Observed multi-decadal trends in subsurface temperature adjacent to the East Australian Current

Sea surface temperature observations have shown that western boundary currents, such as the East Australian Current (EAC), are warming faster than the global average. However, we know little about coastal temperature trends inshore of these rapidly warming regions, particularly be-low the surface. In addition to this, warming rates are typi-cally estimated linearly, making it difficult to know how these rates have changed over time. Here we use long-term in situ temperature observations through the water column at five coastal sites between approximately 27.3-42.6 degrees S to estimate warming trends between the ocean surface and the bottom. Using an advanced trend detection method, we find acceler-ating warming trends at multiple depths in the EAC exten-sion region at 34.1 and 42.6 degrees S. We see accelerating trends at the surface and bottom at 34.1 degrees S but similar trends in the top 20 m at 42.6 degrees S. We compare several methods, es-timate uncertainty, and place our results in the context of previously reported trends, highlighting that magnitudes are depth-dependent, vary across latitude, and are sensitive to the data time period chosen. The spatial and temporal vari-ability in the long-term temperature trends highlight the im-portant role of regional dynamics against a background of broad-scale ocean warming. Moreover, considering that re -cent studies of ocean warming typically focus on surface data only, our results show the necessity of subsurface data for the improved understanding of regional climate change impacts.