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ddi12092-sup-0001-AppendixS1.docxWord document134KAppendix S1 Global and regional analysis of GCM skill in simulating seasonal SST over the reference period 1980–1999.
ddi12092-sup-0002-FigureS1.docxWord document1085KFigure S1 Forecast average March and August SST across the study region according to five GCM approaches (5-mod, 7-mod, 10-mod, CCSM-3 and PCM).
ddi12092-sup-0003-FigureS2.docxWord document95KFigure S2 Influence of August SST on the density of H. rubra and H. laevigata.
ddi12092-sup-0004-FigureS3.docxWord document113KFigure S3 Relationship between seabed temperature, sea surface temperature (SST) and depth along the South Australian and Victorian coastlines at depths less than 30m.
ddi12092-sup-0005-FigureS4.docxWord document234KFigure S4 Influence of climate model choice on forecast March SST in South Australia between 2000 and 2100.
ddi12092-sup-0006-FigureS5.docxWord document182KFigure S5 Current day spatial abundance patterns for H. rubra and H. laevigata in Southern Australia.
ddi12092-sup-0007-FigureS6.docxWord document208KFigure S6 Change in area of occupancy and spatial abundance for H. rubra in 2100 in South Australia for different-sized model ensembles suites.
ddi12092-sup-0008-FigureS7.docxWord document243KFigure S7 Change in area of occupancy and spatial abundance for H. laevigata in 2100 in South Australia for different-sized model ensembles suites.

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