Can riparian forest buffers increase yields from oil palm plantations?
Can riparian forest buffers increase yields from oil palm plantations?
Forests on tropical floodplains across Southeast Asia are being converted to oil palm plantations. Preserving natural riparian forest corridors along rivers that pass through oil palm plantations has clear benefits for ecological conservation, but these corridors (also called "buffers") use land that is potentially economically valuable for agriculture. Here, we examine how riparian forest buffers reduce floodplain land loss by slowing rates of riverbank erosion and lateral channel migration, thus providing the fundamentally geomorphic ecosystem service of "erosion regulation". Using satellite imagery, assessments of oil palm plantation productivity, and a simplified numerical model of river channel migration, we estimate the economic value of the ecosystem service that riparian buffers provide by protecting adjacent plantation land from bank erosion. We find that cumulative economic losses from bank erosion are higher in the absence of a forest buffer than when a buffer is left intact. Our exploratory analysis suggests that retaining riparian forest buffers along tropical rivers can enhance the viability of floodplain plantations, particularly over time scales (~decades) commensurate with the lifetime of a typical oil palm plantation. Ecosystem services that stem directly from geomorphic processes could play a vital role in efforts to guide the long‐term environmental sustainability of tropical river systems. Accounting for landscape dynamics in projections of economic returns could help bring palm oil industry goals into closer alignment with environmental conservation efforts.
Horton, Alexander
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Lazarus, Eli
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Hales, Tristram
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Constantine, José Antonio
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Bruford, Michael
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Goossens, Benoit
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Horton, Alexander
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Lazarus, Eli
642a3cdb-0d25-48b1-8ab8-8d1d72daca6e
Hales, Tristram
1bc9a154-0b56-4117-b79f-7af6ebaa47a3
Constantine, José Antonio
93abc455-facf-4fbd-a624-d611d530882e
Bruford, Michael
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Goossens, Benoit
1059e14b-b994-4b4a-94c6-a5d9b50684e2
Horton, Alexander, Lazarus, Eli, Hales, Tristram, Constantine, José Antonio, Bruford, Michael and Goossens, Benoit
(2018)
Can riparian forest buffers increase yields from oil palm plantations?
Earth's Future.
(doi:10.1029/2018EF000874).
Abstract
Forests on tropical floodplains across Southeast Asia are being converted to oil palm plantations. Preserving natural riparian forest corridors along rivers that pass through oil palm plantations has clear benefits for ecological conservation, but these corridors (also called "buffers") use land that is potentially economically valuable for agriculture. Here, we examine how riparian forest buffers reduce floodplain land loss by slowing rates of riverbank erosion and lateral channel migration, thus providing the fundamentally geomorphic ecosystem service of "erosion regulation". Using satellite imagery, assessments of oil palm plantation productivity, and a simplified numerical model of river channel migration, we estimate the economic value of the ecosystem service that riparian buffers provide by protecting adjacent plantation land from bank erosion. We find that cumulative economic losses from bank erosion are higher in the absence of a forest buffer than when a buffer is left intact. Our exploratory analysis suggests that retaining riparian forest buffers along tropical rivers can enhance the viability of floodplain plantations, particularly over time scales (~decades) commensurate with the lifetime of a typical oil palm plantation. Ecosystem services that stem directly from geomorphic processes could play a vital role in efforts to guide the long‐term environmental sustainability of tropical river systems. Accounting for landscape dynamics in projections of economic returns could help bring palm oil industry goals into closer alignment with environmental conservation efforts.
Text
Horton_et_al-2018-Earth%27s_Future
- Accepted Manuscript
More information
Accepted/In Press date: 5 June 2018
e-pub ahead of print date: 18 July 2018
Identifiers
Local EPrints ID: 422545
URI: http://eprints.soton.ac.uk/id/eprint/422545
ISSN: 2328-4277
PURE UUID: b089a373-9e98-45fe-b4b3-61f9a8655485
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Date deposited: 25 Jul 2018 16:30
Last modified: 16 Mar 2024 04:28
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Author:
Alexander Horton
Author:
Tristram Hales
Author:
José Antonio Constantine
Author:
Michael Bruford
Author:
Benoit Goossens
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