Details of Award
NERC Reference : NE/J005398/2
Rapid assessments of Cyclone Yasi's impact on nearshore coral reefs and resultant sediment records of the event.
Grant Award
- Principal Investigator:
- Professor C Perry, University of Exeter, Geography
- Grant held at:
- University of Exeter, Geography
- Science Area:
- None
- Overall Classification:
- Marine
- ENRIs:
- None
- Science Topics:
- None
- Abstract:
- Cyclones and hurricanes exert a major influence on the structure and ecology of shallow water coral reefs. This occurs through the physical destruction of corals (especially branching coral species), with the resultant rubble being a major source of detrital reef framework carbonate. Ecologically, these high magnitude physical disturbance events also exert a profound influence on benthic habitat composition and diversity, and drive the remobilisation and distribution of reef-derived sediments - transporting such materials either shorewards into lagoons or onto beaches, or flushing sediment offshore into deeper water. Many future climate models predict an increasing frequency and intensity of such tropical storms, and thus data on the physical and ecological resilience of shallow water coral reefs is of significant scientific and management interest. Various studies have examined the impact of such physical disturbance events on coral reefs, in many cases basing their findings only on post-impact assessments. In only a few cases have high quality pre- and post-impact data been available, and in most cases this has only been sufficient to consider the (albeit critically important) ecological transitions. It is extremely rare to have the opportunity to undertake multi-proxy assessments of physical disturbance events that can draw on pre-impact data covering not only the reef ecology, but also geomorphology (structure, elevation), contemporary sedimentology, and the late Holocene history of reef development (as preserved in core records). To be able to do this at a range of sites both immediately proximal to a cyclone track and at more distal sites, represents an unprecedented opportunity, especially where data is available from a range of nearshore to offshore depositional settings. Here we have such an opportunity, and one that will allow us to undertake multi-proxy assessments (geomorphical, ecological and sedimentological) of the changes induced by an especially high magnitude recent cyclone. The event in question, Severe Tropical Cyclone Yasi, was a Category 5 cyclone (the highest category on a scale of 1-5) that made landfall on the Queensland coast of Australia, in the vicinity of Mission Beach and Tully, on 3rd Feb 2011. The eye of the storm was ~35 km wide, with a front stretching across ~650 km. Evidence from instrumentation that survived the event shows a central pressure of around 929hPa, with winds gusting up to 285 km/h, and with storm surge heights reaching at least 5 m. Yasi was thus one of the most powerful cyclones to have affected Queensland since records commenced. Previous cyclones of a comparable measured intensity include Cyclone Mahina (1899) in Princess Charlotte Bay ~350 km to the north, and the 1918 cyclones at Mackay and Innisfail. Specifically, we are in a position, having undertaken detailed studies of the structure and ecology of a wide range of reefs in the immediate vicinity of the storm track and its landfall point, to be able to undertake a rapid post-impact assessment, and to compare this data with that collected (between 2006-2009) at the same sites. We are submitting this as an Urgency application because of the need to undertake such post-impact studies as soon as logistically possible. This is of critical importance in marine environments to ensure that as much of the evidence (both ecological and geomorphological) of the event is preserved. We are planning to undertake this study in August 2011, giving a 6 month lead in from this application (this is probably as soon as logistically possible given the need for the review process and subsequent travel planning). The timing will be such, so as to coincide with one of the winter low spring tide periods when site access is far easier. Based on existing post-storm recovery trajectories in other tropical regions we would anticipate such evidence being well preserved within the 6 month lead in time we are working to.
- NERC Reference:
- NE/J005398/2
- Grant Stage:
- Completed
- Scheme:
- Urgency
- Grant Status:
- Closed
- Programme:
- Urgency Call
This grant award has a total value of £48,230
FDAB - Financial Details (Award breakdown by headings)
DI - Other Costs | Indirect - Indirect Costs | DA - Investigators | DA - Estate Costs | DA - Other Directly Allocated | DI - T&S |
---|---|---|---|---|---|
£8,856 | £18,235 | £6,623 | £2,309 | £9,283 | £2,923 |
If you need further help, please read the user guide.