Your search keyword '"Kukwa, Martin"' showing total 463 results

101. Figure 4 from: Ossowska E, Guzow-Krzemińska B, Kolanowska M, Szczepańska K, Kukwa M (2019) 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. MycoKeys 61: 39-74. https://doi.org/10.3897/mycokeys.61.38175

Author

Ossowska, Emilia, primary, Guzow-Krzemińska, Beata, additional, Kolanowska, Marta, additional, Szczepańska, Katarzyna, additional, and Kukwa, Martin, additional

Published

2019

102. Supplementary material 3 from: Ossowska E, Guzow-Krzemińska B, Kolanowska M, Szczepańska K, Kukwa M (2019) 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. MycoKeys 61: 39-74. https://doi.org/10.3897/mycokeys.61.38175

Author

Ossowska, Emilia, primary, Guzow-Krzemińska, Beata, additional, Kolanowska, Marta, additional, Szczepańska, Katarzyna, additional, and Kukwa, Martin, additional

Published

2019

103. Figure 3 from: Ossowska E, Guzow-Krzemińska B, Kolanowska M, Szczepańska K, Kukwa M (2019) 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. MycoKeys 61: 39-74. https://doi.org/10.3897/mycokeys.61.38175

Author

Ossowska, Emilia, primary, Guzow-Krzemińska, Beata, additional, Kolanowska, Marta, additional, Szczepańska, Katarzyna, additional, and Kukwa, Martin, additional

Published

2019

104. Figure 10 from: Ossowska E, Guzow-Krzemińska B, Kolanowska M, Szczepańska K, Kukwa M (2019) 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. MycoKeys 61: 39-74. https://doi.org/10.3897/mycokeys.61.38175

Author

Ossowska, Emilia, primary, Guzow-Krzemińska, Beata, additional, Kolanowska, Marta, additional, Szczepańska, Katarzyna, additional, and Kukwa, Martin, additional

Published

2019

105. 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

Author

Ossowska, Emilia, primary, Guzow-Krzemińska, Beata, additional, Kolanowska, Marta, additional, Szczepańska, Katarzyna, additional, and Kukwa, Martin, additional

Published

2019

106. Supplementary material 2 from: Ossowska E, Guzow-Krzemińska B, Kolanowska M, Szczepańska K, Kukwa M (2019) 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. MycoKeys 61: 39-74. https://doi.org/10.3897/mycokeys.61.38175

Author

Ossowska, Emilia, primary, Guzow-Krzemińska, Beata, additional, Kolanowska, Marta, additional, Szczepańska, Katarzyna, additional, and Kukwa, Martin, additional

Published

2019

107. Figure 8 from: Ossowska E, Guzow-Krzemińska B, Kolanowska M, Szczepańska K, Kukwa M (2019) 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. MycoKeys 61: 39-74. https://doi.org/10.3897/mycokeys.61.38175

Author

Ossowska, Emilia, primary, Guzow-Krzemińska, Beata, additional, Kolanowska, Marta, additional, Szczepańska, Katarzyna, additional, and Kukwa, Martin, additional

Published

2019

108. Figure 7 from: Ossowska E, Guzow-Krzemińska B, Kolanowska M, Szczepańska K, Kukwa M (2019) 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. MycoKeys 61: 39-74. https://doi.org/10.3897/mycokeys.61.38175

Author

Ossowska, Emilia, primary, Guzow-Krzemińska, Beata, additional, Kolanowska, Marta, additional, Szczepańska, Katarzyna, additional, and Kukwa, Martin, additional

Published

2019

109. Figure 6 from: Ossowska E, Guzow-Krzemińska B, Kolanowska M, Szczepańska K, Kukwa M (2019) 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. MycoKeys 61: 39-74. https://doi.org/10.3897/mycokeys.61.38175

Author

Ossowska, Emilia, primary, Guzow-Krzemińska, Beata, additional, Kolanowska, Marta, additional, Szczepańska, Katarzyna, additional, and Kukwa, Martin, additional

