the Cladoniaceae Contents 1 Taxonomy 2 Description 3 Habitat and distribution 4 Uses and research 4 1 Thallus development 4 2 Resynthesis 4 3 Biomonitoring 5 References 5 1 Cited literature 6 External linksTaxonomy editThe species was first formally described by Jacques Labillardiere in 1806 as Baeomyces reteporus The type specimen was collected from Tasmania 4 This sample was obtained as part of the botanical collections he made during Labillardiere s 1791 1794 voyage to the South Seas with the French explorer Antoine Bruni d Entrecasteaux in an unsuccessful search for the French naval officer Jean Francois de Galaup comte de Laperouse Labillardiere had first collected the lichen in 1792 and published the description in Novae Hollandiae Plantarum Specimen erroneously describing the lichen as an alga 5 According to the Australian lichenologist Rex Filson this lichen was the first to be described for Australia 6 In its taxonomic history the species has been shuffled to several genera some of which are no longer used or have been synonymized with other genera 3 In 1814 the Swedish botanist Erik Acharius changed the spelling of the specific epithet to retipora from retepora when he introduced the new combination Cenomyce retipora 7 It is not known for certain if Acharius s change was intentional as he still referred to the basionym as Baeomyces retiporus Labill The term rete translates to net and the correct connecting vowel in such compounds is i making retiporus the appropriate spelling The original spelling by Labillardiere is considered an orthographical variant due to the lack of evidence indicating a deliberate choice of spelling Since retipora is widely recognized the current spelling has been maintained to avoid confusion 8 Other genera that have housed the species are Pycnothelia Fee 1825 Cladonia Fries 1826 Cladina Nylander 1868 Cladia Nylander 1876 and Clathrina Johann Muller 1883 3 Nylander proposed the genus Cladia in 1870 to contain three Cladonia species based on their shared trait of having a cortex made of conglutinate stuck together longitudinally aligned filaments In 1883 9 the Swiss botanist Johannes Muller Argoviensis suggested that the name Cladia could be confused with Cladium a genus of sedges and proposed a replacement genus Clathrina 10 Nylander persisted with the genus name Cladia a decision that was largely accepted by later taxonomists Cladia retiporus was the most prevalent name for the lichen for more than a century 10 Pulchrocladia retipora is now the type species of genus Pulchrocladia which was circumscribed in 2018 by Soili Stenroos Raquel Pino Bodas Helge Thorsten Lumbsch and Teuvo Ahti following a large scale molecular phylogenetic analysis of the family Cladoniaceae 11 It is commonly known as the coral lichen 12 or the lace lichen 13 Description edit nbsp Closeup of highly perforated podetia with dark reddish brown coloured apothecia at the end of some branchletsLike most species in the family Cladoniaceae Pulchrocladia retipora has a cladoniiform growth form meaning it has both a primary horizontal and secondary vertical thallus The primary thallus is nodular i e with small raised areas or swellings white and only lasts for a short period 11 Podetia are the secondary thallus that originate from the primary thallus The podetia are typically up to 5 cm 2 in tall white to pale grey in colour sometimes tinged pinkish or yellowing or superficially blackening at tips They are rigid when dry but become spongy when wet They are irregularly or dichotomously branched forming cushiony clumps The wall is highly perforated about 5 11 perforations per centimetre with large round to ellipsoidal holes The surface of the podetium is continuously corticate and lacks soredia The inner medulla is made of twisted strands of hyphae with a cobweb like form 11 The lichen nonetheless generates soredia like clusters of algal cells and hyphae within the strands of the inner medulla 14 Apothecia occur infrequently When present they are small black peltate and crowd together at the ends of small terminal branches branchlets The colour of the hymenium ranges from dark reddish brown to black Ascospores have dimensions of 25 27 by 5 mm The conidiomata end on branchlets and are covered with translucent slime they produce curved or straight conidia measuring 6 by 1 mm 11 Specimens collected in Australia tend to have a brownish colouring while New Zealand specimens range from pure white to grey to grayish green or slightly yellowish 15 The photobiont partner is green algae from the Trebouxia Occasionally free living algae become trapped in the irregularly intertwined hyphae of the medulla 16 Usnic acid and atranorin are the major secondary compounds present in Pulchrocladia retipora Other compounds present in smaller quantities identifiable through thin layer chromatography are protolichesterinic and ursolic acids 16 as well as rangiformic acid and norrangiformic acids in many cases 11 Usnic acid is thought to be responsible for the antimicrobial