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Publication DateThe New Phytologist, ISSN 0028-646X, 1/2007, Volume 174, Issue 2, pp. 430 - 440
To advance our understanding of host effects on the community structure of ectomycorrhizal fungi (EMF), EMF communities were compared among different host...
Old growth forests | Trees | Fungi | Biological taxonomies | Secondary forests | Coniferous forests | Mycology | Host specificity | Rapid Report | Pine trees | Root tips | Pinaceae | terminal restriction fragment length polymorphism (T‐RFLP) | host range and specificity | internal transcribed spacer (ITS) | ectomycorrhizal fungal (EMF) community | Fagaceae | Betulaceae | mixed conifer–broadleaf forest | Internal transcribed spacer (ITS) | Terminal restriction fragment length polymorphism (T-RFLP) | Mixed conifer-broadleaf forest | Host range and specificity | Ectomycorrhizal fungal (EMF) community | mixed conifer-broadleaf forest | SPECIFICITY | RICHNESS | SEEDLINGS | IDENTIFICATION | VOLCANIC DESERT | GRADIENT | PLANT SCIENCES | GROWTH | DIVERSITY | MATURE TREES | STANDS | terminal restriction fragment length polymorphism (T-RFLP) | Fagaceae - microbiology | Pinaceae - microbiology | Symbiosis - physiology | Mycorrhizae - physiology | Biodiversity | Plant Roots - microbiology | Pinaceae - physiology | Betulaceae - physiology | Plant Roots - physiology | Trees - physiology | Fagaceae - physiology | Ecosystem | Betulaceae - microbiology | Trees - microbiology | Forests and forestry
Old growth forests | Trees | Fungi | Biological taxonomies | Secondary forests | Coniferous forests | Mycology | Host specificity | Rapid Report | Pine trees | Root tips | Pinaceae | terminal restriction fragment length polymorphism (T‐RFLP) | host range and specificity | internal transcribed spacer (ITS) | ectomycorrhizal fungal (EMF) community | Fagaceae | Betulaceae | mixed conifer–broadleaf forest | Internal transcribed spacer (ITS) | Terminal restriction fragment length polymorphism (T-RFLP) | Mixed conifer-broadleaf forest | Host range and specificity | Ectomycorrhizal fungal (EMF) community | mixed conifer-broadleaf forest | SPECIFICITY | RICHNESS | SEEDLINGS | IDENTIFICATION | VOLCANIC DESERT | GRADIENT | PLANT SCIENCES | GROWTH | DIVERSITY | MATURE TREES | STANDS | terminal restriction fragment length polymorphism (T-RFLP) | Fagaceae - microbiology | Pinaceae - microbiology | Symbiosis - physiology | Mycorrhizae - physiology | Biodiversity | Plant Roots - microbiology | Pinaceae - physiology | Betulaceae - physiology | Plant Roots - physiology | Trees - physiology | Fagaceae - physiology | Ecosystem | Betulaceae - microbiology | Trees - microbiology | Forests and forestry
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Loading RightsNew Phytologist, ISSN 0028-646X, 07/2016, Volume 211, Issue 2, pp. 542 - 553
Summary We investigated fungal growth and community composition in buried meshbags, amended with apatite, biotite or hornblende, in Norway spruce (Picea abies)...
Norway spruce (Picea abies) | soil nutrients | minerals | hyphae | ectomycorrhizal fungi (EMF) | fungal community composition | ergosterol | SEEDLINGS | EXTRAMATRICAL MYCELIUM | PINUS-SYLVESTRIS | APATITE | COMMUNITY COMPOSITION | PLANT SCIENCES | MYCORRHIZAL | ECTOMYCORRHIZAL FUNGI | BIOMASS | GROWTH | NITROGEN | Plant Leaves - chemistry | Multivariate Analysis | Forests | Ergosterol - metabolism | Fungi - drug effects | Soil Microbiology | Picea - physiology | Biomass | Magnesium - pharmacology | Potassium - pharmacology | Picea - drug effects | Phosphorus - pharmacology | Plant Leaves - drug effects | Minerals - metabolism | Fungi - growth & development | Phosphate minerals | Discovery and exploration | Serpentinite | Phosphate rock | Phytosterols | Mineral industry | Forests and forestry | Magnesium | Plant lipids | Mining industry | Biological Sciences | Ecology | Naturvetenskap | Biologiska vetenskaper | Natural Sciences | Ekologi
Norway spruce (Picea abies) | soil nutrients | minerals | hyphae | ectomycorrhizal fungi (EMF) | fungal community composition | ergosterol | SEEDLINGS | EXTRAMATRICAL MYCELIUM | PINUS-SYLVESTRIS | APATITE | COMMUNITY COMPOSITION | PLANT SCIENCES | MYCORRHIZAL | ECTOMYCORRHIZAL FUNGI | BIOMASS | GROWTH | NITROGEN | Plant Leaves - chemistry | Multivariate Analysis | Forests | Ergosterol - metabolism | Fungi - drug effects | Soil Microbiology | Picea - physiology | Biomass | Magnesium - pharmacology | Potassium - pharmacology | Picea - drug effects | Phosphorus - pharmacology | Plant Leaves - drug effects | Minerals - metabolism | Fungi - growth & development | Phosphate minerals | Discovery and exploration | Serpentinite | Phosphate rock | Phytosterols | Mineral industry | Forests and forestry | Magnesium | Plant lipids | Mining industry | Biological Sciences | Ecology | Naturvetenskap | Biologiska vetenskaper | Natural Sciences | Ekologi
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Loading RightsMycorrhiza, ISSN 0940-6360, 6/2009, Volume 19, Issue 5, pp. 329 - 335
Alkaline-saline soil is widespread in arid and semiarid regions of the world and causes severe environmental and agricultural problems. To advance our...