Published

2019

110. Figure 5 from: Ossowska E, Guzow-Krzemińska B, Kolanowska M, Szczepańska K, Kukwa M (2019) 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. MycoKeys 61: 39-74. https://doi.org/10.3897/mycokeys.61.38175

Author

Ossowska, Emilia, primary, Guzow-Krzemińska, Beata, additional, Kolanowska, Marta, additional, Szczepańska, Katarzyna, additional, and Kukwa, Martin, additional

Published

2019

111. Supplementary material 4 from: Ossowska E, Guzow-Krzemińska B, Kolanowska M, Szczepańska K, Kukwa M (2019) 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. MycoKeys 61: 39-74. https://doi.org/10.3897/mycokeys.61.38175

Author

Ossowska, Emilia, primary, Guzow-Krzemińska, Beata, additional, Kolanowska, Marta, additional, Szczepańska, Katarzyna, additional, and Kukwa, Martin, additional

Published

2019

112. Figure 9 from: Ossowska E, Guzow-Krzemińska B, Kolanowska M, Szczepańska K, Kukwa M (2019) 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. MycoKeys 61: 39-74. https://doi.org/10.3897/mycokeys.61.38175

Author

Ossowska, Emilia, primary, Guzow-Krzemińska, Beata, additional, Kolanowska, Marta, additional, Szczepańska, Katarzyna, additional, and Kukwa, Martin, additional

Published

2019

113. Biodiversity assessment of ascomycetes inhabiting Lobariella lichens in Andean cloud forests led to one new family, three new genera and 13 new species of lichenicolous fungi

Author

Flakus, Adam, primary, Etayo, Javier, additional, Miadlikowska, Jolanta, additional, Lutzoni, François, additional, Kukwa, Martin, additional, Matura, Natalia, additional, and Rodriguez-Flakus, Pamela, additional

Published

2019

114. Lepraria juanfernandezii, a new lichen species from the Southern Hemisphere

Author

Kukwa, Martin, primary

Published

2019

115. Lichenicolous fungi are more specialized than their lichen hosts in primeval forest ecosystems, Białowieża Forest, northeast Poland

Author

Łubek, Anna, primary, Kukwa, Martin, additional, Czortek, Patryk, additional, and Jaroszewicz, Bogdan, additional

Published

2019

116. A new genus, Zhurbenkoa, and a novel nutritional mode revealed in the family Malmideaceae (Lecanoromycetes, Ascomycota)

Author

National Science Centre (Poland), Flakus, Adam, Etayo, Javier, Pérez-Ortega, Sergio, Kukwa, Martin, Zdeněk, Palice, Rodríguez-Falkus, Pamela, National Science Centre (Poland), Flakus, Adam, Etayo, Javier, Pérez-Ortega, Sergio, Kukwa, Martin, Zdeněk, Palice, and Rodríguez-Falkus, Pamela

Abstract

Lichen-inhabiting fungi are highly specialized mycoparasites, commensals or rarely saprotrophs, that are common components of almost every ecosystem, where they develop obligate associations with lichens. Their relevance, however, contrasts with the relatively small number of these fungi described so far. Recent estimates and ongoing studies indicate that a significant fraction of their diversity remains undiscovered and may be expected in tropical regions, in particular in hyperdiverse fog-exposed montane forests. Here, we introduce the new genus Zhurbenkoa, from South America and Europe, for three lichenicolous fungi growing on thalli of the widespread lichen genus Cladonia (Lecanorales). Phylogenetic analyses based on combined sequence data of mt and nuc rDNA obtained from Andean populations (Bolivia) placed Zhurbenkoa as a member of Malmideaceae, a recently introduced family of lichen-forming fungi in the class Lecanoromycetes. Zhurbenkoa is closely related to the genera Savoronala and Sprucidea. The new genus is characterized by the development of grayish brown to almost black apothecia lacking an evident margin, an epihymenium interspersed with crystals (often seen as pruina), a strongly conglutinated hymenium made of noncapitate and sparsely branched paraphyses, a colorless exciple composed of radially arranged hyphae, a Lecanora/Micarea-like ascus type, and aseptate or 1-septate ellipsoidal colorless ascospores. Zhurbenkoa includes two Neotropical (Z. cladoniarum, Z. latispora) and one widespread (Z. epicladonia) species. The lichenicolous trophic mode is documented for the first time in the Malmideaceae, which until now included only lichen-forming associations between fungi and green algae.

