Analyse of the largest ever-described coastal mega boulder in Cuba (Bucanero Resort site, Juragua, Oriente)
- 1University of Brest, European University Institute of the Sea, Ocean Geosciences Laboratory – UMR 6538, Brest, France (pedro-luis.dunanavila@univ-brest.fr)
- 2Continental and Coastal Morphodynamics Laboratory: M2C, University of Caen Normandy, France
- 3Institute of Geology and Paleontology: Geological Service of Cuba, Cuba.
- 4ISTerre - Institute of Sciences of the Earth, University of Grenoble-Alpes, France
- 5University of Potsdam, Germany
- 6National Center for Seismological Research of Cuba (CENAIS) , Cuba
- 7Director of Geology, Ministry of Energy and Mines, Cuba
- 8Toulouse Environmental Geosciences Laboratory – GET, University of Toulouse Paul Sabatier, France
- 9Environmental Services Center, Sancti Spíritus, Cuba
- 10Ocean Geosciences Laboratory, South Brittany University, France
Abstract
Coastal boulders or mega-clasts, named huracanolitos in Cuba, are found along many rocky shores. They result from storms/hurricanes or tsunamis, but despite being potentially important indicators for hazard assessment, their mode of emplacement is typically unknown. We studied a coastal boulder that is probably the largest one ever described on Cuba Island. Located on a low-lying coral reef terrace on the SE Cuban shore, the reefal limestone boulder is emplaced seaward of the ruins of the Bucanero resort. The latter was built in 1989, suffered from Hurricanes Ivan (2004) and Dennis (2005), and, in October 2012, was totally destroyed by Hurricane Sandy. Despite these extreme climatic events, satellite images obtained since 1962 show no movement of the block. In order to analyse the boulder and its morphological context, we have analysed its position, shape and its morphological environment. To determine its volume, we developed a low-cost, open-source Structure from Motion photogrammetry (SfM) procedure using a simple 3D spherical target (diameter 30 ± 0.2 x 10-3 m). Using various hydrodynamic equations, we calculated the breaking wave height and associated energy responsible for the dislocation of the coral reef terrace and transport of the boulder. To determine the exposure time of the block on the terrace, we performed 36Cl analysis and U/Th dating on post-depositional secondary calcite. From these data, the climatic or tsunamigenic (by earthquake or gravity event) origin is discussed. Notably, mapping and dating of a neighboring coastal landslide were made in order to correlate or not its effect on the setting up of the boulder.
Keywords: coastal boulder; extreme-wave deposit; tsunami; hurricane; Cuba
How to cite: Dunán Avila, P. L., Pedoja, K., Authemayou, C., Nuñez Labañino, A., Peñalver Hernández, L. L., Chauveau, D., de Gelder, G., Benitez Frometa, P. D. J., Jara Muñoz, J., Izquierdo Martin, D., Traore, K., Arango Arias, E., Castellanos, E., Regard, V., and Rodríguez Valdés, Á. R.: Analyse of the largest ever-described coastal mega boulder in Cuba (Bucanero Resort site, Juragua, Oriente), EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-7400, https://doi.org/10.5194/egusphere-egu23-7400, 2023.