Extreme climatic event drives range contraction of a habitat-forming species
Extreme climatic event drives range contraction of a habitat-forming species
Species distributions have shifted in response to global warming in all major ecosystems on the Earth. Despite cogent evidence for these changes, the underlying mechanisms are poorly understood and currently imply gradual shifts. Yet there is an increasing appreciation of the role of discrete events in driving ecological change. We show how a marine heat wave (HW) eliminated a prominent habitat-forming seaweed, Scytothalia dorycarpa, at its warm distribution limit, causing a range contraction of approximately 100 km (approx. 5% of its global distribution). Seawater temperatures during the HW exceeded the seaweed's physiological threshold and caused extirpation of marginal populations, which are unlikely to recover owing to life-history traits and oceanographic processes. Scytothalia dorycarpa is an important canopy-forming seaweed in temperate Australia, and loss of the species at its range edge has caused structural changes at the community level and is likely to have ecosystem-level implications. We show that extreme warming events, which are increasing in magnitude and frequency, can force step-wise changes in species distributions in marine ecosystems. As such, return times of these events have major implications for projections of species distributions and ecosystem structure, which have typically been based on gradual warming trends.
species distributions, climate change, range shifts, marine heat wave, macroalgae, australia
20122829
Smale, Dan A.
19528a3a-f66c-474d-ae13-c6405b8014ab
Wernberg, Thomas
bd368108-a7e1-4d4b-b4c2-6102aae7a7ff
7 March 2013
Smale, Dan A.
19528a3a-f66c-474d-ae13-c6405b8014ab
Wernberg, Thomas
bd368108-a7e1-4d4b-b4c2-6102aae7a7ff
Smale, Dan A. and Wernberg, Thomas
(2013)
Extreme climatic event drives range contraction of a habitat-forming species.
Proceedings of the Royal Society B: Biological Sciences, 280 (1754), .
(doi:10.1098/rspb.2012.2829).
Abstract
Species distributions have shifted in response to global warming in all major ecosystems on the Earth. Despite cogent evidence for these changes, the underlying mechanisms are poorly understood and currently imply gradual shifts. Yet there is an increasing appreciation of the role of discrete events in driving ecological change. We show how a marine heat wave (HW) eliminated a prominent habitat-forming seaweed, Scytothalia dorycarpa, at its warm distribution limit, causing a range contraction of approximately 100 km (approx. 5% of its global distribution). Seawater temperatures during the HW exceeded the seaweed's physiological threshold and caused extirpation of marginal populations, which are unlikely to recover owing to life-history traits and oceanographic processes. Scytothalia dorycarpa is an important canopy-forming seaweed in temperate Australia, and loss of the species at its range edge has caused structural changes at the community level and is likely to have ecosystem-level implications. We show that extreme warming events, which are increasing in magnitude and frequency, can force step-wise changes in species distributions in marine ecosystems. As such, return times of these events have major implications for projections of species distributions and ecosystem structure, which have typically been based on gradual warming trends.
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e-pub ahead of print date: 16 January 2013
Published date: 7 March 2013
Keywords:
species distributions, climate change, range shifts, marine heat wave, macroalgae, australia
Organisations:
Ocean Biochemistry & Ecosystems
Identifiers
Local EPrints ID: 347804
URI: http://eprints.soton.ac.uk/id/eprint/347804
ISSN: 1471-2954
PURE UUID: d53a83a1-9b0c-4130-8ee4-d6c4bf0adb47
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Date deposited: 30 Jan 2013 13:22
Last modified: 14 Mar 2024 12:52
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Author:
Dan A. Smale
Author:
Thomas Wernberg
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