Published

2019

117. Bacidia albogranulosa (Ramalinaceae, lichenized Ascomycota), a new sorediate lichen from European old-growth forests

Author

Malíček, Jiří, Palice, Zdeněk, Vondrák, Jan, Łubek, Anna, and Kukwa, Martin

Subjects

Atranorin, Palavascia, Lecanorales, Central Europe, Synchytriales, Fungi, Schizosaccharomycetes, Eastern Europe, lcsh:QK1-989, subneutral bark, Europe, Meteora, Ascomycota, Pezizomycetes, lcsh:Botany, Unikonta, Lecanoromycetes, Ramalinaceae, sterile lichens, Lecanoromycetidae, Research Article, Taxonomy

Abstract

A sterile sorediate member of the genus Bacidia s.str., B. albogranulosa, is described here as a new species. It is characterised by its very thin, pale grey thallus, white, farinose to granular soredia, the production of atranorin and the absence of ascomata and pycnidia. It grows on slightly acidic to subneutral bark of broad-leaved trees in old-growth forests in the Czech Republic, Poland, Ukraine and Russia (European part of the Caucasus). The new species is well characterised by its morphology, secondary chemistry and molecular (nrITS, mtSSU) traits. It is closely related to other atranorin-containing species in the genus, Bacidia diffracta, B. polychroa and B. suffusa.

Published

2018

118. Impact of Fraxinus excelsior dieback on biota of ash-associated lichen epiphytes at the landscape and community level

Author

Łubek, Anna, primary, Kukwa, Martin, additional, Czortek, Patryk, additional, and Jaroszewicz, Bogdan, additional

Published

2019

119. A Glimpse into Genetic Diversity and Symbiont Interaction Patterns in Lichen Communities from Areas with Different Disturbance Histories in Białowieża Forest, Poland

Author

Singh, Garima, primary, Kukwa, Martin, additional, Dal Grande, Francesco, additional, Łubek, Anna, additional, Otte, Jürgen, additional, and Schmitt, Imke, additional

Published

2019

120. Figure 2 from: Guzow-Krzemińska B, Sérusiaux E, van den Boom PPG, Brand AM, Launis A, Łubek A, Kukwa M (2019) Understanding the evolution of phenotypical characters in the Micarea prasina group (Pilocarpaceae) and descriptions of six new species within the group. MycoKeys 57: 1-30. https://doi.org/10.3897/mycokeys.57.33267

Author

Guzow-Krzemińska, Beata, primary, Sérusiaux, Emmanuël, additional, van den Boom, Pieter P. G., additional, Brand, A. Maarten, additional, Launis, Annina, additional, Łubek, Anna, additional, and Kukwa, Martin, additional

Published

2019

121. Figure 1 from: Guzow-Krzemińska B, Sérusiaux E, van den Boom PPG, Brand AM, Launis A, Łubek A, Kukwa M (2019) Understanding the evolution of phenotypical characters in the Micarea prasina group (Pilocarpaceae) and descriptions of six new species within the group. MycoKeys 57: 1-30. https://doi.org/10.3897/mycokeys.57.33267

Author

Guzow-Krzemińska, Beata, primary, Sérusiaux, Emmanuël, additional, van den Boom, Pieter P. G., additional, Brand, A. Maarten, additional, Launis, Annina, additional, Łubek, Anna, additional, and Kukwa, Martin, additional

Published

2019

122. Supplementary material 2 from: Guzow-Krzemińska B, Sérusiaux E, van den Boom PPG, Brand AM, Launis A, Łubek A, Kukwa M (2019) Understanding the evolution of phenotypical characters in the Micarea prasina group (Pilocarpaceae) and descriptions of six new species within the group. MycoKeys 57: 1-30. https://doi.org/10.3897/mycokeys.57.33267