antiviral and cytotoxic biological activity of Pulchrocladia retipora lichen extracts tested in in vitro experiments 17 The hue of P retipora is determined by the concentration of usnic acid in the thallus leading to a colour spectrum that ranges from an opaque greyish white through yellowish white to a distinct yellow 14 Pulchrocladia retipora and P corallaizon are closely related species and their similarities may lead to confusion in identifying them However one can distinguish them by observing the inner medulla of Pulchrocladia retipora which is characteristically tightly packed In the more mature pseudopodetia of C corallaizon there may be areas where the inner medulla is missing or appears less dense Nonetheless the medulla always remains compacted in the top branches of the pseudopodetia ensuring it never appears stranded or corticated 18 Habitat and distribution edit nbsp Pulchrocladia retipora in its native habitatPulchrocladia retipora is widely distributed throughout Australasia In Australia it has been recorded from the Australian Capital Territory New South Wales Queensland Victoria and Tasmania In New Zealand it is known from both the North and South Islands as well as the Antipodes Islands Auckland Islands Campbell Island and Chatham Islands In the Pacific it occurs in New Caledonia 11 The coral lichen is common in subalpine peat bogs it is often found in association with the lichens Cladonia confusa Rexiella sullivani and Stereocaulon ramulosum It is found on peaty soils among tussocks or in heaths comprising Dracophyllum and Leptospermum most often at the margins of Nothofagus forests in fellfield or rarely on surfaces such as rocks logs and sand dunes 12 In the moorlands of the Meredith Range area in Tasmania it thrives in well drained elevated locations especially close to decomposing buttongrass hummocks 19 The lichen replicates vegetatively when new podetia grow from fragments of old podetia 15 It has highly variable growth rates ranging from less than 1 mm per year to up to a few centimetres per year 20 It has been noted to grow in clusters sometimes up a metre in diameter The unique morphology of the lichen helps it to survive the exposed heaths it inhabits as the coral structure increases gas exchange moderates temperature extremes and maximises light and water access 16 Pulchrocladia retipora grows in cushion like growths ranging in diameter from about 10 centimetres 4 in to 100 centimetres 40 in 12 The New Zealand botanist William Martin remarked finding square metre sized cushions in the area of Lewis Pass in Canterbury New Zealand Lichen cushions about the size of a football have been observed growing on the mountain range in Australia s Grampians National Park According to Martin the lichen forms large growths only occur in subalpine zones with lowland forms being only 5 10 centimetres 2 4 in in size 21 Uses and research edit nbsp Pulchrocladia retipora is depicted in the top row centre of Ernst Haeckel s chart of lichens first published in his 1904 work Kunstformen der Natur Art Forms of Nature The complex net like structures of Pulchrocladia retipora are known as fenestrations 16 Rosmarie Honegger referred to the thallus of this species as likely to be among the most complex vegetative structures ever produced in the fungal kingdom 22 The appearance of the lichen has been described as of considerable beauty resembling lace or coral As a result it has been used in floral decoration and architectural design 12 In his review of The Lichenologist journal s cover designs German lichenologist Robert Lucking highlighted the design of volume 37 issue 1 from 2005 as particularly striking This issue featured an image of Pulchrocladia retipora set against a blue themed background 23 Thallus development edit Understanding the branching pattern of Pulchrocladia retipora is important for comprehending its unique developmental biology and some studies have focused on this aspect The first structure to emerge from the primary thallus is a meristem which is a solid bundle of tissue comprising only fungal cells Two adjacent meristem bundles give rise to the erect secondary thallus the podetium These bundles continue to split dichotomously resulting in groups of three meristem bundles Because the development of same age bundles is unequal the developmental differences become more pronounced as the meristem bundles grow farther apart Splitting of the meristem is not synchronized between approximately same age bundles consequently one meristem bundle or one side of the podetium can grow beyond the others During its early development the meristem of P retipora undergoes slight bends and twists These early changes become noticeable later in the form of varying angles between the meristem bundles Perforations that are developmentally unrelated to the central perforation tend to occur early in the lichenised tissue distal to the meristem while perforations that occur between meristem bundles happen later in development 24 Resynthesis