Too hot to handle: Unprecedented seagrass death driven by marine heatwave in a World Heritage Area
Authors
Simone Strydom, Edith Cowan UniversityFollow
Kathy Murray
Shaun Wilson
Bart Huntley
Michael Rule
Michael Heithaus
Cindy Bessey
Gary A. Kendrick
Derek Burkholder
Matthew W. Fraser
Katherine Zdunic
Document Type
Journal Article
Publication Title
Global Change Biology
Publisher
Wiley
School
Centre for Marine Ecosystems Research / School of Science
RAS ID
34117
Funders
Department of Biodiversity, Conservation
Abstract
The increased occurrence of extreme climate events, such as marine heatwaves (MHWs), has resulted in substantial ecological impacts worldwide. To date, metrics of thermal stress within marine systems have focussed on coral communities, and less is known about measuring stress relevant to other primary producers, such as seagrasses. An extreme MHW occurred across the Western Australian coastline in the austral summer of 2010–2011, exposing marine communities to summer seawater temperatures 2–5°C warmer than average. Using a combination of satellite imagery and in situ assessments, we provide detailed maps of seagrass coverage across the entire Shark Bay World Heritage Area (ca. 13,000 km2) before (2002 and 2010) and after the MHW (2014 and 2016). Our temporal analysis of these maps documents the single largest loss in dense seagrass extent globally (1,310 km2) following an acute disturbance. Total change in seagrass extent was spatially heterogeneous, with the most extensive declines occurring in the Western Gulf, Wooramel Bank and Faure Sill. Spatial variation in seagrass loss was best explained by a model that included an interaction between two heat stress metrics, the most substantial loss occurring when degree heating weeks (DHWm) was ≥ 10 and the number of days exposed to extreme sea surface temperature during the MHW (DaysOver) was ≥ 94. Ground truthing at 622 points indicated that change in seagrass cover was predominantly due to loss of Amphibolis antarctica rather than Posidonia australis, the other prominent seagrass at Shark Bay. As seawater temperatures continue to rise and the incidence of MHWs increase globally, this work will provide a basis for identifying areas of meadow degradation, or stability and recovery, and potential areas of resilience. © 2020 John Wiley & Sons Ltd
DOI
10.1111/gcb.15065
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Comments
Strydom, S., Murray, K., Wilson, S., Huntley, B., Rule, M., Heithaus, M., ... & Zdunic, K. (2020). Too hot to handle: unprecedented seagrass death driven by marine heatwave in a World Heritage Area. Global Change Biology, 26(6), 3525-3538. https://doi.org/10.1111/gcb.15065