Shallow reefs off Singapore survive in the face of adversity
An analysis of the health of highly impacted coral reefs off Singapore during a 27-year long period has shown they are more resilient to the impacts of human activity and warming than expected.
A UNSW-led international team found that shallower reefs rebounded rapidly from a major bleaching episode in 1998, despite experiencing such high levels of sedimentation that underwater visibility was typically less than 2 metres.
"It is remarkable that diverse shallow coral communities can persist in such adverse conditions," says study first author Dr James Guest, formerly of UNSW and now at the Hawai'i Institute of Marine Biology.
"Undoubtedly, Singapore's reefs have suffered as a result of human activities, but the recovery of corals at shallow sites is really surprising given how impacted this environment is. It really shows how tough corals can be."
Study senior author UNSW Professor Peter Steinberg adds: "This is by no means a cause for complacency regarding the state of our reefs, but rather highlights that if we can reduce local stressors, reefs are more likely to be able to rebound from the effects of global stressors such as climate change."
The study by the team, which includes researchers from UNSW and the Sydney Institute of Marine Science, the National University of Singapore, Nanyang Technological University, and Singapore's National Parks Board, is published in the journal Scientific Reports.
In the past 200 years, Singapore has been transformed from a forest-covered island with about 150 people to a highly urbanised city-state of more than 5.4 million.
Extensive coastal construction, dredge spillage and land reclamation have resulted in high sedimentation rates, turbidity and pollution, putting immense pressure on the surrounding coral reefs.
Between 1986 and 2012, coral communities at 15 sites south of the main island were regularly surveyed, and the results have been analysed for the new study.
Coral cover during this 27-year period declined at all sites – by about 12 per cent at the shallower depths of 3-4 metres and by about 30 per cent at the deeper depths of 6-7 metres. There was a particularly large decline in the first decade due in part, the authors suggest, to unmitigated dumping of dredge spoils in the late 1980s.
In 1998, a major bleaching event occurred as the result of high water temperatures associated with an El Nino. However, corals at shallower reef sites were remarkably resilient to this event, showing signs of recovery within a decade. By 2008 coral cover had increased to about 1993 levels.
Corals at deeper sites were less resilient, with coral cover at these sites continuing to decline. However, none of the sites were overtaken by large fleshy seaweeds, as has been seen on impacted reefs elsewhere in the world. The lack of recovery at deeper sites may be due to low light levels or a lack of unsuitable substratum for new corals to settle and survive.
The researchers suspect the resilience at shallow sites is due to an abundance of coral species which have fast regrowth rates and can tolerate environmental stresses such as high levels of suspended sediments.
It is also possible the turbidity of the water could offer some protection by reducing the light and the impact of heat stress, as well as slowing down the growth of fleshy seaweeds.
Reefs in Singapore appear to have undergone substantial bleaching again this year, which is likely to test whether the resilience to bleaching observed in previous decades is still present on these reefs.
The UNSW team members include Professor Steinberg, Dr Alexandra Campbell, Dr Ezequiel Marzinelli, and Dr Adriana Verges.
Dr James Guest: +1 808 497 1291, [email protected]
Professor Peter Steinberg: + 612 9435 4600, [email protected]
UNSW Science media officer: Deborah Smith: +612 9385 7307, + 61 (0) 478 492 060, [email protected]