Extirpation-resistant species do not always compensate for the decline in ecosystem processes associated with biodiversity loss
Extirpation-resistant species do not always compensate for the decline in ecosystem processes associated with biodiversity loss
Accelerating rates of biodiversity loss may result in a rapid decline in important ecosystem processes such as carbon capture. Whether extirpation-resistant species compensate for the decline in ecosystem processes associated with the loss of extirpation-prone species is poorly understood.
We apply a novel approach to answer this question using an assemblage of salt marsh plants. First, manipulations were performed to simulate a realistic sequence of species loss, based on observed sensitivity to disturbance. Then, changes in biomass and primary production of extirpation-resistant species were monitored over three consecutive growing seasons.
Extirpation-resistant species did not compensate for the loss of either biomass or primary production associated with the removal of extirpation-prone species.
Factors that determine the potential for compensation within ecosystems are discussed. These include resource-regulated compensation rates, the level of functional redundancy within an assemblage and the extirpation resistance of species which possess good compensation traits.
Synthesis. These results suggest that we cannot assume extirpation-resistant species will compensate for the decline in ecosystem processes associated with biodiversity loss across all ecosystems. Understanding those factors that influence the ability of ecosystems to compensate for declines in ecosystem processes associated with biodiversity loss constitutes a significant challenge.
community biomass, community dynamics, compensation, gross community productivity, plant population, salt marsh plants
1475-1481
Davies, Thomas W.
6f296068-0c5c-422a-8cee-ed11e71184fd
Jenkins, Stuart R.
63f5521f-fe3a-4dae-b582-4a6a8d3aa936
Kingham, Rachel
4be508f5-7080-46da-8f72-b8a24043cfd3
Hawkins, Stephen J.
758fe1c1-30cd-4ed1-bb65-2471dc7c11fa
Hiddink, Jan G.
10e4b1e4-7a7a-4027-8489-4de1916e9504
November 2012
Davies, Thomas W.
6f296068-0c5c-422a-8cee-ed11e71184fd
Jenkins, Stuart R.
63f5521f-fe3a-4dae-b582-4a6a8d3aa936
Kingham, Rachel
4be508f5-7080-46da-8f72-b8a24043cfd3
Hawkins, Stephen J.
758fe1c1-30cd-4ed1-bb65-2471dc7c11fa
Hiddink, Jan G.
10e4b1e4-7a7a-4027-8489-4de1916e9504
Davies, Thomas W., Jenkins, Stuart R., Kingham, Rachel, Hawkins, Stephen J. and Hiddink, Jan G.
(2012)
Extirpation-resistant species do not always compensate for the decline in ecosystem processes associated with biodiversity loss.
Journal of Ecology, 100 (6), .
(doi:10.1111/j.1365-2745.2012.02012.x).
Abstract
Accelerating rates of biodiversity loss may result in a rapid decline in important ecosystem processes such as carbon capture. Whether extirpation-resistant species compensate for the decline in ecosystem processes associated with the loss of extirpation-prone species is poorly understood.
We apply a novel approach to answer this question using an assemblage of salt marsh plants. First, manipulations were performed to simulate a realistic sequence of species loss, based on observed sensitivity to disturbance. Then, changes in biomass and primary production of extirpation-resistant species were monitored over three consecutive growing seasons.
Extirpation-resistant species did not compensate for the loss of either biomass or primary production associated with the removal of extirpation-prone species.
Factors that determine the potential for compensation within ecosystems are discussed. These include resource-regulated compensation rates, the level of functional redundancy within an assemblage and the extirpation resistance of species which possess good compensation traits.
Synthesis. These results suggest that we cannot assume extirpation-resistant species will compensate for the decline in ecosystem processes associated with biodiversity loss across all ecosystems. Understanding those factors that influence the ability of ecosystems to compensate for declines in ecosystem processes associated with biodiversity loss constitutes a significant challenge.
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Published date: November 2012
Keywords:
community biomass, community dynamics, compensation, gross community productivity, plant population, salt marsh plants
Organisations:
Ocean Biochemistry & Ecosystems, Centre for Biological Sciences
Identifiers
Local EPrints ID: 344806
URI: http://eprints.soton.ac.uk/id/eprint/344806
PURE UUID: 89f8d0fe-e337-4ab9-85a0-dfd44f8656a6
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Date deposited: 01 Nov 2012 11:01
Last modified: 14 Mar 2024 12:18
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Contributors
Author:
Thomas W. Davies
Author:
Stuart R. Jenkins
Author:
Rachel Kingham
Author:
Jan G. Hiddink
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