Extreme Marine Warming Across Tropical Australia During Austral Summer 2015–2016

During austral summer 2015–2016, prolonged extreme ocean warming events, known as marine heatwaves (MHWs), occurred in the waters around tropical Australia. MHWs arose first in the southeast tropical Indian Ocean in November 2015, emerging progressively east until March 2016, when all waters from th...

Full description

Saved in:
Bibliographic Details
Published in:Journal of geophysical research. Oceans 2018-02, Vol.123 (2), p.1301-1326
Main Authors: Benthuysen, Jessica A., Oliver, Eric C. J., Feng, Ming, Marshall, Andrew G.
Format: Article
Language:English
Subjects:
Air-sea flux
Anomalies
Atmospheric conditions
Barrier layers
Cloud cover
Clouds
Coral Sea
Corals
El Nino
El Nino events
El Nino phenomena
El Niño
Geophysics
Gliders
Great Barrier Reef
Heat flux
Heat transfer
Heat waves
Heating
Heatwaves
In situ temperature
Indian Ocean
Instruments
Latent heat
Latent heat flux
marine heatwave
Marine invertebrates
Mixed layer
Mixed layer depth
Monsoons
Mooring
Ocean circulation
Ocean currents
Ocean models
Ocean temperature
Ocean warming
Oceans
Radiation
Remote sensing
Satellite-borne instruments
Satellites
Sea surface
Sea surface temperature
Summer
Surface mixed layer
Surface temperature
Temperature data
Temperature effects
Tropical climate
Upper ocean
Water circulation
Wind
Winds
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:During austral summer 2015–2016, prolonged extreme ocean warming events, known as marine heatwaves (MHWs), occurred in the waters around tropical Australia. MHWs arose first in the southeast tropical Indian Ocean in November 2015, emerging progressively east until March 2016, when all waters from the North West Shelf to the Coral Sea were affected. The MHW maximum intensity tended to occur in March, coinciding with the timing of the maximum sea surface temperature (SST). Large areas were in a MHW state for 3–4 months continuously with maximum intensities over 2°C. In 2016, the Indonesian‐Australian Basin and areas including the Timor Sea and Kimberley shelf experienced the longest and most intense MHW from remotely sensed SST dating back to 1982. In situ temperature data from temperature loggers at coastal sites revealed a consistent picture, with MHWs appearing from west to east and peaking in March 2016. Temperature data from moorings, an Argo float, and Slocum gliders showed the extent of warming with depth. The events occurred during a strong El Niño and weakened monsoon activity, enhanced by the extended suppressed phase of the Madden‐Julian Oscillation. Reduced cloud cover in January and February 2016 led to positive air‐sea heat flux anomalies into the ocean, predominantly due to the shortwave radiation contribution with a smaller additional contribution from the latent heat flux anomalies. A data‐assimilating ocean model showed regional changes in the upper ocean circulation and a change in summer surface mixed layer depths and barrier layer thicknesses consistent with past El Niño events. Plain Language Summary From the southeast tropical Indian Ocean to the Coral Sea, waters across tropical Australia experienced extreme warming during austral summer 2015–2016. This widespread warming was mainly caused by changes in the atmospheric conditions related to the strong El Niño. These regions had reduced cloud cover and weakened winds, leading to enhanced oceanic heating by the atmosphere. In the Indonesian‐Australian Basin and surroundings areas, the shallower mixed layer depth further intensified the near‐surface warming. We used satellite sea surface temperature and a range of instruments to document the warming events near the coast and in the deeper ocean. The warmer than average conditions persisted through austral winter and weakened in spring. Key Points During 2016, the southeast tropical Indian Ocean experienced the longest and most intense ma
ISSN:2169-9275
2169-9291
DOI:10.1002/2017JC013326