Xylobolus subpileatus, a specialized basidiomycete functionally linked to old canopy gaps

A. Taudiere; J. M. Bellanger; P. A. Moreau; C. Carcaillet; A. Christophe; Thomas Læssøe; C. Panaïotis; F. Richard

doi:10.1139/cjfr-2016-0521

Xylobolus subpileatus, a specialized basidiomycete functionally linked to old canopy gaps

A. Taudiere^*, J. M. Bellanger, P. A. Moreau, C. Carcaillet, A. Christophe, Thomas Læssøe, C. Panaïotis, F. Richard

^*Corresponding author for this work

Ecology and Evolution

3 Citations (Scopus)

Abstract

Documenting succession in forest canopy gaps provides insights into the ecological processes governing the temporal dynamics of species within communities. We analyzed the fruiting patterns of a rare but widely distributed saproxylic macromycete, Xylobolus subpileatus, during the ageing of natural canopy gaps in oak forests. In one of the last remaining Quercus ilex L. old-growth forests (on the island of Corsica, western Mediterranean basin), we systematically recorded and conducted molecular analyses of X. subpileatus basidiomes in 80 dated natural canopy gaps representing a 45-year long sequence of residence time of tree logs on the forest floor. Xylobolus subpileatus fruited exclusively on Q. ilex logs. The probability of fruiting of X. subpileatus significantly increases during the process of wood decomposition to reach its maximum in the oldest gaps, approximately 40 years after treefall. In contrast, the abundance and the richness of saprobic and ectomycorrhizal fruitbodies decrease as canopy gaps age. Our results emphasize the high ecological specialization of X. subpileatus. They also highlight the imperative need to conserve the last patches of old-growth Mediterranean forests to secure the persistence of this endangered and functionally unique macromycete whose presence is highly dependent on old wood in advanced stages of decomposition.

Original language	English
Journal	Canadian Journal of Forest Research
Volume	47
Issue number	7
Pages (from-to)	965-973
Number of pages	9
ISSN	0045-5067
DOIs	https://doi.org/10.1139/cjfr-2016-0521
Publication status	Published - Jul 2017

Keywords

Coarse woody debris
Conservation
Mediterranean forest
Natural canopy gaps
Old-growth stand

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title = "Xylobolus subpileatus, a specialized basidiomycete functionally linked to old canopy gaps",

abstract = "Documenting succession in forest canopy gaps provides insights into the ecological processes governing the temporal dynamics of species within communities. We analyzed the fruiting patterns of a rare but widely distributed saproxylic macromycete, Xylobolus subpileatus, during the ageing of natural canopy gaps in oak forests. In one of the last remaining Quercus ilex L. old-growth forests (on the island of Corsica, western Mediterranean basin), we systematically recorded and conducted molecular analyses of X. subpileatus basidiomes in 80 dated natural canopy gaps representing a 45-year long sequence of residence time of tree logs on the forest floor. Xylobolus subpileatus fruited exclusively on Q. ilex logs. The probability of fruiting of X. subpileatus significantly increases during the process of wood decomposition to reach its maximum in the oldest gaps, approximately 40 years after treefall. In contrast, the abundance and the richness of saprobic and ectomycorrhizal fruitbodies decrease as canopy gaps age. Our results emphasize the high ecological specialization of X. subpileatus. They also highlight the imperative need to conserve the last patches of old-growth Mediterranean forests to secure the persistence of this endangered and functionally unique macromycete whose presence is highly dependent on old wood in advanced stages of decomposition.",

keywords = "Coarse woody debris, Conservation, Mediterranean forest, Natural canopy gaps, Old-growth stand",

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T1 - Xylobolus subpileatus, a specialized basidiomycete functionally linked to old canopy gaps

AU - Taudiere, A.

AU - Bellanger, J. M.

AU - Moreau, P. A.

AU - Carcaillet, C.

AU - Christophe, A.

AU - Læssøe, Thomas

AU - Panaïotis, C.

AU - Richard, F.

PY - 2017/7

Y1 - 2017/7

N2 - Documenting succession in forest canopy gaps provides insights into the ecological processes governing the temporal dynamics of species within communities. We analyzed the fruiting patterns of a rare but widely distributed saproxylic macromycete, Xylobolus subpileatus, during the ageing of natural canopy gaps in oak forests. In one of the last remaining Quercus ilex L. old-growth forests (on the island of Corsica, western Mediterranean basin), we systematically recorded and conducted molecular analyses of X. subpileatus basidiomes in 80 dated natural canopy gaps representing a 45-year long sequence of residence time of tree logs on the forest floor. Xylobolus subpileatus fruited exclusively on Q. ilex logs. The probability of fruiting of X. subpileatus significantly increases during the process of wood decomposition to reach its maximum in the oldest gaps, approximately 40 years after treefall. In contrast, the abundance and the richness of saprobic and ectomycorrhizal fruitbodies decrease as canopy gaps age. Our results emphasize the high ecological specialization of X. subpileatus. They also highlight the imperative need to conserve the last patches of old-growth Mediterranean forests to secure the persistence of this endangered and functionally unique macromycete whose presence is highly dependent on old wood in advanced stages of decomposition.

AB - Documenting succession in forest canopy gaps provides insights into the ecological processes governing the temporal dynamics of species within communities. We analyzed the fruiting patterns of a rare but widely distributed saproxylic macromycete, Xylobolus subpileatus, during the ageing of natural canopy gaps in oak forests. In one of the last remaining Quercus ilex L. old-growth forests (on the island of Corsica, western Mediterranean basin), we systematically recorded and conducted molecular analyses of X. subpileatus basidiomes in 80 dated natural canopy gaps representing a 45-year long sequence of residence time of tree logs on the forest floor. Xylobolus subpileatus fruited exclusively on Q. ilex logs. The probability of fruiting of X. subpileatus significantly increases during the process of wood decomposition to reach its maximum in the oldest gaps, approximately 40 years after treefall. In contrast, the abundance and the richness of saprobic and ectomycorrhizal fruitbodies decrease as canopy gaps age. Our results emphasize the high ecological specialization of X. subpileatus. They also highlight the imperative need to conserve the last patches of old-growth Mediterranean forests to secure the persistence of this endangered and functionally unique macromycete whose presence is highly dependent on old wood in advanced stages of decomposition.

KW - Coarse woody debris

KW - Conservation

KW - Mediterranean forest

KW - Natural canopy gaps

KW - Old-growth stand

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DO - 10.1139/cjfr-2016-0521

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JO - Canadian Journal of Forest Research

JF - Canadian Journal of Forest Research

IS - 7

ER -

Xylobolus subpileatus, a specialized basidiomycete functionally linked to old canopy gaps

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