Temperate trees locally engineer decomposition and litter‐bound microbiomes through differential litter deposits and species‐specific soil conditioning
Temperate trees locally engineer decomposition and litter‐bound microbiomes through differential litter deposits and species‐specific soil conditioning
• Leaf decomposition varies widely across temperate forests, shaped by factors like litter quality, climate, soil properties, and decomposers, but forest heterogeneity may mask local tree influences on decomposition and litter-associated microbiomes. We used a 24-yr-old common garden forest to quantify local soil conditioning impacts on decomposition and litter microbiology.
• We introduced leaf litter bags from 10 tree species (5 arbuscular mycorrhizal; 5 ectomycorrhizal) to soil plots conditioned by all 10 species in a full-factorial design. After 6 months, we assessed litter mass loss, C/N content, and bacterial and fungal composition. We hypothesized that (1) decomposition and litter-associated microbiome composition would be primarily shaped by the mycorrhizal type of litter-producing trees, but (2) modified significantly by underlying soil, based on mycorrhizal type of the conditioning trees.
• Decomposition and, to a lesser extent, litter-associated microbiome composition, were primarily influenced by the mycorrhizal type of litter-producing trees. Interestingly, however, underlying soils had a significant secondary influence, driven mainly by tree species, not mycorrhizal type. This secondary influence was strongest under trees from the Pinaceae.
• Temperate trees can locally influence underlying soil to alter decomposition and litter-associated microbiology. Understanding the strength of this effect will help predict biogeochemical responses to forest compositional change.
common garden, decomposition, microbiome, mycorrhizal association, species identity
909-921
Yates, Caylon
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King, William L.
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Richards, Sarah C.
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Wilson, Cullen
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Viddam, Vedha
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Blakney, Andrew J.C.
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Eissenstat, David M.
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Bell, Terrence H.
29863b8c-a89c-4077-b22d-62052cfb7225
August 2024
Yates, Caylon
3fcb4ec9-4250-4ddf-b3f2-e29002d90ef0
King, William L.
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Richards, Sarah C.
ba7e0707-3e1c-43aa-a72e-0623abb12c18
Wilson, Cullen
51a379d5-5d0a-40a8-b1c4-e05a1ac89c85
Viddam, Vedha
92f133c6-2548-407b-9d38-b8c379400374
Blakney, Andrew J.C.
15e68f73-557e-4982-ae6f-a61b55f81923
Eissenstat, David M.
09aec4a5-7252-49da-9aab-6fcecb19fd0f
Bell, Terrence H.
29863b8c-a89c-4077-b22d-62052cfb7225
Yates, Caylon, King, William L., Richards, Sarah C., Wilson, Cullen, Viddam, Vedha, Blakney, Andrew J.C., Eissenstat, David M. and Bell, Terrence H.
(2024)
Temperate trees locally engineer decomposition and litter‐bound microbiomes through differential litter deposits and species‐specific soil conditioning.
New Phytologist, 243 (3), .
(doi:10.1111/nph.19900).
Abstract
• Leaf decomposition varies widely across temperate forests, shaped by factors like litter quality, climate, soil properties, and decomposers, but forest heterogeneity may mask local tree influences on decomposition and litter-associated microbiomes. We used a 24-yr-old common garden forest to quantify local soil conditioning impacts on decomposition and litter microbiology.
• We introduced leaf litter bags from 10 tree species (5 arbuscular mycorrhizal; 5 ectomycorrhizal) to soil plots conditioned by all 10 species in a full-factorial design. After 6 months, we assessed litter mass loss, C/N content, and bacterial and fungal composition. We hypothesized that (1) decomposition and litter-associated microbiome composition would be primarily shaped by the mycorrhizal type of litter-producing trees, but (2) modified significantly by underlying soil, based on mycorrhizal type of the conditioning trees.
• Decomposition and, to a lesser extent, litter-associated microbiome composition, were primarily influenced by the mycorrhizal type of litter-producing trees. Interestingly, however, underlying soils had a significant secondary influence, driven mainly by tree species, not mycorrhizal type. This secondary influence was strongest under trees from the Pinaceae.
• Temperate trees can locally influence underlying soil to alter decomposition and litter-associated microbiology. Understanding the strength of this effect will help predict biogeochemical responses to forest compositional change.
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New Phytologist - 2024 - Yates - Temperate trees locally engineer decomposition and litter‐bound microbiomes through
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Accepted/In Press date: 26 May 2024
Published date: August 2024
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Keywords:
common garden, decomposition, microbiome, mycorrhizal association, species identity
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Local EPrints ID: 491529
URI: http://eprints.soton.ac.uk/id/eprint/491529
ISSN: 0028-646X
PURE UUID: bede8e67-4527-414c-a9db-c0a0c2c5ed9c
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Date deposited: 25 Jun 2024 17:03
Last modified: 12 Jul 2024 02:17
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Contributors
Author:
Caylon Yates
Author:
William L. King
Author:
Sarah C. Richards
Author:
Cullen Wilson
Author:
Vedha Viddam
Author:
Andrew J.C. Blakney
Author:
David M. Eissenstat
Author:
Terrence H. Bell
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