Survival of Suillus pungens and Amanita francheti Ectomycorrhizal Genets Was Rare or Absent after a Stand-Replacing Wildfire
• We looked for evidence of mycelial survival by Suillus pungens and Amanita francheti following a stand-replacing wildfire. These species were selected because we had previously mapped and genotyped their fruiting bodies in the pre-fire forest. • Mycelial survival was investigated in two ways. Firs...
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Published in | The New phytologist Vol. 155; no. 3; pp. 517 - 523 |
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Main Authors | , , , , |
Format | Journal Article |
Language | English |
Published |
Oxford, UK
Blackwell Science
01.09.2002
Blackwell Science Ltd Blackwell |
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Abstract | • We looked for evidence of mycelial survival by Suillus pungens and Amanita francheti following a stand-replacing wildfire. These species were selected because we had previously mapped and genotyped their fruiting bodies in the pre-fire forest. • Mycelial survival was investigated in two ways. First, we sampled seedlings in areas where these species had fruited abundantly before the fire, and second, we collected and genotyped mushrooms of S. pungens. • Neither species was detected on seedlings within the areas sampled, and A. francheti was not detected in any above- or below-ground samples after the fire. Genetic evidence from S. pungens revealed that post-fire genets were small and numerous, and none were found to be identical to the genets sampled prior to the fire. • From these results we conclude that A. francheti was not a common survivor or an early colonist of the post-fire forest, and that spores are the primary means by which S. pungens recolonized. If mycelial survival occurred in either species, it must have been relatively rare. |
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AbstractList | We looked for evidence of mycelial survival by Suillus pungens and Amanita francheti following a stand-replacing wildfire. These species were selected because we had previously mapped and genotyped their fruiting bodies in the pre-fire forest. Mycelial survival was investigated in two ways. First, we sampled seedlings in areas where these species had fruited abundantly before the fire, and second, we collected and genotyped mushrooms of S. pungens. Neither species was detected on seedlings within the areas sampled, and A. francheti was not detected in any above- or below-ground samples after the fire. Genetic evidence from S. pungens revealed that post-fire genets were small and numerous, and none were found to be identical to the genets sampled prior to the fire. From these results we conclude that A. francheti was not a common survivor or an early colonist of the post-fire forest, and that spores are the primary means by which S. pungens recolonized. If mycelial survival occurred in either species, it must have been relatively rare. Summary • We looked for evidence of mycelial survival by Suillus pungens and Amanita francheti following a stand‐replacing wildfire. These species were selected because we had previously mapped and genotyped their fruiting bodies in the pre‐fire forest. • Mycelial survival was investigated in two ways. First, we sampled seedlings in areas where these species had fruited abundantly before the fire, and second, we collected and genotyped mushrooms of S. pungens . • Neither species was detected on seedlings within the areas sampled, and A. francheti was not detected in any above‐ or below‐ground samples after the fire. Genetic evidence from S. pungens revealed that post‐fire genets were small and numerous, and none were found to be identical to the genets sampled prior to the fire. • From these results we conclude that A. francheti was not a common survivor or an early colonist of the post‐fire forest, and that spores are the primary means by which S. pungens recolonized. If mycelial survival occurred in either species, it must have been relatively rare. • We looked for evidence of mycelial survival by Suillus pungens and Amanita francheti following a stand-replacing wildfire. These species were selected because we had previously mapped and genotyped their fruiting bodies in the pre-fire forest. • Mycelial survival was investigated in two ways. First, we sampled seedlings in areas where these species had fruited abundantly before the fire, and second, we collected and genotyped mushrooms of S. pungens. • Neither species was detected on seedlings within the areas sampled, and A. francheti was not detected in any above- or below-ground samples after the fire. Genetic evidence from S. pungens revealed that post-fire genets were small and numerous, and none were found to be identical to the genets sampled prior to the fire. • From these results we conclude that A. francheti was not a common survivor or an early colonist of the post-fire forest, and that spores are the primary means by which S. pungens recolonized. If mycelial survival occurred in either species, it must have been relatively rare. |
Author | Tan, Jenny Redecker, Dirk Bidartondo, Martin Bruns, Tom Szaro, Tim |
Author_xml | – sequence: 1 givenname: Tom surname: Bruns fullname: Bruns, Tom – sequence: 2 givenname: Jenny surname: Tan fullname: Tan, Jenny – sequence: 3 givenname: Martin surname: Bidartondo fullname: Bidartondo, Martin – sequence: 4 givenname: Tim surname: Szaro fullname: Szaro, Tim – sequence: 5 givenname: Dirk surname: Redecker fullname: Redecker, Dirk |
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Keywords | Symbionte Genetic marker Basidiomycetes Survival Fungi Mycorrhiza Ectomycorrhiza Genetic identification Vegetation fire Amplified fragment length polymorphism marker Mycelium Colonization Thallophyta Fire survival AFLP genotypes post-fire recolonization ectomycorrhizal fungi |
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Snippet | • We looked for evidence of mycelial survival by Suillus pungens and Amanita francheti following a stand-replacing wildfire. These species were selected... Summary • We looked for evidence of mycelial survival by Suillus pungens and Amanita francheti following a stand‐replacing wildfire. These species were... • We looked for evidence of mycelial survival by Suillus pungens and Amanita francheti following a stand-replacing wildfire. These species were selected... We looked for evidence of mycelial survival by Suillus pungens and Amanita francheti following a stand-replacing wildfire. These species were selected because... |
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SubjectTerms | AFLP genotypes Agronomy. Soil science and plant productions Animal, plant and microbial ecology Biological and medical sciences Coniferous forests Economic plant physiology ectomycorrhizal fungi Fire survival Forest and land fires Forest fires Forest regeneration Forest soils Fundamental and applied biological sciences. Psychology Fungal spores Fungi Genotypes Microbial ecology Microflora of plants Mushrooms Parasitism and symbiosis Phytopathology. Animal pests. Plant and forest protection Pine trees Plant physiology and development post‐fire recolonization Seedlings Symbiosis Symbiosis (nodules, symbiotic nitrogen fixation, mycorrhiza...) Weather damages. Fires |
Title | Survival of Suillus pungens and Amanita francheti Ectomycorrhizal Genets Was Rare or Absent after a Stand-Replacing Wildfire |
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