Fiji’s Oceans Hit 600-Year Heat Record: Alarming New Findings

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Researchers have found that sea surface temperatures in the Fijian archipelago are now the highest in over 600 years, based on data from a giant coral colony. This warming trend, highlighted by the year 2022 being the warmest since 1370, may have significant impacts on Pacific ecosystems and global climate patterns, including intensified droughts and rainfall.

International research reconstructs sea surface temperatures in the Fijian archipelago using data from the analysis of honeycomb coral, Diploastrea heliopora.

The surface temperature of the sea around Fiji’s archipelago in the southwestern Pacific has reached its highest point in over 600 years, according to a new coral record evaluated by an international research team. This record highlights an unprecedented increase in the western Pacific Ocean’s temperature, marking 2022 as the warmest year in the region since 1370.

The scientists used the giant coral Diploastrea heliopora colony in Fiji to obtain the data for the new reconstruction. These unique and long-lived massive corals record long-term climatic and environmental changes in their chemical composition that have shaped the reef and the giants themselves over many centuries. They are vital archives of past climate variability across the tropics, often providing a direct link to human storylines of past experiences of climate variations.

The team collected a more than 2-meter-long core from this colony, which is growing only 3 to 6 millimeters per year, and analyzed its skeletal chemical composition to draw conclusions on the temperature variations over the course of 627 years. This was supplemented by the results of 26 years of instrumental measurements of water temperatures. The southwestern Pacific region is a major driver of climate variability, modulating for example the El Niño-Southern Oscillation, one of the main phenomena influencing global climate, thus affecting human activities and natural ecosystems worldwide.

Corals – living temperature sensors

The research team, co-led by Universidad Nacional Autónoma de México and the University of Leicester in the UK, has thus produced what is to date the longest continuous coral Strontium/Calcium-sea surface temperature reconstruction, offering a distinct and unprecedented perspective on long-term Pacific climate swings from a key location to characterize ocean temperature gradients.

Diploastrea heliopora
A coral of the species Diploastrea heliopora, commonly known as the honeycomb or brain coral. Credit: Joel Orempuller

Researchers from Johannes Gutenberg University Mainz (JGU) contributed to the study by supporting the annually resolved chronology of the coral record. “We used the uranium-thorium dating method to determine the age of each deposited layer. Thus, we were able to independently check and finally confirm the identification of the counting of individual annual layers. This enabled the precise and absolute dating of the coral,” said Professor Denis Scholz, head of the Isotope-geochemical Palaeoclimatology / Speleothem Research group at the JGU Institute of Geosciences.

As they can live for centuries and even thousands of years, corals serve researchers as living temperature sensors – by recording the chemical composition of the ocean around them in their skeletons, day-in and day-out. The corals act like a living temperature sensor by changing the ratio of skeletal Strontium over Calcium with lower ratios being related to higher temperatures. The study shows that the current sea surface temperature in the Fijian archipelago has been the highest for the past 653 years, and persistent synchronous western and central Pacific warming rates could adversely impact Pacific Island ecosystems and nations.

The work also sheds new light on the interplay between ocean temperature trends across the tropical and subtropical Pacific Oceans over six centuries, revealing how late 20th-century warming has become increasingly synchronized between these regions that normally oppose each other, creating important temperature gradients that are the heart of major shifts in rainfall centers across the past few centuries.

Taking into account current climate model simulations, researchers expect additional drought and heavy rainfall events in certain areas of the Pacific over the course of the 21st century. If no counteractions are taken, there will be detrimental impacts on the inhabitants of endangered Pacific islands and their ecosystems.

Reference: “Coral Sr/Ca-SST reconstruction from Fiji extending to ~1370 CE reveals insights into the Interdecadal Pacific Oscillation” by Juan P. D’Olivo, Jens Zinke, Rishav Goyal, Matthew H. England, Ariaan Purich, Thierry Corrège, Eduardo Zorita, Denis Scholz, Michael Weber and José D. Carriquiry, 14 August 2024, Science Advances.
DOI: 10.1126/sciadv.ado5107

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