Author

Guzow-Krzemińska, Beata, primary, Sérusiaux, Emmanuël, additional, van den Boom, Pieter P. G., additional, Brand, A. Maarten, additional, Launis, Annina, additional, Łubek, Anna, additional, and Kukwa, Martin, additional

Published

2019

123. Supplementary material 1 from: Guzow-Krzemińska B, Sérusiaux E, van den Boom PPG, Brand AM, Launis A, Łubek A, Kukwa M (2019) Understanding the evolution of phenotypical characters in the Micarea prasina group (Pilocarpaceae) and descriptions of six new species within the group. MycoKeys 57: 1-30. https://doi.org/10.3897/mycokeys.57.33267

Author

Guzow-Krzemińska, Beata, primary, Sérusiaux, Emmanuël, additional, van den Boom, Pieter P. G., additional, Brand, A. Maarten, additional, Launis, Annina, additional, Łubek, Anna, additional, and Kukwa, Martin, additional

Published

2019

124. A new genus,Zhurbenkoa, and a novel nutritional mode revealed in the family Malmideaceae (Lecanoromycetes, Ascomycota)

Author

Flakus, Adam, primary, Etayo, Javier, additional, Pérez-Ortega, Sergio, additional, Kukwa, Martin, additional, Palice, Zdeněk, additional, and Rodriguez-Flakus, Pamela, additional

Published

2019

125. Figure 1 from: Guzow-Krzemińska B, Jabłońska A, Flakus A, Rodriguez-Flakus P, Kosecka M, Kukwa M (2019) Phylogenetic placement of Lepraria cryptovouauxii sp. nov. (Lecanorales, Lecanoromycetes, Ascomycota) with notes on other Lepraria species from South America. MycoKeys 53: 1-22. https://doi.org/10.3897/mycokeys.53.33508

Author

Guzow-Krzemińska, Beata, primary, Jabłońska, Agnieszka, additional, Flakus, Adam, additional, Rodriguez-Flakus, Pamela, additional, Kosecka, Magdalena, additional, and Kukwa, Martin, additional

Published

2019

126. Figure 4 from: Guzow-Krzemińska B, Jabłońska A, Flakus A, Rodriguez-Flakus P, Kosecka M, Kukwa M (2019) Phylogenetic placement of Lepraria cryptovouauxii sp. nov. (Lecanorales, Lecanoromycetes, Ascomycota) with notes on other Lepraria species from South America. MycoKeys 53: 1-22. https://doi.org/10.3897/mycokeys.53.33508

Author

Guzow-Krzemińska, Beata, primary, Jabłońska, Agnieszka, additional, Flakus, Adam, additional, Rodriguez-Flakus, Pamela, additional, Kosecka, Magdalena, additional, and Kukwa, Martin, additional

Published

2019

127. Phylogenetic placement of Lepraria cryptovouauxii sp. nov. (Lecanorales, Lecanoromycetes, Ascomycota) with notes on other Lepraria species from South America

Author

Guzow-Krzemińska, Beata, primary, Jabłońska, Agnieszka, additional, Flakus, Adam, additional, Rodriguez-Flakus, Pamela, additional, Kosecka, Magdalena, additional, and Kukwa, Martin, additional

Published

2019

128. Figure 2 from: Guzow-Krzemińska B, Jabłońska A, Flakus A, Rodriguez-Flakus P, Kosecka M, Kukwa M (2019) Phylogenetic placement of Lepraria cryptovouauxii sp. nov. (Lecanorales, Lecanoromycetes, Ascomycota) with notes on other Lepraria species from South America. MycoKeys 53: 1-22. https://doi.org/10.3897/mycokeys.53.33508

Author

Guzow-Krzemińska, Beata, primary, Jabłońska, Agnieszka, additional, Flakus, Adam, additional, Rodriguez-Flakus, Pamela, additional, Kosecka, Magdalena, additional, and Kukwa, Martin, additional

