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Multiple Stress Factors affecting Growth of Rock‐inhabiting Black Fungi
Botanica Acta, 1995AbstractBlack fungi, belonging to the Dematiaceae, with yeast‐like growth patterns, were isolated from rock surfaces in the Mediterranean. They tolerate high temperatures and sodium chloride stress although they are neither thermophilic nor halophilic organisms.
Katja Sterflinger, W. E. Krumbein
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Rock-Inhabiting Fungi in Antarctica: New Frontiers of the Edge of Life
2019Adverse conditions on the Antarctic continent, such as fluctuations in temperature and humidity, intense solar radiation, and nutrient deficiency make rock surfaces inhospitable habitats for microorganisms. Antarctica has considerable geological diversity and includes the presence of all types of igneous, metamorphic, and sedimentary rocks.
Vívian Nicolau Gonçalves +6 more
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RupestriomycesandSpissiomyces, two new genera of rock-inhabiting fungi from China
Mycologia, 2015Bare rocks in arid and semi-arid climates may harbor a bewildering biodiversity of fungi that are overlooked in China. During a survey of rock-inhibiting fungi in China, more than 1000 were isolated and 14 belonging to Dothideomycetes (Ascomycota) were selected for detailed study.
Lei, Su +5 more
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Antonie van Leeuwenhoek, 1997
Coniosporium perforans and C. apollinis, originating from marble in the Mediterranean basin, are described as new species of rock inhabiting microcolonial fungi. The morphologically similar species Monodictys castaneae (Wallr.) S. Hughes, Phaeosclera dematioides Sigler et al., and a Coniosporium-like strain are compared using 18S rDNA phylogeny and ...
Sterflinger, K. +5 more
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Coniosporium perforans and C. apollinis, originating from marble in the Mediterranean basin, are described as new species of rock inhabiting microcolonial fungi. The morphologically similar species Monodictys castaneae (Wallr.) S. Hughes, Phaeosclera dematioides Sigler et al., and a Coniosporium-like strain are compared using 18S rDNA phylogeny and ...
Sterflinger, K. +5 more
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Phylogenetic relationship among extremotolerant rock inhabiting fungi and theri association with algae [PDF]
Black fungi are among the most stress-tolerant eukaryotic microorganisms. Though they share morphological similarities, they often hide great genetic diversity and present multiple life-styles. Lichenothelia and Saxomyces are two genera for which insights in the ecology and phylogenetic relationships within the class Dothideomycetes have been recently ...
AMETRANO, CLAUDIO GENNARO +4 more
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Survival strategies of rock inhabiting fungi in extreme environments
2014Schwarze mikrokoloniale Pilze (MCF) und schwarze Hefen gehören zu den Stress resistentesten Organismen der Erde. Es ist bekannt, dass diese Pilze nackte Gesteinsoberflächen in heißen und kalten Wüstengebieten besiedeln. In der vorliegenden Arbeit wurden die zellulären Mechanismen, die der Stressresistenz dieser Pilze zugrunde liegen, untersucht.
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Bioprospection of rock-inhabiting fungi from extreme environments
Planta Medica, 2014VN Gonçalves +9 more
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2014
Black fungi are recently described microorganisms and amongst the most stress- tolerant eukaryotes currently known. They are a taxonomically diverse, but morphologically similar group of filamentous fungi that share two distinct signature characteristics, i.e.
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Black fungi are recently described microorganisms and amongst the most stress- tolerant eukaryotes currently known. They are a taxonomically diverse, but morphologically similar group of filamentous fungi that share two distinct signature characteristics, i.e.
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Biodiversity of rock-inhabiting fungi and their role in biodeterioration
2020De Leo, F. +6 more
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