Life Sciences | Terminal restriction fragment length polymorphism (T-RFLP) | Microbiology | Forestry | Ecology | Agriculture | Geopora | Alkaline-saline soil | Plant Sciences | Salix linearistipularis (syn. Salix mongolica ) | Ectomycorrhizal fungal (EMF) community | Salix linearistipularis (syn. Salix mongolica) | L. SEEDLINGS | PRIMARY SUCCESSION | INOCULATION | SEEDLING ESTABLISHMENT | SIMULATION | VOLCANIC DESERT | IN-VITRO | GROWTH | DIVERSITY | MYCOLOGY | SONGNEN PLAIN | Ascomycota - isolation & purification | DNA, Fungal - genetics | Salix - microbiology | Soil Microbiology | Mycorrhizae - isolation & purification | Molecular Sequence Data | Soil - analysis | Phylogeny | Plant Roots - microbiology | Basidiomycota - isolation & purification | Mycorrhizae - classification | Mycorrhizae - genetics | DNA, Ribosomal Spacer - genetics | Basidiomycota - classification | China | Ascomycota - genetics | Basidiomycota - genetics | Ascomycota - classification | Hydrogen-Ion Concentration | Soil acidity | Analysis | Genetic polymorphisms | Skogsvetenskap | Forest Science
Life Sciences | Terminal restriction fragment length polymorphism (T-RFLP) | Microbiology | Forestry | Ecology | Agriculture | Geopora | Alkaline-saline soil | Plant Sciences | Salix linearistipularis (syn. Salix mongolica ) | Ectomycorrhizal fungal (EMF) community | Salix linearistipularis (syn. Salix mongolica) | L. SEEDLINGS | PRIMARY SUCCESSION | INOCULATION | SEEDLING ESTABLISHMENT | SIMULATION | VOLCANIC DESERT | IN-VITRO | GROWTH | DIVERSITY | MYCOLOGY | SONGNEN PLAIN | Ascomycota - isolation & purification | DNA, Fungal - genetics | Salix - microbiology | Soil Microbiology | Mycorrhizae - isolation & purification | Molecular Sequence Data | Soil - analysis | Phylogeny | Plant Roots - microbiology | Basidiomycota - isolation & purification | Mycorrhizae - classification | Mycorrhizae - genetics | DNA, Ribosomal Spacer - genetics | Basidiomycota - classification | China | Ascomycota - genetics | Basidiomycota - genetics | Ascomycota - classification | Hydrogen-Ion Concentration | Soil acidity | Analysis | Genetic polymorphisms | Skogsvetenskap | Forest Science
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Loading RightsMolecular Ecology, ISSN 0962-1083, 12/2017, Volume 26, Issue 24, pp. 6960 - 6973
Whether niche processes, like environmental filtering, or neutral processes, like dispersal limitation, are the primary forces driving community assembly is a...