Published

2019

129. Figure 3 from: Guzow-Krzemińska B, Jabłońska A, Flakus A, Rodriguez-Flakus P, Kosecka M, Kukwa M (2019) Phylogenetic placement of Lepraria cryptovouauxii sp. nov. (Lecanorales, Lecanoromycetes, Ascomycota) with notes on other Lepraria species from South America. MycoKeys 53: 1-22. https://doi.org/10.3897/mycokeys.53.33508

Author

Guzow-Krzemińska, Beata, primary, Jabłońska, Agnieszka, additional, Flakus, Adam, additional, Rodriguez-Flakus, Pamela, additional, Kosecka, Magdalena, additional, and Kukwa, Martin, additional

Published

2019

130. Materials to the lichen biota of Western Pomerania (Northern Poland). Part 2

Author

Fałtynowicz, Wiesław, primary, Winkowska-Grześkowiak, Agnieszka, additional, and Kukwa, Martin, additional

Published

2019

131. New species and records of lichens from Bolivia

Author

GUZOW-KRZEMIŃSKA, BEATA, primary, FLAKUS, ADAM, additional, KOSECKA, MAGDALENA, additional, JABŁOŃSKA, AGNIESZKA, additional, RODRIGUEZ-FLAKUS, PAMELA, additional, and KUKWA, MARTIN, additional

Published

2019

132. Figure 1 from: Malíček J, Palice Z, Vondrák J, Łubek A, Kukwa M (2018) Bacidia albogranulosa (Ramalinaceae, lichenized Ascomycota), a new sorediate lichen from European old-growth forests. MycoKeys 44: 51-62. https://doi.org/10.3897/mycokeys.44.30199

Author

Malíček, Jiří, primary, Palice, Zdeněk, additional, Vondrák, Jan, additional, Łubek, Anna, additional, and Kukwa, Martin, additional

Published

2018

133. Evaluation of diagnostic chemical and morphological characters in five Parmelia species (Parmeliaceae, lichenized Ascomycota) with special emphasis on the thallus pruinosity

Author

OSSOWSKA, EMILIA, primary, GUZOW-KRZEMIŃSKA, BEATA, additional, DUDEK, MAGDALENA, additional, OSET, MAGDALENA, additional, and KUKWA, MARTIN, additional

Published

2018

134. Changes in the epiphytic lichen biota of Białowieża Primeval Forest are not explained by climate warming

Author

Łubek, Anna, primary, Kukwa, Martin, additional, Jaroszewicz, Bogdan, additional, and Czortek, Patryk, additional

Published

2018

135. A molecular phylogenetic evaluation of the Ramalina siliquosa complex, with notes on species circumscription and relationships within Ramalina.

Author

LaGreca, Scott, Lumbsch, H. Thorsten, Kukwa, Martin, Wei, Xinli, Han, Jeong Eun, Moon, Kwang Hee, Kashiwadani, Hiroyuki, Aptroot, André, and Leavitt, Steven D.

Subjects

COASTAL plains, SPECIES, CLIFFS, SEQUENCE analysis, GENETIC speciation, SEASHORE, PHYLOGEOGRAPHY, LITTORAL zone

Abstract

Lichens of the Ramalina siliquosa complex dominate seashore cliffs in Europe and South-East Asia, but their taxonomy has been vigorously debated for over a century. On many cliffs, they exhibit a bewildering zonation of chemotypes that resembles the classic zonation of organisms that occupy the littoral zone below. Do the chemotypes represent separate species, or infraspecific variation? To better understand the systematics of this group, sequences from four genetic loci (ITS, IGS, RPB1 and RPB2) were obtained for 59 samples from Denmark, France, Iceland, Norway, UK, Japan and Korea, including all major chemotypes. Maximum likelihood analysis of these sequences, together with sequences from 36 other Ramalina species, reveals that the complex comprises two distinct phylogenetic lineages, each including multiple chemotypes. These two putative species-level lineages correspond to the currently accepted taxa R. cuspidata and R. siliquosa. There is no evidence that these two taxa are phylogenetic sister species. Consequently, the explanation of this chemotype complex as an example of 'sibling speciation' is rejected. Specimens traditionally called 'R. siliquosa' from South-East Asia form a third clade, identified here as R. semicuspidata, with an additional, divaricatic acid chemotype. Other results include a robustly supported clade of Ramalina species that produce medullary depsides and depsidones; this clade includes another well-supported clade of south-eastern United States coastal plain and tropical Ramalina species. By contrast, large, strap-shaped Ramalina species that lack medullary depsides and depsidones occur in separate lineages. In addition, close relationships between the following groups of species are indicated: R. farinacea with R. subfarinacea; R. fraxinea with R. leptocarpha, R. menziesii and R. subleptocarpha; R. sinensis with R. unifolia. Furthermore, a new, variolaric acid-only chemotype is reported for R. farinacea, and a new, acid-deficient chemotype is reported for a more broadly circumscribed R. culbersoniorum. [ABSTRACT FROM AUTHOR]

Published

2020

136. Ochrolechia incarnata comb. nov. (Lecanoromycetes, Ascomycota), a distinct species of the O. parella group from Europe and Macaronesia

Author

KUKWA, MARTIN, primary, SCHMITT, IMKE, additional, and ERTZ, DAMIEN, additional

Published

2018

137. Three new lichenicolous species of the genus Plectocarpon (Ascomycota: Lecanographaceae) discovered in the Bolivian Andes

Author

ETAYO, JAVIER, primary, FLAKUS, ADAM, additional, and KUKWA, MARTIN, additional

Published

2018

138. Phylogenetic approaches reveal a new sterile lichen in the genus Loxospora (Sarrameanales, Ascomycota) in Poland

Author

GUZOW-KRZEMIŃSKA, BEATA, primary, ŁUBEK, ANNA, additional, KUBIAK, DARIUSZ, additional, OSSOWSKA, EMILIA, additional, and KUKWA, MARTIN, additional

Published

2018

139. Photobiont switching causes changes in the reproduction strategy and phenotypic dimorphism in the Arthoniomycetes

Author

Ertz, Damien, primary, Guzow-Krzemińska, Beata, additional, Thor, Göran, additional, Łubek, Anna, additional, and Kukwa, Martin, additional

Published

2018

140. Two new species ofArthoniaceaefrom old-growth European forests,Arthonia thorianaandInoderma sorediatum, and a new genus forSchismatomma niveum

Author

ERTZ, Damien, primary, SANDERSON, Neil, additional, ŁUBEK, Anna, additional, and KUKWA, Martin, additional

Published

2018

141. Lecanora stanislai, a new, sterile, usnic acid containing lichen species from Eurasia and North America

Author

GUZOW-KRZEMIŃSKA, BEATA, primary, ŁUBEK, ANNA, additional, MALÍČEK, JIŘÍ, additional, TØNSBERG, TOR, additional, OSET, MAGDALENA, additional, and KUKWA, MARTIN, additional

Published

2017

142. A tribute to Professor Tor Tønsberg.

Author

Kukwa, Martin, Ekman, Stefan, Printzen, Christian, Flakus, Adam, and Miadlikowska, Jolanta

Subjects

BOTANISTS, FUNGI classification, BIOLOGICAL specimens, BIOLOGICAL research

Abstract

This article is a tribute to Professor Tor Tønsberg on his 75th birthday. It includes 20 papers related to his scientific interests in lichenology, specifically the taxonomy, chemistry, floristics, and phytogeography of lichens and lichenicolous fungi. Throughout his career, Professor Tønsberg has made significant contributions to the knowledge of lichens in Europe and North America, introducing over one hundred new species and genera. The article expresses gratitude to the authors for their contributions and celebrates Professor Tønsberg's impressive achievements in the field. [Extracted from the article]

Published

2023

143. Circumscription of the genus Lepra, a recently resurrected genus to accommodate the 'Variolaria'-group of Pertusaria sensu lato (Pertusariales, Ascomycota)

