Soil inoculation of lodgepole pine seedlings alters root‐associated fungal communities but does not improve seedling performance in beetle‐killed pine stands

Soil inoculation of lodgepole pine seedlings alters root‐associated fungal communities but does not improve seedling performance in beetle‐killed pine stands

Extensive tree mortality in forests can change the community composition of soil fungi altering seedling establishment, a process critical to forest restoration. Disturbances that result in the loss of ectomycorrhizal fungi, in particular, may impede the establishment of tree species reliant on thes...

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Published in:Restoration ecology Vol. 31; no. 1
Main Authors: Wasyliw, Joshua, Fellrath, Evan G., Pec, Gregory J., Cale, Jonathan A., Franklin, James, Thomasson, Charlotte, Erbilgin, Nadir, Karst, Justine
Format: Journal Article
Language:English
Published: Malden, USA Wiley Periodicals, Inc 01-01-2023
Blackwell Publishing Ltd
Subjects:
Beetles
Community composition
Composition
conifer forests
Dendroctonus ponderosae
disturbance legacy
Disturbances
Ectomycorrhizas
Environmental restoration
Evergreen trees
Fungi
Growing season
Growth chambers
Inoculation
Inoculum
insect outbreaks
Loam
Mortality
Pest outbreaks
Pine
Pine trees
Pinus contorta
Plant growth
Plant species
reforestation
Restoration
Sandy soils
Seedlings
Soil
Soil improvement
Soil microorganisms
Soil properties
Soil texture
Soil types
Survival
Symbionts
Texture
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Abstract Extensive tree mortality in forests can change the community composition of soil fungi altering seedling establishment, a process critical to forest restoration. Disturbances that result in the loss of ectomycorrhizal fungi, in particular, may impede the establishment of tree species reliant on these symbionts for their survival. Inoculation of seedlings with soil from intact forests may improve the establishment of seedlings in such disturbances but the method has rarely been tested in the field. Here, we assess whether soil inoculation improves lodgepole pine (Pinus contorta var. latifolia) seedling performance in conspecific stands with high levels of tree mortality caused by a mountain pine beetle (Dendroctonus ponderosae) outbreak and whether underlying soil type modifies inoculation effects. We first inoculated seedlings in a growth chamber with small amounts of soils (5% volume) originating from either intact (<10%) or “beetle‐killed” (>70% pine basal area killed) conspecific stands or added no soil inoculum and, after 4 months, transplanted them into 15 beetle‐killed stands. After two growing seasons, root‐associated fungal communities of seedlings receiving inoculum from intact stands differed in composition from those receiving inoculum from beetle‐killed stands or no inoculum. However, inoculation had no effect on seedling survival, height, or biomass. Site properties, including soil texture and the resident fungal community composition, overwhelmed the effect of soil inoculation on seedling performance. Seedling survival and shoot mass was higher in sandy than loamy soils. Restoration to improve seedling performance in beetle‐killed stands should consider stand‐level treatments as soil inoculation at the level evaluated was ineffective.
AbstractList Extensive tree mortality in forests can change the community composition of soil fungi altering seedling establishment, a process critical to forest restoration. Disturbances that result in the loss of ectomycorrhizal fungi, in particular, may impede the establishment of tree species reliant on these symbionts for their survival. Inoculation of seedlings with soil from intact forests may improve the establishment of seedlings in such disturbances but the method has rarely been tested in the field. Here, we assess whether soil inoculation improves lodgepole pine (Pinus contorta var. latifolia) seedling performance in conspecific stands with high levels of tree mortality caused by a mountain pine beetle (Dendroctonus ponderosae) outbreak and whether underlying soil type modifies inoculation effects. We first inoculated seedlings in a growth chamber with small amounts of soils (5% volume) originating from either intact (<10%) or “beetle‐killed” (>70% pine basal area killed) conspecific stands or added no soil inoculum and, after 4 months, transplanted them into 15 beetle‐killed stands. After two growing seasons, root‐associated fungal communities of seedlings receiving inoculum from intact stands differed in composition from those receiving inoculum from beetle‐killed stands or no inoculum. However, inoculation had no effect on seedling survival, height, or biomass. Site properties, including soil texture and the resident fungal community composition, overwhelmed the effect of soil inoculation on seedling performance. Seedling survival and shoot mass was higher in sandy than loamy soils. Restoration to improve seedling performance in beetle‐killed stands should consider stand‐level treatments as soil inoculation at the level evaluated was ineffective.
Extensive tree mortality in forests can change the community composition of soil fungi altering seedling establishment, a process critical to forest restoration. Disturbances that result in the loss of ectomycorrhizal fungi, in particular, may impede the establishment of tree species reliant on these symbionts for their survival. Inoculation of seedlings with soil from intact forests may improve the establishment of seedlings in such disturbances but the method has rarely been tested in the field. Here, we assess whether soil inoculation improves lodgepole pine ( Pinus contorta var. latifolia ) seedling performance in conspecific stands with high levels of tree mortality caused by a mountain pine beetle ( Dendroctonus ponderosae ) outbreak and whether underlying soil type modifies inoculation effects. We first inoculated seedlings in a growth chamber with small amounts of soils (5% volume) originating from either intact (<10%) or “beetle‐killed” (>70% pine basal area killed) conspecific stands or added no soil inoculum and, after 4 months, transplanted them into 15 beetle‐killed stands. After two growing seasons, root‐associated fungal communities of seedlings receiving inoculum from intact stands differed in composition from those receiving inoculum from beetle‐killed stands or no inoculum. However, inoculation had no effect on seedling survival, height, or biomass. Site properties, including soil texture and the resident fungal community composition, overwhelmed the effect of soil inoculation on seedling performance. Seedling survival and shoot mass was higher in sandy than loamy soils. Restoration to improve seedling performance in beetle‐killed stands should consider stand‐level treatments as soil inoculation at the level evaluated was ineffective.
Author Franklin, James
Thomasson, Charlotte
Karst, Justine
Pec, Gregory J.
Cale, Jonathan A.
Wasyliw, Joshua
Fellrath, Evan G.
Erbilgin, Nadir
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  surname: Franklin
  fullname: Franklin, James
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  surname: Karst
  fullname: Karst, Justine
  email: karst@ualberta.ca
  organization: University of Alberta
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Notes JW, EGF contributed equally to this study.
Coordinating Editor: Stephanie G Yelenik
Author contributions: JK, NE conceived the study; EGF, JW, JAC, CT, GJP performed field research; JF prepared DNA sequences, GJP performed bioinformatics; JW, GJP analyzed data; JW, JK wrote the manuscript and all authors provided edits.
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Snippet Extensive tree mortality in forests can change the community composition of soil fungi altering seedling establishment, a process critical to forest...
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wiley
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SubjectTerms Beetles
Community composition
Composition
conifer forests
Dendroctonus ponderosae
disturbance legacy
Disturbances
Ectomycorrhizas
Environmental restoration
Evergreen trees
Fungi
Growing season
Growth chambers
Inoculation
Inoculum
insect outbreaks
Loam
Mortality
Pest outbreaks
Pine
Pine trees
Pinus contorta
Plant growth
Plant species
reforestation
Restoration
Sandy soils
Seedlings
Soil
Soil improvement
Soil microorganisms
Soil properties
Soil texture
Soil types
Survival
Symbionts
Texture
Title Soil inoculation of lodgepole pine seedlings alters root‐associated fungal communities but does not improve seedling performance in beetle‐killed pine stands
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https://www.proquest.com/docview/2760398318
Volume 31
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