edit The Pulchrocladia retipora lichen thallus has been successfully resynthesized from isolated mycobiont and photobiont under laboratory conditions In these experiments lichen primordia consisting of fungal mycelia and enclosed algae appear after about one month After four months the cultures form small scales that are the starting units for the development of the complex hyphal network that becomes the thallus Later the scales differentiate into columns that grow together vertically to form a thin network and more hyphae join and fuse together to strengthen and stabilize the network Eventually algae colonise the network prior to further development of the inner medulla and connecting of the fenestrations In the laboratory the entire process takes about two years 16 Biomonitoring edit The Baseline Air Pollution Station in Tasmania part of the World Meteorological Organization Global Atmosphere Watch network has used Pulchrocladia retipora as a bioindicator to identify how atmospheric nitrogen and sulphur deposition in Tasmania is affected by human pollution 20 References edit Fee Antoine Laurent Apollinaire 1825 Essai sur les cryptogames des ecorces exotiques officinales in French Paris Firmin Didot pere et fils p xcviii Nylander W 1876 Lichenes rapportes de l Isle Campbell par M Filhol Comptes Rendus des Seances de l Academie des Sciences in Latin 83 87 90 a b c Synonymy Pulchrocladia retipora Labill S Stenroos Pino Bodas amp Ahti in Stenroos Pino Bodas Hyvonen Lumbsch amp Ahti Cladistics 10 1111 cla 12363 30 2018 Species Fungorum Archived from the original on 28 March 2022 Retrieved 1 April 2022 Labillardiere JJ 1806 Novae Hollandiae Plantarum Specimen in Latin Vol 2 Paris Ex typographia Dominae Huzard p 110 Coral lichen a scientific first Shaping Tasmania a journey in 100 objects Tasmanian Museum and Art Gallery Archived from the original on 19 April 2022 Retrieved 1 April 2022 Filson Rex 1976 Australian lichenology a brief history PDF Muelleria 3 3 183 190 Acharius Erik 1814 Synopsis Methodica Lichenum in Latin Lund Svanborg and Company p 248 Filson 1981 pp 2 3 24 Muller J 1883 Lichenologische Beitrage XVII Flora Regensburg in Latin 66 75 80 a b Filson 1981 pp 2 3 a b c d e f Stenroos Soili Pino Bodas Raquel Hyvonen Jaakko Lumbsch Helge Thorsten Ahti Teuvo 2018 Phylogeny of the family Cladoniaceae Lecanoromycetes Ascomycota based on sequences of multiple loci Cladistics 35 4 351 384 doi 10 1111 cla 12363 hdl 10261 247495 PMID 34633698 S2CID 92664622 a b c d Hutchison Melissa Pulchrocladia retipora New Zealand Plant Conservation Network New Zealand Plant Conservation Network Archived from the original on 19 April 2022 Retrieved 28 March 2022 Wassilieff Maggy 24 September 2007 Lichens Lichens in New Zealand Te Ara the Encyclopedia of New Zealand New Zealand Ministry for Culture and Heritage Te Manatu Archived from the original on 8 October 2015 Retrieved 28 March 2022 a b Filson 1981 p 6 a b Martin William 1958 Notes on Cladonia subgenus Clathrina The Bryologist 61 1 78 81 doi 10 2307 3239970 JSTOR 3239970 a b c d e Stocker Worgotter Elfie Elix John A 2006 Morphogenetic strategies and induction of secondary metabolite biosynthesis in cultured lichen forming Ascomycota as exemplified by Cladia retipora Labill Nyl and Dactylina arctica Richards Nyl PDF Symbiosis 40 9 20 Perry Nigel B Benn Michael H Brennan Nerida J Burgess Elain J Ellis Gil Galloway David J Lorimer Stephen D Tangney Raymond S 1999 Antimicrobial antiviral and cytotoxic activity of New Zealand lichens The Lichenologist 31 6 627 636 doi 10 1006 lich 1999 0241 Filson 1981 p 20 Kantvilas Gintaras Jarmin Jean March 2011 Lichens of the Meredith Range Report Tasmanian Herbarium a b Hogan Chad M Proemse Bernadette C Barmuta Leon A 2017 Isotopic fingerprinting of atmospheric nitrogen and sulfur using lichens Cladia retipora in Tasmania Australia Applied Geochemistry 84 126 132 Bibcode 2017ApGC 84 126H doi 10 1016 j apgeochem 2017 06 007 Martin William 1965 The lichen genus Cladia Transactions of the Royal Society of New Zealand 3 2 8 Honegger Rosmarie 1993 Developmental biology of lichens New Phytologist 125 4 659 677 672 doi 10 1111 J 1469 8137 1993 TB03916 X PMID 33874446 Lucking Robert 2021 Peter D Crittenden meta analysis of an exceptional two decade tenure as senior editor of The Lichenologist the flagship journal of lichenology The Lichenologist 53 1 3 19 5 doi 10 1017 s0024282920000560 Hammer Samuel 2000 Meristem growth dynamics and branching patterns in the Cladoniaceae American Journal of Botany 87 1 33 47 doi 10 2307 2656683 PMID 10636828 Cited literature edit Filson Rex B 1981 A revision of the lichen genus Cladia Nyl Journal of the Hattori Botanical Laboratory 49 1 72 External links editHerbarium records of Pulchrocladia retipora at the Consortium of North American Lichen Herbaria Retrieved from https en wikipedia org w index php title Pulchrocladia retipora amp oldid 1187183578, wikipedia, wiki, book, books, library,

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