Author

Baruffini, Enrico, Wei, Xinli, Schmitt, Imke, Hodkinson, Brendan, Flakus, Adam, Kukwa, Martin, Divakar, Pradeep K., Kirika, Paul M., Otte, Jürgen, Meiser, Anjuli, Lumbsch, Helge Thorsten, Baruffini, Enrico, Wei, Xinli, Schmitt, Imke, Hodkinson, Brendan, Flakus, Adam, Kukwa, Martin, Divakar, Pradeep K., Kirika, Paul M., Otte, Jürgen, Meiser, Anjuli, and Lumbsch, Helge Thorsten

Abstract

Pertusarialean lichens include more than 300 species belonging to several independent phylogenetic lineages. Only some of these phylogenetic clades have been comprehensively sampled for molecular data, and formally described as genera. Here we present a taxonomic treatment of a group of pertusarialean lichens formerly known as "Pertusaria amara-group", "Monomurata-group", or "Variolaria-group", which includes widespread and well-known taxa such as P. amara, P. albescens, or P. ophthalmiza. We generated a 6-locus data set with 79 OTUs representing 75 species. The distinction of the Variolaria clade is supported and consequently, the resurrection of the genus Lepra is followed. Thirty-five new combinations into Lepra are proposed and the new species Lepra austropacifica is described from mangroves in the South Pacific. Lepra is circumscribed to include species with disciform ascomata, a weakly to non-amyloid hymenial gel, strongly amyloid asci without clear apical amyloid structures, containing 1 or 2, single-layered, thin-walled ascospores. Chlorinated xanthones are not present, but thamnolic and picrolichenic acids occur frequently, as well as orcinol depsides. Seventy-one species are accepted in the genus. Although the distinction of the genus from Pertusaria is strongly supported, the relationships of Lepra remain unresolved and the genus is tentatively placed in Pertusariales incertae sedis.

Published

2017

144. Lichens and lichenicolous fungi of Magurski National Park (Poland, Western Carpathians)

Author

Bielczyk, Urszula, Czarnota, Paweł, Kukwa, Martin, Śliwa, Lucyna, Kościelniak, Robert, Betleja, Laura, Kozik, Ryszard, Krzewicka, Beata, Hachułka, Mariusz, Adamska, Edyta, Węgrzyn, Michał, Bielec, Dominika, Flakus, Adam, Guzow-Krzemińska, Beata, Kolanko, Katarzyna, Kozik, Joanna, Leśniański, Grzegorz, Lisowska, Maja, Oset, Magdalena, Osyczka, Piotr, Pietrzykowska-Urban, Katarzyna, Sadowska-Deś, Anna, Słaby, Agnieszka, Studzińska-Sroka, Elżbieta, Wilk, Karina, Zaniewski, Piotr T., Zarabska-Bożejewicz, Daria, Bielczyk, Urszula, Czarnota, Paweł, Kukwa, Martin, Śliwa, Lucyna, Kościelniak, Robert, Betleja, Laura, Kozik, Ryszard, Krzewicka, Beata, Hachułka, Mariusz, Adamska, Edyta, Węgrzyn, Michał, Bielec, Dominika, Flakus, Adam, Guzow-Krzemińska, Beata, Kolanko, Katarzyna, Kozik, Joanna, Leśniański, Grzegorz, Lisowska, Maja, Oset, Magdalena, Osyczka, Piotr, Pietrzykowska-Urban, Katarzyna, Sadowska-Deś, Anna, Słaby, Agnieszka, Studzińska-Sroka, Elżbieta, Wilk, Karina, Zaniewski, Piotr T., and Zarabska-Bożejewicz, Daria

Abstract

The paper lists 337 species from Magurski National Park (MNP): 314 lichens, 18 lichenicolous fungi, four saprotrophic fungi and one lichenicolous myxomycete; 112 of them are new for MNP, 75 are reported for the first time for the Beskid Niski Mts, and two are new for Poland. Selected species are accompanied by taxonomic notes and remarks on their distribution in Poland and other Carpathian ranges. First records of Intralichen lichenicola, Burgoa angulosa and Verrucaria policensis and a second record of Epigloea urosperma are given for the whole Carpathian range, and Fuscidea arboricola was recorded for the first time in the Western Carpathians. Halecania viridescens and Mycomicrothelia confusa are new for the Polish Carpathians. The records of Absconditella pauxilla, Collema crispum, Licea parasitica and Rinodina griseosoralifera in MNP are their second known localities for the range. 93 species, mainly rare or threatened in Poland, were reported from MNP in the 20th century but were not refound.

