Marine Heatwaves

Overview

Marine heatwaves are periods of persistent anomalously warm ocean temperatures, which can have significant impacts on marine life as well as coastal communities and economies. Causes of marine heat waves.

Marine heatwaves have become an urgent issue regarding climate risks due to their proliferation in frequency, duration, magnitude, and spatial extent. These phenomena have a strong impact not only at the global and regional level (e.g., substantial events in the Northeast Pacific (2013-15), Mediterranean Sea (2003) and Tasman Sea (2015/16 and 2017/18)), but also at the local level. In this sense, MHWs have become an increasingly serious threat not just from the perspective of pelagic and benthic ecology on the continental shelf but also for coastal aquaculture and fisheries, as demonstrated by many reports of fisheries closures from around the world caused by MHWs. It is noteworthy that estuaries, in particular, represent environments with high productivity and biodiversity that sustain important economic activities like aquaculture and fisheries.

Impacts: Major MHWs have had significant impacts on a wide range of species, from plankton to fish to sea birds, by affecting biological processes such as growth, reproduction and survival (Smale et al. 2019). For example, the ‘Blob’ – a massive long-lasting MHW that developed in the northeast Pacific in 2014 – disrupted the entire foodweb and led to mass die offs of sea birds and mammals (Smith et al. 2021). Rogue animals can also find their way well outside their normal range, following the warm waters of a MHW, such as this tropical fish found off Tasmania during the 2015/16 event. Attach the picture as well ^[1]

Impact of global warming:

How have marine heatwaves changed?

The oceans are warming at an unprecedented rate. Global sea surface temperatures have warmed by nearly 1°C since 1900 (IPCC AR6). This warming in turn increases the likelihood of MHWs occurring. While ecosystems have evolved within a certain coping range, and can adapt to conditions slightly outside that range, MHWs manifest as extreme events that lead to ecosystem vulnerabilities. In a warmer climate we are more likely to experience these vulnerability-causing extremes.

what about the future?

The Intergovernmental Panel on Climate Change (IPCC) 6th assessment report projects that the global ocean will continue to warm well into the 21st century. The warming in the upper ocean is projected to be between 0.5°C and 2.5°C by 2100. We can therefore expect a continuation, and possibly acceleration, of the historic warming-driven changes in MHWs. Ultimately, without improved global action to tackle climate change, the oceans will continue to warm leading to more intense and frequent MHWs, with consequences for marine life and human societies.

Data

Definition of MHW: Our group developed a definition of MHWs (Hobday et al. 2016), which has been widely adopted by researchers and other users. A MHW is defined as a period when seawater temperatures exceed a seasonally-varying threshold (usually the 90th percentile) for at least 5 consecutive days. Successive events with gaps of 2 days or less are considered part of the same MHW. In a subsequent study (Hobday et al. 2018) we extended the definition to introduce categories of severity, based on multiples of the threshold being exceeded.   ^[2]

Historical:

Observations: MHW tracker:

past events of California MHW: https://www.integratedecosystemassessment.noaa.gov/regions/california-current/california-current-marine-heatwave-tracker-blobtracker

SST Datasets at PSL^[3]

• NOAA OI SST Daily High Resolution. From 1982, a gridded high resolution daily dataset from NOAA that continues to present.
• NOAA ERSST V5 From 1865, a gridded consistently analyzed monthly dataset from NOAA that continues to present. V3 and V4 are also available
• COBE SST
• COBE-2 SST
• ICOADS
• Kaplan SST
• NOAA OI V2
• NODC 1994 and 1998 atlasses

Forecast: