Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/extremely-acidic-soils-are-dominated-by-species-poor-and-highly-TZyhAU00lA
References (81)
-
D. Stierle, A. Stierle, Brianna Patacini (2007)
The berkeleyacetals, three meroterpenes from a deep water acid mine waste Penicillium.Journal of natural products, 70 11
-
A. Kubátová, K. Prášil, M. Váňová (2002)
Diversity of soil microscopic fungi on abandoned industrial depositsCryptogamie Mycologie, 23
-
Fungal Communities Inhabiting Extremely Acidic Soils -
A. Bresinsky (1989)
Buchbesprechungen - Methoden des mykologischen Laboratoriums. 181 S., 26 Abb, H. Kreisel, F. Schauer. VEB Gustav Fischer Verlag, Jena (1987)Biochemie und Physiologie der Pflanzen, 185
-
W Gams (1992)
Fungi in vegetation science -
T. Hall (1999)
BIOEDIT: A USER-FRIENDLY BIOLOGICAL SEQUENCE ALIGNMENT EDITOR AND ANALYSIS PROGRAM FOR WINDOWS 95/98/ NT -
M. Gardes, T. Bruns (1993)
ITS primers with enhanced specificity for basidiomycetes ‐ application to the identification of mycorrhizae and rustsMolecular Ecology, 2
-
D. Johnson (2012)
Geomicrobiology of extremely acidic subsurface environments.FEMS microbiology ecology, 81 1
-
A. López-Archilla, Irma Marín, Ricardo Amils (2000)
Microbial Community Composition and Ecology of an Acidic Aquatic Environment: The Tinto River, SpainMicrobial Ecology, 41
-
J. Kirk, L. Beaudette, M. Hart, P. Moutoglis, J. Klironomos, Hung Lee, J. Trevors (2004)
Methods of studying soil microbial diversity.Journal of microbiological methods, 58 2
-
M. Hujslová, A. Kubátová, M. Kostovčík, M. Kolařík (2012)
Acidiella bohemica gen. et sp. nov. and Acidomyces spp. (Teratosphaeriaceae), the indigenous inhabitants of extremely acidic soils in EuropeFungal Diversity, 58
-
A. López-Archilla, Ricardo Amils (1999)
A Comparative Ecological Study of Two Acidic Rivers in Southwestern SpainMicrobial Ecology, 38
-
S. Pažoutová, P. Šrůtka, J. Holuša, M. Chudickova, A. Kubátová, M. Kolařík (2012)
Liberomyces gen. nov. with two new species of endophytic coelomycetes from broadleaf treesMycologia, 104
-
Ø. Hammer, D. Harper, P. Ryan (2001)
PAST: paleontological statistics software package for education and data analysis version 2.09 -
E. Walsh, Jing Luo, Ning Zhang (2014)
Acidomelania panicicola gen. et sp. nov. from switchgrass roots in acidic New Jersey pine barrensMycologia, 106
-
F. Kauff, F. Lutzoni (2002)
Phylogeny of the Gyalectales and Ostropales (Ascomycota, Fungi): among and within order relationships based on nuclear ribosomal RNA small and large subunits.Molecular phylogenetics and evolution, 25 1
-
Hartmut Gimmler, J. Jesus, A. Greĭser (2001)
Heavy metal resistance of the extreme acidotolerant filamentous fungus Bispora spMicrobial Ecology, 42
-
T. Brock (1978)
Thermophilic Microorganisms and Life at High Temperatures -
L. Selbmann, G. Hoog, L. Zucconi, D. Isola, S. Ruisi, A. Ende, C. Ruibal, F. Leo, C. Urzì, S. Onofri (2008)
Drought meets acid: three new genera in a dothidealean clade of extremotolerant fungiStudies in Mycology, 61
-
S. Bühring, F. Schubotz, C. Harms, J. Lipp, R. Amils, K. Hinrichs (2012)
Lipid signatures of acidophilic microbial communities in an extreme acidic environment - Río Tinto, SpainOrganic Geochemistry, 47
