The marine heatwave bulletin provides forecasts and analysis of marine heatwave events across the globe and throughout the year. Used datasets include observations (satellite sea surface temperature maps) and numerical model analyses (assimilating satellite and in situ observations) to derive marine heatwave forecasts for a 10-day period. [1] This week’s forecasts were produced using as a comparison the marine heatwave situation on 17/12/2024.
Forecasts for 28 December
Southern Ocean
The marine heatwave in the region will increase in intensity, between 0°-45°E, with strong and severe categories, locally extreme, and decrease in intensity between 45°E and 90°E, with a decline of its extent and a greater presence of moderate categories.
Tropical Pacific Ocean
The marine heatwave which extended from the Coral Sea to the Fiji islands will disappear almost completely, with only rare areas remaining in moderate categories.
South Pacific
Around New Zealand, the extent of the marine heatwave will decrease, and increase in intensity with still moderate categories, but with a larger extent of the strong categories. Locally, severe categories will develop. A stretch of mostly strong categories will develop from the southern coasts of Chile, extending as far as 30°S.
European Zone
Mediterranean Sea
The extent of the marine heatwaves of moderate category will decrease.
North Tropical Atlantic Ocean
Around the equator, the extent of the marine heatwaves is stable, while in the east the intensity will increase in the Gulf of Guinea – going from moderate to mostly strong and locally severe categories.
Weekly Temperature Anomalies
Mediterranean Sea | 0.5°C to 2°C | |
North Atlantic Ocean | 0°C to 3°C | |
Pacific Ocean | Tropical -2°C to 1.5°C | South 0°C to 3°C |
Indian Ocean | -2°C to 2°C |
Access the Daily Global Physical Bulletin for a 9-day forecast here.
What are marine heatwaves?
Marine heatwaves (MHW) are extreme rises in ocean temperature for an extended period of time. They can occur at different locations in the ocean, and their magnitude and frequency have increased over the last couple of decades, with harmful impacts on ecosystems, and human activities. According to the latest report released by the Intergovernmental Panel on Climate Change (IPCC AR6 SYR), it is found with high confidence that in the near-term at 1.5°C global warming, the increasing frequency of marine heatwaves will increase risks of biodiversity loss in the oceans, including from mass mortality events.[2]
How are marine heatwaves calculated?
A marine heatwave is an episode during which the ocean temperature is abnormally warm for at least 5 consecutive days.
Adapted from Hobday et al. (2018)
For any location in the ocean, the normal temperatures are defined for every day of the year using a climatological period (here 1993–2016). A heatwave is identified when the measured daily temperature is within the top 10% of the highest recorded values for that day (i.e., above the 90th percentile, see diagram), and with this condition persisting for at least five consecutive days.
The intensity of the heatwave on any given day is measured as the number of degrees above the climatological average (represented by the bold black line) indicated by the blue arrow. We can either calculate the cumulative intensity over the entire heatwave or record the maximum intensity.
Heatwaves are classified based on their intensity level. To do this, the intensity is compared to the difference between the climatological value and the 90th percentile value. A mhw intensity between 1 and 2 times this difference corresponds to a heatwave of moderate category; between 2 and 3 times, to a strong category; between 3 and 4 times, to a severe category; and a difference greater than 4 times corresponds to an extreme category.
[1] Analysis of datasets: SST OSTIA (Copernicus Marine Service), OISST (NOAA), GLO12 (Copernicus Marine Service / Mercator Ocean International), PSY4 (Copernicus Marine Service / Mercator Ocean International), and GLO12 et PSY4 forecasts.
[2] IPCC AR6 SYR chapter 4.3 https://www.ipcc.ch/report/ar6/syr/downloads/report/IPCC_AR6_SYR_LongerReport.pdf