Published

2017

145. Circumscription of the genus Lepra, a recently resurrected genus to accommodate the “Variolaria”-group of Pertusaria sensu lato (Pertusariales, Ascomycota)

Author

Wei, Xinli, primary, Schmitt, Imke, additional, Hodkinson, Brendan, additional, Flakus, Adam, additional, Kukwa, Martin, additional, Divakar, Pradeep K., additional, Kirika, Paul M., additional, Otte, Jürgen, additional, Meiser, Anjuli, additional, and Lumbsch, H. Thorsten, additional

Published

2017

146. New Lichen Records from the Mountains Kinabalu and Tambuyukon (Kinabalu Park, Malaysian Borneo)

Author

Paukov, Alexander, primary, Sipman, Harrie J. M., additional, Kukwa, Martin, additional, Repin, Rimi, additional, and Teptina, Anzhelika, additional

Published

2017

147. Additions to the mycobiota of Poland

Author

Łubek, Anna, primary and Kukwa, Martin, additional

Published

2017

148. Three lichen species in Buellia, Catillaria, and Cheiromycina, new to Poland

Author

Kukwa, Martin, primary, Czarnota, Paweł, additional, and Łubek, Anna, additional

Published

2017

149. Glacial refugia and the prediction of future habitat coverage of the South American lichen species Ochrolechia austroamericana

Author

Kukwa, Martin, primary and Kolanowska, Marta, additional

Published

2016

150. A new genus, Zhurbenkoa, and a novel nutritional mode revealed in the family Malmideaceae (Lecanoromycetes, Ascomycota).

Author

Flakus, Adam, Etayo, Javier, Pérez-Ortega, Sergio, Kukwa, Martin, Palice, Zdeněk, and Rodriguez-Flakus, Pamela

Subjects

LICHENS, ASCOMYCETES

Abstract

Lichen-inhabiting fungi are highly specialized mycoparasites, commensals or rarely saprotrophs, that are common components of almost every ecosystem, where they develop obligate associations with lichens. Their relevance, however, contrasts with the relatively small number of these fungi described so far. Recent estimates and ongoing studies indicate that a significant fraction of their diversity remains undiscovered and may be expected in tropical regions, in particular in hyperdiverse fog-exposed montane forests. Here, we introduce the new genus Zhurbenkoa, from South America and Europe, for three lichenicolous fungi growing on thalli of the widespread lichen genus Cladonia (Lecanorales). Phylogenetic analyses based on combined sequence data of mt and nuc rDNA obtained from Andean populations (Bolivia) placed Zhurbenkoa as a member of Malmideaceae, a recently introduced family of lichen-forming fungi in the class Lecanoromycetes. Zhurbenkoa is closely related to the genera Savoronala and Sprucidea. The new genus is characterized by the development of grayish brown to almost black apothecia lacking an evident margin, an epihymenium interspersed with crystals (often seen as pruina), a strongly conglutinated hymenium made of noncapitate and sparsely branched paraphyses, a colorless exciple composed of radially arranged hyphae, a Lecanora/Micarea-like ascus type, and aseptate or 1-septate ellipsoidal colorless ascospores. Zhurbenkoa includes two Neotropical (Z. cladoniarum, Z. latispora) and one widespread (Z. epicladonia) species. The lichenicolous trophic mode is documented for the first time in the Malmideaceae, which until now included only lichen-forming associations between fungi and green algae. [ABSTRACT FROM AUTHOR]

Published

2019