-
N. Glass, G. Donaldson (1995)
Development of primer sets designed for use with the PCR to amplify conserved genes from filamentous ascomycetesApplied and Environmental Microbiology, 61
-
L. Amaral-Zettler (2013)
Eukaryotic diversity at pH extremesFrontiers in Microbiology, 3
-
A. Stierle, D. Stierle, T. Girtsman (2012)
Caspase-1 inhibitors from an extremophilic fungus that target specific leukemia cell lines.Journal of natural products, 75 3
-
A. Grum-Grzhimaylo, M. Georgieva, S. Bondarenko, A. Debets, E. Bilanenko (2015)
On the diversity of fungi from soda soilsFungal Diversity, 76
-
N. Gunde-Cimerman, P. Zalar (2014)
Extremely Halotolerant and Halophilic Fungi Inhabit Brine in Solar Salterns Around the GlobeFood Technology and Biotechnology, 52
-
Xabier Vázquez-Campos, A. Kinsela, T. Waite, Richard Collins, B. Neilan (2014)
Fodinomyces uranophilus gen. nov. sp. nov. and Coniochaeta fodinicola sp. nov., two uranium mine-inhabiting Ascomycota fungi from northern AustraliaMycologia, 106
-
Larissa Tetsch, J. Bend, M. Janssen, U. Hölker (2005)
Evidence for functional laccases in the acidophilic ascomycete Hortaea acidophila and isolation of laccase-specific gene fragments.FEMS microbiology letters, 245 1
-
B. Baker, G. Tyson, Lindsey Goosherst, J. Banfield (2009)
Insights into the Diversity of Eukaryotes in Acid Mine Drainage Biofilm CommunitiesApplied and Environmental Microbiology, 75
-
T. White (1990)
Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics, 18
-
A. López-Archilla, A González, M. Terrón, R. Amils (2004)
Ecological study of the fungal populations of the acidic Tinto River in southwestern Spain.Canadian journal of microbiology, 50 11
-
C Gostinčar, M Grube, S Hoog, P Zalar, N Gunde-Cimerman (2010)
Minireview. Extremotolerance in fungi: evolution on the edgeFEMS Microbiol Ecol, 71
-
Ž. Jurjević, A. Kubátová, M. Kolařík, V. Hubka (2015)
Taxonomy of Aspergillus section Petersonii sect. nov. encompassing indoor and soil-borne species with predominant tropical distributionPlant Systematics and Evolution, 301
-
C. Gostinčar, M. Grube, S. Hoog, P. Zalar, N. Gunde-Cimerman (2010)
Extremotolerance in fungi: evolution on the edge.FEMS microbiology ecology, 71 1
-
Udo H�lker, J. Bend, R. Pracht, Larissa Tetsch, Tobias M�ller, Milan H�fer, G. Hoog (2004)
Hortaea acidophila, a new acid-tolerant black yeast from ligniteAntonie van Leeuwenhoek, 86
-
D. Stierle, A. Stierle, T. Girtsman, K. McIntyre, J. Nichols (2012)
Caspase-1 and -3 inhibiting drimane sesquiterpenoids from the extremophilic fungus Penicillium solitum.Journal of natural products, 75 2
-
I. Zirnstein, T. Arnold, E. Krawczyk-Bärsch, U. Jenk, G. Bernhard, I. Röske (2012)
Eukaryotic life in biofilms formed in a uranium mineMicrobiologyOpen, 1
-
J. Zak, H. Wildman (2004)
14 – FUNGI IN STRESSFUL ENVIRONMENTS -
Ø. Hammer, D. Harper, P. Ryan (2001)
PAST: PALEONTOLOGICAL STATISTICAL SOFTWARE PACKAGE FOR EDUCATION AND DATA ANALYSISPalaeontologia Electronica, 4
-
O. Fassatiová (1986)
Moulds and filamentous fungi in technical microbiology -
M. Hujslová, M. Hujslová, A. Kubátová, M. Kostovčík, M. Kostovčík, R. Blanchette, Z. Beer, M. Chudickova, M. Kolařík (2014)
Three new genera of fungi from extremely acidic soilsMycological Progress, 13
-
J. Martínez (2012)
Natural Antibiotic Resistance and Contamination by Antibiotic Resistance Determinants: The Two Ages in the Evolution of Resistance to AntimicrobialsFrontiers in Microbiology, 3
-
Jun Yang, Huiying Luo, Jiang Li, Kun Wang, Hai-Li Cheng, Yingguo Bai, T. Yuan, Yunliu Fan, B. Yao (2011)
Cloning, expression and characterization of an acidic endo-polygalacturonase from Bispora sp. MEY-1 and its potential application in juice clarificationProcess Biochemistry, 46
-
DB Johnson (1998)
MiniReview. Biodiversity and ecology of acidophilic microorganismsFEMS Microbiol Ecol, 27
-
Junqi Zhao, P. Shi, Huiying Luo, Peilong Yang, Heng Zhao, Yingguo Bai, Huo-qing Huang, Hui Wang, B. Yao (2010)
An acidophilic and acid-stable beta-mannanase from phialophora sp. p13 with high mannan hydrolysis activity under simulated gastric conditions.Journal of agricultural and food chemistry, 58 5
-
LA Amaral Zettler, F Gomez, E Zettler, BG Keenan, R Amils, ML Sogin (2002)
Eukaryotic diversity in Spain’s river of fireNature, 417
-
G. Kochkina, N. Ivanushkina, S. Ozerskaya, N. Chigineva, O. Vasilenko, S. Firsov, E. Spirina, D. Gilichinsky (2012)
Ancient fungi in Antarctic permafrost environments.FEMS microbiology ecology, 82 2
-
B. Baker, Michelle Lutz, S. Dawson, P. Bond, J. Banfield (2004)
Metabolically Active Eukaryotic Communities in Extremely Acidic Mine DrainageApplied and Environmental Microbiology, 70
-
Gunde-Cimermana, Zalarb, de S, Plemenitasd (2000)
Hypersaline waters in salterns - natural ecological niches for halophilic black yeasts.FEMS microbiology ecology, 32 3
-
AI López-Archilla, I Marin, R Amils (2001)
Microbial community composition and ecology of an acidic aquatic environment: the Tinto River, SpainMicrob Ecol, 41
-
L. Tedersoo, M. Bahram, Sergei Põlme, U. Kõljalg, N. Yorou, Ravi Wijesundera, Luis Ruiz, Aída Vasco-Palacios, P. Thu, A. Suija, Matthew Smith, Cathy Sharp, Erki Saluveer, A. Saitta, Miguel Rosas, T. Riit, David Ratkowsky, K. Pritsch, K. Põldmaa, M. Piepenbring, C. Phosri, M. Peterson, Kaarin Parts, K. Pärtel, Eveli Otsing, E. Nouhra, A. Njouonkou, R. Nilsson, Luis Morgado, Jordan Mayor, Tom May, L. Majuakim, D. Lodge, Su Lee, K. Larsson, P. Kohout, K. Hosaka, Indrek Hiiesalu, T. Henkel, Helery Harend, Liang-Dong Guo, Alina Greslebin, G. Grelet, J. Geml, Genevieve Gates, William Dunstan, Chris Dunk, R. Drenkhan, J. Dearnaley, A. Kesel, Tan Dang, Xin Chen, F. Buegger, F. Brearley, G. Bonito, S. Anslan, S. Abell, K. Abarenkov (2014)
Global diversity and geography of soil fungiScience, 346
-
A. Stierle, D. Stierle, Kalie Kelly (2006)
Berkelic acid, a novel spiroketal with selective anticancer activity from an acid mine waste fungal extremophile.The Journal of organic chemistry, 71 14
-
L. Zettler, M. Messerli, Abby Laatsch, Peter Smith, M. Sogin (2003)
From Genes to Genomes: Beyond Biodiversity in Spain’s Rio TintoThe Biological Bulletin, 204
-
Annika Mosier, N. Justice, B. Bowen, R. Baran, B. Thomas, T. Northen, J. Banfield (2013)
Metabolites Associated with Adaptation of Microorganisms to an Acidophilic, Metal-Rich Environment Identified by Stable-Isotope-Enabled MetabolomicsmBio, 4
-
