The extremes of disturbance reduce functional redundancy: Functional trait assessment of the shallow Antarctic benthos
Allbwn ymchwil: Cyfraniad at gyfnodolyn › Erthygl › adolygiad gan gymheiriaid
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Yn: Frontiers in Marine Science, Cyfrol 8, 797112, 17.02.2022.
Allbwn ymchwil: Cyfraniad at gyfnodolyn › Erthygl › adolygiad gan gymheiriaid
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T1 - The extremes of disturbance reduce functional redundancy: Functional trait assessment of the shallow Antarctic benthos
AU - Robinson, Ben
AU - Barnes, David
AU - Grange, Laura
AU - Morley, Simon, A.
N1 - Embargoes until publication
PY - 2022/2/17
Y1 - 2022/2/17
N2 - Climate-driven changes in disturbance are a major threat to ecosystem Functional diversity. The selective mechanisms underlyingecosystem response to disturbance are far from universal and remain the subject of scientific debate. Ice scouring of the shallow Antarctic benthos is one of the largest disturbance gradients in the natural environment and thus provides an opportunity to investigate how disturbance gradients influence functional structure of a biological assemblage. The Western Antarctic Peninsula, in particular, is a hotspot of climate-driven environmental change. Addressing how this system might respond to species loss is critical. Previous surveys across the shallowest 100 m of the seabed, detected unimodal changes in diversity and a shift in assemblage composition in response to disturbance gradients. This study investigated how functional traits and associated functional diversity change across the depth gradient. Our results revealed that selective mechanisms, such as disturbance filtering and inter-species competition, reduce functional redundancy at the extremes of the disturbance gradient. Our study highlights areas of potential vulnerability to future environmental change due to low functional redundancy. Threatening the important negative (mitigating) feedbacks on climate change, through blue carbon, currently provided by Antarctic continental shelf benthic assemblages.
AB - Climate-driven changes in disturbance are a major threat to ecosystem Functional diversity. The selective mechanisms underlyingecosystem response to disturbance are far from universal and remain the subject of scientific debate. Ice scouring of the shallow Antarctic benthos is one of the largest disturbance gradients in the natural environment and thus provides an opportunity to investigate how disturbance gradients influence functional structure of a biological assemblage. The Western Antarctic Peninsula, in particular, is a hotspot of climate-driven environmental change. Addressing how this system might respond to species loss is critical. Previous surveys across the shallowest 100 m of the seabed, detected unimodal changes in diversity and a shift in assemblage composition in response to disturbance gradients. This study investigated how functional traits and associated functional diversity change across the depth gradient. Our results revealed that selective mechanisms, such as disturbance filtering and inter-species competition, reduce functional redundancy at the extremes of the disturbance gradient. Our study highlights areas of potential vulnerability to future environmental change due to low functional redundancy. Threatening the important negative (mitigating) feedbacks on climate change, through blue carbon, currently provided by Antarctic continental shelf benthic assemblages.
KW - Antarctica – coastal ecology
KW - Marine Science
KW - blue carbon and ecosystem services
KW - ecosystem
KW - functional diversity (FD)
KW - iceberg scour
KW - insurance effect
KW - selective mechanism
KW - standard effect size
U2 - 10.3389/fmars.2021.797112
DO - 10.3389/fmars.2021.797112
M3 - Article
VL - 8
JO - Frontiers in Marine Science
JF - Frontiers in Marine Science
SN - 2296-7745
M1 - 797112
ER -