Soils and topography drive large and predictable shifts in canopy dynamics across tropical forest landscapes

Beibei Zhang; Toby D Jackson; David A Coomes; David F.R.P. Burslem; Reuben Nilus; Paulo Bittencourt; David C.  Bartholomew; Lucy Rowland; Fabian J Fischer; Tommaso Jucker

doi:10.1111/nph.70300

Soils and topography drive large and predictable shifts in canopy dynamics across tropical forest landscapes

Beibei Zhang^*, Toby D Jackson, David A Coomes, David F.R.P. Burslem, Reuben Nilus, Paulo Bittencourt, David C. Bartholomew, Lucy Rowland, Fabian J Fischer, Tommaso Jucker

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

Abstract

• Tropical forests can vary enormously in their 3D structure and dynamics across surprisingly small spatial scales. However, the drivers that underpin this local-scale variation in forest structure and dynamics remain poorly understood.

• We acquired repeat airborne laser scanning data across an old-growth tropical forest landscape in Malaysian Borneo characterised by a steep gradient in soil fertility and topography that gives rise to large variability in canopy 3D structure. Using this unique dataset, we explored how local-scale variation in topography and forest structure shape rates of gap formation, closure and canopy growth across the landscape.

• We found that both canopy gains and losses were 2.5–4.7 times greater in low-lying alluvial forests on fertile soils compared to nearby nutrient-depleted kerangas forests on hilltops. Moreover, we found that variation in canopy 3D structure and dynamics were tightly coupled across the landscape, with taller and more structurally heterogeneous canopies also experiencing faster rates of gap dynamics.

• Our study highlights the key role that soils and topography play in shaping the structural complexity and dynamics of tropical forest landscapes.

Original language	English
Journal	New Phytologist
Early online date	13 Jun 2025
DOIs	https://doi.org/10.1111/nph.70300
Publication status	E-pub ahead of print - 13 Jun 2025

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© 2025 The Author(s). New Phytologist © 2025 New Phytologist Foundation.

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@article{28ebcad7e0d84683969209a09a87fe9d,

title = "Soils and topography drive large and predictable shifts in canopy dynamics across tropical forest landscapes",

abstract = "• Tropical forests can vary enormously in their 3D structure and dynamics across surprisingly small spatial scales. However, the drivers that underpin this local-scale variation in forest structure and dynamics remain poorly understood.• We acquired repeat airborne laser scanning data across an old-growth tropical forest landscape in Malaysian Borneo characterised by a steep gradient in soil fertility and topography that gives rise to large variability in canopy 3D structure. Using this unique dataset, we explored how local-scale variation in topography and forest structure shape rates of gap formation, closure and canopy growth across the landscape.• We found that both canopy gains and losses were 2.5–4.7 times greater in low-lying alluvial forests on fertile soils compared to nearby nutrient-depleted kerangas forests on hilltops. Moreover, we found that variation in canopy 3D structure and dynamics were tightly coupled across the landscape, with taller and more structurally heterogeneous canopies also experiencing faster rates of gap dynamics.• Our study highlights the key role that soils and topography play in shaping the structural complexity and dynamics of tropical forest landscapes.",

author = "Beibei Zhang and Jackson, {Toby D} and Coomes, {David A} and Burslem, {David F.R.P.} and Reuben Nilus and Paulo Bittencourt and Bartholomew, {David C.} and Lucy Rowland and Fischer, {Fabian J} and Tommaso Jucker",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). New Phytologist {\textcopyright} 2025 New Phytologist Foundation.",

year = "2025",

month = jun,

day = "13",

doi = "10.1111/nph.70300",

language = "English",

journal = "New Phytologist",

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TY - JOUR

T1 - Soils and topography drive large and predictable shifts in canopy dynamics across tropical forest landscapes

AU - Zhang, Beibei

AU - Jackson, Toby D

AU - Coomes, David A

AU - Burslem, David F.R.P.

AU - Nilus, Reuben

AU - Bittencourt, Paulo

AU - Bartholomew, David C.

AU - Rowland, Lucy

AU - Fischer, Fabian J

AU - Jucker, Tommaso

PY - 2025/6/13

Y1 - 2025/6/13

N2 - • Tropical forests can vary enormously in their 3D structure and dynamics across surprisingly small spatial scales. However, the drivers that underpin this local-scale variation in forest structure and dynamics remain poorly understood.• We acquired repeat airborne laser scanning data across an old-growth tropical forest landscape in Malaysian Borneo characterised by a steep gradient in soil fertility and topography that gives rise to large variability in canopy 3D structure. Using this unique dataset, we explored how local-scale variation in topography and forest structure shape rates of gap formation, closure and canopy growth across the landscape.• We found that both canopy gains and losses were 2.5–4.7 times greater in low-lying alluvial forests on fertile soils compared to nearby nutrient-depleted kerangas forests on hilltops. Moreover, we found that variation in canopy 3D structure and dynamics were tightly coupled across the landscape, with taller and more structurally heterogeneous canopies also experiencing faster rates of gap dynamics.• Our study highlights the key role that soils and topography play in shaping the structural complexity and dynamics of tropical forest landscapes.

AB - • Tropical forests can vary enormously in their 3D structure and dynamics across surprisingly small spatial scales. However, the drivers that underpin this local-scale variation in forest structure and dynamics remain poorly understood.• We acquired repeat airborne laser scanning data across an old-growth tropical forest landscape in Malaysian Borneo characterised by a steep gradient in soil fertility and topography that gives rise to large variability in canopy 3D structure. Using this unique dataset, we explored how local-scale variation in topography and forest structure shape rates of gap formation, closure and canopy growth across the landscape.• We found that both canopy gains and losses were 2.5–4.7 times greater in low-lying alluvial forests on fertile soils compared to nearby nutrient-depleted kerangas forests on hilltops. Moreover, we found that variation in canopy 3D structure and dynamics were tightly coupled across the landscape, with taller and more structurally heterogeneous canopies also experiencing faster rates of gap dynamics.• Our study highlights the key role that soils and topography play in shaping the structural complexity and dynamics of tropical forest landscapes.

U2 - 10.1111/nph.70300

DO - 10.1111/nph.70300

M3 - Article (Academic Journal)

C2 - 40511555

SN - 0028-646X

JO - New Phytologist

JF - New Phytologist

ER -

Soils and topography drive large and predictable shifts in canopy dynamics across tropical forest landscapes

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