J. Bray, And Curtis, Departrnent (1957)
An Ordination of the Upland Forest Communities of Southern WisconsinEcological Monographs, 27
-
M. Gadanho, J. Sampaio (2006)
Microeukaryotic diversity in the extreme environments of the Iberian Pyrite Belt: a comparison between universal and fungi-specific primer sets, temperature gradient gel electrophoresis and cloning.FEMS microbiology ecology, 57 1
-
K O’Donnell (1993)
The fungal holomorph: mitotic, meiotic, and pleomorphic speciation in fungal systematics -
M. Kolařík, M. Hujslová, Xabier Vázquez-Campos (2015)
Acidotolerant genus Fodinomyces (Ascomycota: Capnodiales) is a synonym of Acidiella., 67
-
N Gunde-Cimerman, P Zalar (2014)
Minireview. Extremely halotolerant nad halophilic fungi inhabit brine in solar salterns around the globeFood Technol Biotechnol, 52
-
H. Seliger (1990)
PCR protocols — A guide to methods and applicationsTrends in Biotechnology, 8
-
G. Bills, M. Christensen, M. Powell, G. Thorn (2004)
Saprobic soil fungi -
S. Altschul, Thomas Madden, A. Schäffer, Jinghui Zhang, Zheng Zhang, W. Miller, D. Lipman (1997)
Gapped BLAST and PSI-BLAST: a new generation of protein database search programs.Nucleic acids research, 25 17
-
Hui Wang, Huiying Luo, Jiang Li, Yingguo Bai, Huo-qing Huang, P. Shi, Yunliu Fan, B. Yao (2010)
An alpha-galactosidase from an acidophilic Bispora sp. MEY-1 strain acts synergistically with beta-mannanase.Bioresource technology, 101 21
-
J. Pitt (1981)
The genus Penicillium and its teleomorphic states Eupenicillium and Talaromyces -
H. Hršelová, M. Hujslová, M. Gryndler (2015)
Genetic transformation of extremophilic fungi Acidea extrema and Acidothrix acidophilaFolia Microbiologica, 60
-
S. Gross, E. Robbins (2000)
Acidophilic and acid-tolerant fungi and yeastsHydrobiologia, 433
-
K. O’Donnell (1993)
Fusarium and its near relatives -
M. Hoefnagels (2005)
Biodiversity of Fungi: Inventory and Monitoring Methods, 55
-
D. Tuthill, J. Frisvad, M. Christensen (2001)
Systematics of Penicillium simplicissimum based on rDNA sequences, morphology and secondary metabolitesMycologia, 93
-
B. Das, A. Roy, M. Koschorreck, S. Mandal, K. Wendt‐Potthoff, J. Bhattacharya (2009)
Occurrence and role of algae and fungi in acid mine drainage environment with special reference to metals and sulfate immobilization.Water research, 43 4
-
L. Zettler, F. Gómez, E. Zettler, Brendan Keenan, R. Amils, M. Sogin (2002)
Microbiology: Eukaryotic diversity in Spain's River of FireNature, 417
-
Atsushi Yamazaki, K. Toyama, A. Nakagiri (2010)
A new acidophilic fungus Teratosphaeria acidotherma (Capnodiales, Ascomycota) from a hot springMycoscience, 51
-
M. Hujslová, A. Kubátová, M. Chudickova, M. Kolařík (2010)
Diversity of fungal communities in saline and acidic soils in the Soos National Natural Reserve, Czech RepublicMycological Progress, 9
-
(2013)
EstimateS: Statistical estimation of species richness and shared species from samples. Version 9. User's Guide and application published at http://purl.oclc.org/estimates -
F. Boonen, Anne-Michèle Vandamme, Emilie Etoundi, Lise-Marie Pigneur, I. Housen (2014)
Identification and characterization of a novel multicopper oxidase from Acidomyces acidophilus with ferroxidase activity.Biochimie, 102