ectomycorrhizal (ECM) fungi (EMF) | generalized dissimilarity modelling (GDM) | Illumina MiSeq | beta‐diversity | Yosemite National Park | beta-diversity | HOST-SPECIFICITY | BIOGEOGRAPHY | INTERNAL TRANSCRIBED SPACER | BIOCHEMISTRY & MOLECULAR BIOLOGY | FOREST SOILS | PLANT DIVERSITY | EVOLUTIONARY BIOLOGY | ECTOMYCORRHIZAL FUNGI | BACTERIAL COMMUNITIES | SPECIES RICHNESS | DISPERSAL LIMITATION | ECOLOGY | Pinus - microbiology | Symbiosis | Forests | DNA, Fungal - genetics | DNA, Ribosomal Spacer - genetics | Models, Biological | Soil Microbiology | Soil - chemistry | California | Mycorrhizae - classification | Hydrogen-Ion Concentration | Fungi | Soil chemistry | Hydrogen-ion concentration | Analysis | Geography | Cation exchange | Organic matter | Ectomycorrhizas | Filtration | Communities | Spatial discrimination | Cation exchanging | Soil nutrients | Pine trees | pH effects | Electromagnetic fields | Hydrogen ions | Dispersal | Nutrients | Assembly | Community composition
ectomycorrhizal (ECM) fungi (EMF) | generalized dissimilarity modelling (GDM) | Illumina MiSeq | beta‐diversity | Yosemite National Park | beta-diversity | HOST-SPECIFICITY | BIOGEOGRAPHY | INTERNAL TRANSCRIBED SPACER | BIOCHEMISTRY & MOLECULAR BIOLOGY | FOREST SOILS | PLANT DIVERSITY | EVOLUTIONARY BIOLOGY | ECTOMYCORRHIZAL FUNGI | BACTERIAL COMMUNITIES | SPECIES RICHNESS | DISPERSAL LIMITATION | ECOLOGY | Pinus - microbiology | Symbiosis | Forests | DNA, Fungal - genetics | DNA, Ribosomal Spacer - genetics | Models, Biological | Soil Microbiology | Soil - chemistry | California | Mycorrhizae - classification | Hydrogen-Ion Concentration | Fungi | Soil chemistry | Hydrogen-ion concentration | Analysis | Geography | Cation exchange | Organic matter | Ectomycorrhizas | Filtration | Communities | Spatial discrimination | Cation exchanging | Soil nutrients | Pine trees | pH effects | Electromagnetic fields | Hydrogen ions | Dispersal | Nutrients | Assembly | Community composition
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Detection of forest stand-level spatial structure in ectomycorrhizal fungal communities
FEMS Microbiology Ecology, ISSN 0168-6496, 2004, Volume 49, Issue 2, pp. 319 - 332
Abstract Ectomycorrhizal fungal (EMF) communities are highly diverse at the stand level. To begin to understand what might lead to such diversity, and to...
Community structure | Mantel test | Standardized variogram | Spatial autocorrelation | Spatial structure | Mantel correlogram | Ectomycorrhizal fungi | SPECIES-DIVERSITY | spatial structure | PERSISTENCE | SIZE | spatial autocorrelation | PSEUDOTSUGA-MENZIESII | POPULATIONS | PATTERNS | MICROBIOLOGY | mantel test | GENETS | mantel correlogram | community structure | PINUS-MURICATA | BIOMASS | ECOLOGY | ectomycorrhizal fungi | standardized variogram | Forests | Ectomycorrhizas | Similarity | Communities | Sampling designs | Electromagnetic fields | Low frequency | Forest fires | Cores | Fungi | Taxa | Efficiency | Sampling | Autocorrelation
Community structure | Mantel test | Standardized variogram | Spatial autocorrelation | Spatial structure | Mantel correlogram | Ectomycorrhizal fungi | SPECIES-DIVERSITY | spatial structure | PERSISTENCE | SIZE | spatial autocorrelation | PSEUDOTSUGA-MENZIESII | POPULATIONS | PATTERNS | MICROBIOLOGY | mantel test | GENETS | mantel correlogram | community structure | PINUS-MURICATA | BIOMASS | ECOLOGY | ectomycorrhizal fungi | standardized variogram | Forests | Ectomycorrhizas | Similarity | Communities | Sampling designs | Electromagnetic fields | Low frequency | Forest fires | Cores | Fungi | Taxa | Efficiency | Sampling | Autocorrelation
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Loading RightsProceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 10/2017, Volume 114, Issue 42, pp. 11169 - 11174
Plant genetic variation and soil microorganisms are individually known to influence plant responses to climate change, but the interactive effects of these two...
