Large sections of coral reefs and much of the marine life they support may be wiped out for good, say the international team of researchers, who surveyed 21 sites and over 50,000 square metres of coral reefs in the inner islands of the Seychelles in 1994 and 2005.
Their report is the first to show the long-term impact of the 1998 event where global warming caused Indian Ocean surface temperatures to increase to unprecedented and sustained levels, killing off (or 'bleaching') more than 90 per cent of the inner Seychelles coral.
The team, led by the University of Newcastle upon Tyne, and which comprises researchers from the UK, Australia and the Seychelles, publishes its findings today, Monday May 15, in the Proceedings of the National Academy of Sciences.
The research showed that, while the 1998 event was devastating in the short term, the main long-term impacts are down to the damaged reefs being largely unable to reseed and recover. Many simply collapsed into rubble which became covered by unsightly algae.
The collapse of the reefs removed food and shelter from predators for a large and diverse amount of marine life - in 2005 average coral cover in the area surveyed was just 7.5 per cent.
The survey showed that four fish species (a type of butterfly fish, two types of wrasses and a type of damsel fish) are possibly already locally extinct, and six species are at critically low levels (a type of file fish, three types of butterfly fish and two damsel fish), although their decline probably started to happen soon after 1998.
The survey also revealed that species diversity of the fish community had decreased by 50 per cent in the heavily impacted sites. Reduced biodiversity results in a more fragile and less stable ecosystem.
Smaller fish have reduced in number more quickly than larger species but their decreased availability has started to have a more lasting effect on the food chain, and this effect is likely to be amplified as time goes on. Moreover, the observed decrease in herbivorous fish is a key concern as they control algal spread.
Researchers speculate that the reefs' inability to reseed is down to their relative isolation. A lack of nearby reefs to provide larvae which could settle and grow into new coral structures and the absence of favourable sea currents to transport the larvae could be largely to blame.
Yet while a bleak picture is painted in the inner islands of the Seychelles, the survey area, from a diving perspective the outer carbonate islands still offer healthy coral reefs. Early results from diver tourist surveys in the inner islands suggest that diver satisfaction is high with granite reefs, wrecks and whale sharks.
Lead researcher Nick Graham, of Newcastle University's School of Marine Science and Technology, said: "We have shown there has been very little recovery in the reef system of the inner Seychelles islands for seven years after the 1998 coral bleaching event.
"Reefs can sometimes recover after disturbances, but we have shown that after severe bleaching events, collapse in the physical structure of the reef results in profound impacts on other organisms in the ecosystem and greatly impedes the likelihood of recovery.
"Unfortunately it may be too late to save many of these reefs but this research shows the importance of countries tackling greenhouse gas emissions and trying to reduce global warming and its effect on some of the world's finest and most diverse wildlife."
The team comprised researchers from the University of Newcastle upon Tyne, the Australian Institute of Marine Science in Townsville; the Centre for Environment, Fisheries and Aquaculture Science, Lowestoft; the Seychelles Centre for Marine Research and the Seychelles Fishing Authority.
The work was supported by grants from the British Overseas Development Administration (now DFID), the Leverhulme Trust and the Western Indian Ocean Marine Science Association.
* THE EMBARGO:
This embargo is set by the Proceedings of the National Academy of Sciences, where the research is published.
INTERVIEWS: Mr Nick Graham, School of Marine Science and Technology, University of Newcastle upon Tyne.
Tel. +44 (0) 191 222 5868
PICTURES - for use by the media:
1. Healthy coral reef (NB this picture is not an image from the Seychelles)
2. Dead reef in the inner Seychelles - the structure has not collapsed
3. Dead and collapsed reef in the inner Seychelles (two pictures)
Six facts about coral reefs
1. Coral reefs are massive structures made of limestone that is deposited by living animals
2. They support over 25 per cent of all known marine species
3. They are home to over 4,000 different species of fish, 700 species of coral and thousands of other plants and animals
4. They are found in over 100 countries
5. Worldwide, they cover an estimated 284,300 square kilometres
6. They began growing as early as 50 million years ago but most established coral reefs are between 5,000 and 10,000 years old
Source: International Coral Reef Information Network Fact Sheet http://www.
Source information: 'Dynamic fragility of oceanic coral reef ecosystems', Graham, N.A.J et all, Proceedings of the National Academy of Sciences. Copies available from Newcastle University Press Office.
INFORMATION FOR BROADCASTERS:
A radio ISDN line at Newcastle University campus is usually available for use free of charge from 0900-1700 British Summer Time. Please contact Claire Jordan, Press Office, to arrange access and obtain the ISDN number.
THE LEVERHULME TRUST is one of the largest all subjects providers of research funding in the UK, distributing funds of some £30 million every year. For further information about all of the schemes that the Leverhulme Trust fund please visit their website at www.leverhulme.ac.uk
END OF PRESS RELEASE: Issued by Newcastle University Press Office. Further information from Claire Jordan, tel. + 44 (0) 191 222 6067/7850 or email email@example.com. Website: http://www.