Leaf decomposition and flammability are largely decoupled across species in a tropical swamp forest despite sharing some predictive leaf functional traits

Leaf decomposition and flammability are largely decoupled across species in a tropical swamp forest despite sharing some predictive leaf functional traits

Summary Decomposition and fire are major carbon pathways in many ecosystems, yet potential linkages between these processes are poorly understood. We test whether variability in decomposability and flammability across species are related to each other and to key plant functional traits in tropical s...

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Veröffentlicht in:The New phytologist 2023-04, Vol.238 (2), p.598-611
Hauptverfasser: Rahman, Nur E. B., Smith, Stuart W., Lam, Weng Ngai, Chong, Kwek Yan, Chua, Matthias S. E., Teo, Pei Yun, Lee, Daniel W. J., Phua, Shi Yu, Aw, Cheryl Y., Lee, Janice S. H., Wardle, David A.
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Sprache:eng
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anaerobic soil environments
Carbon
Carbon - metabolism
Cations
Components
Decomposition
Ecosystem
Environmental degradation
faunal decomposition
fire
Flammability
Forests
Leaf area
Leaves
litterbag
morphological traits
plant economic spectrum
Plant Leaves - metabolism
Plant species
Plants
Reforestation
Southeast Asia
Species
Sustainability
Swamps
Trees - metabolism
Tropical forests
Wetlands
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container_end_page 611
container_issue 2
container_start_page 598
container_title The New phytologist
container_volume 238
creator Rahman, Nur E. B.
Smith, Stuart W.
Lam, Weng Ngai
Chong, Kwek Yan
Chua, Matthias S. E.
Teo, Pei Yun
Lee, Daniel W. J.
Phua, Shi Yu
Aw, Cheryl Y.
Lee, Janice S. H.
Wardle, David A.
description Summary Decomposition and fire are major carbon pathways in many ecosystems, yet potential linkages between these processes are poorly understood. We test whether variability in decomposability and flammability across species are related to each other and to key plant functional traits in tropical swamp forests, where habitat degradation is elevating decomposition and fire regimes. Using senesced and fresh leaves of 22 swamp tree species in Singapore, we conducted an in situ decomposition experiment and a laboratory flammability experiment. We analysed 16 leaf physical and biochemical traits as predictors of decomposability and components of flammability: combustibility, ignitability and sustainability. Decomposability and flammability were largely decoupled across species, despite some shared predictive traits such as specific leaf area (SLA). Physical traits predicted that thicker leaves with a smaller SLA and volume decomposed faster, while various cation concentrations predicted flammability components, particularly ignitability. We show that flammability and decomposability of swamp forest leaves are decoupled because flammability is mostly driven by biochemical traits, while decomposition is driven by physical traits. Our approach identifies species that are slow to decompose and burn (e.g. Calophyllum tetrapterum and Xanthophyllum flavescens), which could be planted to mitigate carbon losses in tropical swamp reforestation.
doi_str_mv 10.1111/nph.18742
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B. ; Smith, Stuart W. ; Lam, Weng Ngai ; Chong, Kwek Yan ; Chua, Matthias S. E. ; Teo, Pei Yun ; Lee, Daniel W. J. ; Phua, Shi Yu ; Aw, Cheryl Y. ; Lee, Janice S. H. ; Wardle, David A.</creator><creatorcontrib>Rahman, Nur E. B. ; Smith, Stuart W. ; Lam, Weng Ngai ; Chong, Kwek Yan ; Chua, Matthias S. E. ; Teo, Pei Yun ; Lee, Daniel W. J. ; Phua, Shi Yu ; Aw, Cheryl Y. ; Lee, Janice S. H. ; Wardle, David A.</creatorcontrib><description>Summary Decomposition and fire are major carbon pathways in many ecosystems, yet potential linkages between these processes are poorly understood. We test whether variability in decomposability and flammability across species are related to each other and to key plant functional traits in tropical swamp forests, where habitat degradation is elevating decomposition and fire regimes. Using senesced and fresh leaves of 22 swamp tree species in Singapore, we conducted an in situ decomposition experiment and a laboratory flammability experiment. We analysed 16 leaf physical and biochemical traits as predictors of decomposability and components of flammability: combustibility, ignitability and sustainability. Decomposability and flammability were largely decoupled across species, despite some shared predictive traits such as specific leaf area (SLA). Physical traits predicted that thicker leaves with a smaller SLA and volume decomposed faster, while various cation concentrations predicted flammability components, particularly ignitability. We show that flammability and decomposability of swamp forest leaves are decoupled because flammability is mostly driven by biochemical traits, while decomposition is driven by physical traits. 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subjects anaerobic soil environments
Carbon
Carbon - metabolism
Cations
Components
Decomposition
Ecosystem
Environmental degradation
faunal decomposition
fire
Flammability
Forests
Leaf area
Leaves
litterbag
morphological traits
plant economic spectrum
Plant Leaves - metabolism
Plant species
Plants
Reforestation
Southeast Asia
Species
Sustainability
Swamps
Trees - metabolism
Tropical forests
Wetlands
title Leaf decomposition and flammability are largely decoupled across species in a tropical swamp forest despite sharing some predictive leaf functional traits
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