Plant-soil feedback | Climate change | Host genetics | Drought | Ectomycorrhizal fungi | DOUGLAS-FIR | LOCAL ADAPTATION | MULTIDISCIPLINARY SCIENCES | GLOBAL-CHANGE | host genetics | CLIMATE-CHANGE | ASSISTED MIGRATION | RESPONSES | drought | PINYON PINE | PLANT-SOIL FEEDBACKS | plant-soil feedback | ectomycorrhizal fungi | ECOSYSTEMS | climate change | Pinus - microbiology | Symbiosis | Climate Change | Droughts | Mycorrhizae | Acclimatization | Pinus - genetics | Mycorrhizas | Genetic variation | Environmental aspects | Genetic aspects | Climatic changes | Observations | Plant populations | Biological Sciences
Plant-soil feedback | Climate change | Host genetics | Drought | Ectomycorrhizal fungi | DOUGLAS-FIR | LOCAL ADAPTATION | MULTIDISCIPLINARY SCIENCES | GLOBAL-CHANGE | host genetics | CLIMATE-CHANGE | ASSISTED MIGRATION | RESPONSES | drought | PINYON PINE | PLANT-SOIL FEEDBACKS | plant-soil feedback | ectomycorrhizal fungi | ECOSYSTEMS | climate change | Pinus - microbiology | Symbiosis | Climate Change | Droughts | Mycorrhizae | Acclimatization | Pinus - genetics | Mycorrhizas | Genetic variation | Environmental aspects | Genetic aspects | Climatic changes | Observations | Plant populations | Biological Sciences
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Loading RightsJournal of Ecology, ISSN 0022-0477, 05/2018, Volume 106, Issue 3, pp. 960 - 976
Warmer and drier conditions associated with ongoing climate change will increase abiotic stress for plants and mycorrhizal fungi in drylands world‐wide,...
water use efficiency | stomatal conductance | plant–climate interactions | photosynthesis | plant stoichiometry | gypsum ecosystems | ectomycorrhizal fungi | plant–soil feedbacks | Helianthemum squamatum | PHENOLOGICAL RESPONSE | SOIL-MOISTURE | plant-climate interactions | DROUGHT | PATTERNS | SEASONAL DYNAMICS | PLANT SCIENCES | plant-soil feedbacks | COMMUNITY | TEMPERATURE | NITROGEN | ECOLOGY | Fungi | Environmental aspects | Global temperature changes | Photosynthesis | Ecosystems | Phytochemistry | Communities | Indigenous plants | Symbionts | Microorganisms | Vegetation cover | Productivity | Community structure | Ectomycorrhizas | Vulnerability | Climatic changes | Water use efficiency | Plants | Electromagnetic fields | Land use | Resistance | Host plants | Vegetation | Conductance | Desertification | Water use | Dry matter | Environmental changes | Feedback loops | Guilds | Low frequency | Risks | Leaves | Reduction | Next-generation sequencing | Shrubs | Global warming | Biodegradation | Plants (botany) | Nutrients (mineral) | Rainfall | Phosphorus | Stomata | Nitrogen | Environmental impact | Rhizosphere | Climate change | Soils | Environmental degradation | Aridity | Relative abundance | Interactions | Drying
water use efficiency | stomatal conductance | plant–climate interactions | photosynthesis | plant stoichiometry | gypsum ecosystems | ectomycorrhizal fungi | plant–soil feedbacks | Helianthemum squamatum | PHENOLOGICAL RESPONSE | SOIL-MOISTURE | plant-climate interactions | DROUGHT | PATTERNS | SEASONAL DYNAMICS | PLANT SCIENCES | plant-soil feedbacks | COMMUNITY | TEMPERATURE | NITROGEN | ECOLOGY | Fungi | Environmental aspects | Global temperature changes | Photosynthesis | Ecosystems | Phytochemistry | Communities | Indigenous plants | Symbionts | Microorganisms | Vegetation cover | Productivity | Community structure | Ectomycorrhizas | Vulnerability | Climatic changes | Water use efficiency | Plants | Electromagnetic fields | Land use | Resistance | Host plants | Vegetation | Conductance | Desertification | Water use | Dry matter | Environmental changes | Feedback loops | Guilds | Low frequency | Risks | Leaves | Reduction | Next-generation sequencing | Shrubs | Global warming | Biodegradation | Plants (botany) | Nutrients (mineral) | Rainfall | Phosphorus | Stomata | Nitrogen | Environmental impact | Rhizosphere | Climate change | Soils | Environmental degradation | Aridity | Relative abundance | Interactions | Drying
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Loading RightsForest Ecology and Management, ISSN 0378-1127, 11/2016, Volume 380, pp. 41 - 49
Management of boreal forests with clear-cutting has a marked effect on forest biodiversity. One directly and severely affected group of species is...