-
W. Gams (1992)
The analysis of communities of saprophytic microfungi with special reference to soil fungi -
H. Kreisel, F. Schauer (1987)
Methoden des mykologischen Laboratoriums -
Huiying Luo, Jun Yang, Jiang Li, P. Shi, Huo-qing Huang, Yingguo Bai, Yunliu Fan, B. Yao (2010)
Molecular cloning and characterization of the novel acidic xylanase XYLD from Bispora sp. MEY-1 that is homologous to family 30 glycosyl hydrolasesApplied Microbiology and Biotechnology, 86
-
D.Barrie Johnson (1998)
Biodiversity and ecology of acidophilic microorganismsFEMS Microbiology Ecology, 27
-
C. Braak, P. Šmilauer (2002)
CANOCO 4.5 Reference Manual and CanoDraw for Windows User's Guide: Software for Canonical Community Ordination -
JL Kirk, LA Beaudette, M Hart, P Moutoglis, JN Klironomos, H Lee, JT Trevors (2004)
Review. Methods of studying soil microbial diversityJ Microbiol Meth, 58
-
L. Selbmann, E. Egidi, D. Isola, S. Onofri, L. Zucconi, G. Hoog, S. Chinaglia, L. Testa, S. Tosi, A. Balestrazzi, A. Lantieri, R. Compagno, V. Tigini, G. Varese (2013)
Biodiversity, evolution and adaptation of fungi in extreme environmentsPlant Biosystems - An International Journal Dealing with all Aspects of Plant Biology, 147
- Publisher
- Springer Journals
- Copyright
- Copyright © 2016 by Springer Science+Business Media New York
- Subject
- Life Sciences; Microbiology; Ecology; Microbial Ecology; Geoecology/Natural Processes; Nature Conservation; Water Quality/Water Pollution
- ISSN
- 0095-3628
- eISSN
- 1432-184X
- DOI
- 10.1007/s00248-016-0860-3
- pmid
- 27687871
- Publisher site
- See Article on Publisher Site
Abstract
Highly acidic soils (pH < 3) represent an environment which might potentially offer new biotechnologically interesting fungi. Nevertheless, only little data on fungal communities in highly acidic habitats are available. Here, we focused on the diversity of cultivable filamentous microfungi in highly acidic soils (pH < 3) in the Czech Republic. Altogether, 16 soil samples were collected from four sampling sites and were processed by various approaches. In total, 54 fungal taxa were isolated and identified using classical as well as molecular markers. All dominant species were found both as living mycelia and as resistant stages. Numerous recently described or unknown taxa were isolated. The core of the fungal assemblage under study consisted of phylogenetically unrelated and often globally distributed fungi exclusively inhabiting highly acidic habitats like Acidiella bohemica, Acidomyces acidophilus, and unidentified helotialean fungus, as well as taxa known from less acidic and often extreme environments like Acidea extrema, Penicillium simplicissimum s.l., and Penicillium spinulosum. The large number of identified specialized species indicates that highly acidic environments provide suitable conditions for the evolution of specialist species. The occurrence of ubiquitous fungi in highly acidic substrates points to the principal role of competition in the colonization of such environments. The detected taxa did not require low pH to survive, because they can grow in a broad range of pH.
Journal
Microbial Ecology – Springer Journals
Published: Sep 29, 2016