2020
DOI: 10.3354/meps13510
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Multi-decadal decline in cover of giant kelp Macrocystis pyrifera at the southern limit of its Australian range

Abstract: Knowledge of long-term and multi-scale trends in ecological systems is a vital component in understanding their dynamics. We used Landsat satellite imagery to develop the first long-term (1986-2015) data set describing the cover of dense surface canopies of giant kelp Macrocystis pyrifera around the entire coastline of Tasmania, Australia, and assessed the extent to which potential environmental drivers explain the dynamics of surface canopies at multiple spatial and temporal scales. Broad-scale temporal patte… Show more

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Cited by 49 publications
(56 citation statements)
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“…However, kelp persistence seems to follow a neutral relationship with SST at higher latitudes, i.e., bull kelp Nereocystis luetkeana in Oregon (Hamilton et al, 2020). Furthermore, our SST analysis confirms that the currents near our study areas show no trends of tropicalisation, a major cause of thermal stress and shifts on kelp distributions in other regions, i.e., Western Australia (Wernberg et al, 2013), or Tasmania, with a sharp decline of kelp canopies since the year 2000 (Butler et al, 2020). The low SST ranges in South Georgia, located south of the Antarctic Polar Front (Moore et al, 1999), could mean that this ecosystem may cope well with polar temperatures, which might be a signal for potential colonisation of the Antarctic, but the small sizes of their canopies might also mean they are close to their lower temperature limit.…”
Section: Discussionsupporting
confidence: 78%
“…However, kelp persistence seems to follow a neutral relationship with SST at higher latitudes, i.e., bull kelp Nereocystis luetkeana in Oregon (Hamilton et al, 2020). Furthermore, our SST analysis confirms that the currents near our study areas show no trends of tropicalisation, a major cause of thermal stress and shifts on kelp distributions in other regions, i.e., Western Australia (Wernberg et al, 2013), or Tasmania, with a sharp decline of kelp canopies since the year 2000 (Butler et al, 2020). The low SST ranges in South Georgia, located south of the Antarctic Polar Front (Moore et al, 1999), could mean that this ecosystem may cope well with polar temperatures, which might be a signal for potential colonisation of the Antarctic, but the small sizes of their canopies might also mean they are close to their lower temperature limit.…”
Section: Discussionsupporting
confidence: 78%
“…Such annually recurrent disturbances to giant kelp are typical throughout its range in regions exposed to large seasonal swells (Graham et al, 2007 ; Schiel & Foster, 2015 ). The quarterly disturbance treatment was performed in fixed plots once or twice per season (4–8 times per year) to mimic near continual loss of giant kelp, which can result from prolonged ocean warming and other press disturbances (Butler et al, 2020 ; Cavanaugh et al, 2019 ). Climate change may bring about warmer, stormier seas that would increase both intermittent and sustained kelp canopy losses (Ummenhofer & Meehl, 2017 ).…”
Section: Methodsmentioning
confidence: 99%
“…2016, Butler et al. 2020). Seaweeds may respond differently to MHW stressors based on each species' genetic diversity, ecophysiological versatility, and resilience (Wernberg et al.…”
mentioning
confidence: 99%