Forest management | Clear-cutting | Pinus sylvestris | Shelterwood | Ectomycorrhizal fungi | SURVIVAL | BELOW-GROUND VIEWS | RETENTION | STAND | BRITISH-COLUMBIA | CONIFER SEEDLINGS | SOIL | DIVERSITY | FORESTRY | MATURE TREES | AGE | Forests and forestry | Sustainable forestry | Analysis | Nature conservation | Environmental protection | Mikrobiologi | Ecology | Skogsvetenskap | Microbiology | Forest Science | Ekologi
Forest management | Clear-cutting | Pinus sylvestris | Shelterwood | Ectomycorrhizal fungi | SURVIVAL | BELOW-GROUND VIEWS | RETENTION | STAND | BRITISH-COLUMBIA | CONIFER SEEDLINGS | SOIL | DIVERSITY | FORESTRY | MATURE TREES | AGE | Forests and forestry | Sustainable forestry | Analysis | Nature conservation | Environmental protection | Mikrobiologi | Ecology | Skogsvetenskap | Microbiology | Forest Science | Ekologi
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Loading RightsFungal Ecology, ISSN 1754-5048, 12/2016, Volume 24, pp. 124 - 134
Although the eco-evolutionary dynamics of multicellular organisms are intertwined with the microorganisms that colonize them, there is only a rudimentary...
Genotype | Heritability | Populus | Senescent leaf chemistry | Ectomycorrhizal fungi | PLANT | MIXED MODELS | POPULATIONS | COLONIZATION | COTTONWOODS | GENETIC-VARIATION | MICROBIAL COMMUNITIES | LITTER | FUNCTIONAL TRAITS | ECOLOGY | MYCOLOGY | SYMBIOSIS | Mycorrhizas | Genetic aspects | Observations
Genotype | Heritability | Populus | Senescent leaf chemistry | Ectomycorrhizal fungi | PLANT | MIXED MODELS | POPULATIONS | COLONIZATION | COTTONWOODS | GENETIC-VARIATION | MICROBIAL COMMUNITIES | LITTER | FUNCTIONAL TRAITS | ECOLOGY | MYCOLOGY | SYMBIOSIS | Mycorrhizas | Genetic aspects | Observations
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Loading RightsMycorrhiza, ISSN 0940-6360, 09/2009, Volume 19, Issue 8, pp. 535 - 548
Soil fertility and associated nitrogen (N) status was a key ecosystem attribute, and surveys of ectomycorrhizal fungal (EMF) communities via epigeous fruiting...
Nitrogen mineralization | Ecosystem monitoring | Indicator species | Ecological integrity | Mushrooms | Ectomycorrhizal fungi | SPECIES COMPOSITION | QUERCUS-ILEX | ABUNDANCE | SPOROCARP PRODUCTION | COMMUNITY STRUCTURE | BIODIVERSITY INDICATORS | PRODUCTIVITY GRADIENTS | BRITISH-COLUMBIA | DIVERSITY | MYCOLOGY | PINE FORESTS | Trees | DNA, Fungal - genetics | Nitrogen - analysis | Soil Microbiology | Mycorrhizae - isolation & purification | Molecular Sequence Data | British Columbia | DNA, Fungal - chemistry | Fruiting Bodies, Fungal - growth & development | Soil - analysis | DNA, Ribosomal Spacer - chemistry | Phylogeny | Mycorrhizae - growth & development | DNA, Ribosomal - chemistry | Mycorrhizae - classification | Sequence Analysis, DNA | DNA, Ribosomal Spacer - genetics | DNA, Ribosomal - genetics | Soil productivity | Forests and forestry | Indicators (Biology) | Ecosystems | Forest soils
Nitrogen mineralization | Ecosystem monitoring | Indicator species | Ecological integrity | Mushrooms | Ectomycorrhizal fungi | SPECIES COMPOSITION | QUERCUS-ILEX | ABUNDANCE | SPOROCARP PRODUCTION | COMMUNITY STRUCTURE | BIODIVERSITY INDICATORS | PRODUCTIVITY GRADIENTS | BRITISH-COLUMBIA | DIVERSITY | MYCOLOGY | PINE FORESTS | Trees | DNA, Fungal - genetics | Nitrogen - analysis | Soil Microbiology | Mycorrhizae - isolation & purification | Molecular Sequence Data | British Columbia | DNA, Fungal - chemistry | Fruiting Bodies, Fungal - growth & development | Soil - analysis | DNA, Ribosomal Spacer - chemistry | Phylogeny | Mycorrhizae - growth & development | DNA, Ribosomal - chemistry | Mycorrhizae - classification | Sequence Analysis, DNA | DNA, Ribosomal Spacer - genetics | DNA, Ribosomal - genetics | Soil productivity | Forests and forestry | Indicators (Biology) | Ecosystems | Forest soils
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