Inoculum Potential of Rhizopogon Spores Increases with Time over the First 4 yr of a 99-yr Spore Burial Experiment

In disturbed or pioneer settings, spores and sclerotia of ectomycorrhizal fungi serve as the necessary inoculum for establishment of ectomycorrhizal-dependent trees. Yet, little is known about the persistence of these propagules through time. Here, live field soil was inoculated with known quantitie...

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Published in:The New phytologist 2009-01, Vol.181 (2), p.463-470
Main Authors: Bruns, Thomas D., Peay, Kabir G., Boynton, Primrose J., Grubisha, Lisa C., Hynson, Nicole A., Nhu H. Nguyen, Rosenstock, Nicholas P.
Format: Article
Language:English
Subjects:
Basidiomycota - physiology
burial experiment
dormancy
ectomycorrhizal fungi
Forest soils
Fungal spores
Fungi
inoculation curves
Inoculum
Mycorrhizae - physiology
Pinus - microbiology
Plant spores
Rhizopogon
Seedlings
Soil
Soil inoculation
Species
spore bank
spore longevity
Spores
Spores, Fungal - physiology
Viability
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cited_by cdi_FETCH-LOGICAL-c5012-6f8b56b790d5b70605923190ff84f237f803f303b65dd0ae4b105f4a95e57a823
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container_issue 2
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container_title The New phytologist
container_volume 181
creator Bruns, Thomas D.
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Rosenstock, Nicholas P.
description In disturbed or pioneer settings, spores and sclerotia of ectomycorrhizal fungi serve as the necessary inoculum for establishment of ectomycorrhizal-dependent trees. Yet, little is known about the persistence of these propagules through time. Here, live field soil was inoculated with known quantities of basidiospores from four pine-associated species of Rhizopogon; these samples were then buried in retrievable containers, and pine seedling bioassays of serially diluted spore samples were used to measure spore viability. In the first 4 yr, no evidence of loss of spore viability was found in the four Rhizopogon species tested, but all four species exhibited dormancy in which a maximum of 1-8% of their spores were initially receptive to pine roots. There were some differences between species in overall inoculum potential of their spores, but all species broke dormancy at a statistically similar rate. This result provides evidence for spore dormancy in a common ectomycorrhizal genus, but it also precludes our ability to estimate the longevity of the spores accurately. Nevertheless these results, coupled with the observed patterns of Rhizopogon spore banks, suggest that at least decade-long durations are likely. As this experiment progresses, the true longevity of the spores will eventually be revealed.
doi_str_mv 10.1111/j.1469-8137.2008.02652.x
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source Wiley; JSTOR Archival Journals and Primary Sources Collection
subjects Basidiomycota - physiology
burial experiment
dormancy
ectomycorrhizal fungi
Forest soils
Fungal spores
Fungi
inoculation curves
Inoculum
Mycorrhizae - physiology
Pinus - microbiology
Plant spores
Rhizopogon
Seedlings
Soil
Soil inoculation
Species
spore bank
spore longevity
Spores
Spores, Fungal - physiology
Viability
title Inoculum Potential of Rhizopogon Spores Increases with Time over the First 4 yr of a 99-yr Spore Burial Experiment
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