Your search keyword '"Lara Talavera"' showing total 3 results

1. Morphodynamic Controls for Growth and Evolution of a Rubble Coral Island

Author

Lara Talavera, Ana Vila-Concejo, Jody M. Webster, Courtney Smith, Stephanie Duce, Thomas E. Fellowes, Tristan Salles, Daniel Harris, Jon Hill, Will Figueira, and Jörg Hacker

Subjects

reef island dynamics, geomorphic change, DEMs of difference, remote-sensing, Great Barrier Reef, rubble spit dynamics, Science

Abstract

Rubble islands are dynamic sedimentary features present on reef platforms that evolve under a variety of morphodynamic processes and controlling mechanisms. They provide valuable inhabitable land for small island nations, critical habitat for numerous species, and are threatened by climate change. Aiming to investigate the controlling mechanisms dictating the evolution of One Tree Island (OTI), a rubble island in the Southern Great Barrier Reef, we combined different remotely-sensed data across varying timescales with wave data extracted from satellite altimetry and cyclone activity. Our findings show that (1) OTI had expanded by 7% between 1978 and 2019, (2) significant gross planform decadal adjustments were governed by the amount, intensity, proximity, and relative position of cyclones as well as El Niño Southern Oscillation (ENSO) phases, and (3) the mechanisms of island growth involve rubble spits delivering and redistributing rubble to the island through alongshore sediment transport and wave overtopping. Frequent short-term monitoring of the island and further research coupling variations in the different factors driving island change (i.e., sediment availability, reef-wave interactions, and extreme events) are needed to shed light on the future trajectory of OTI and other rubble islands under a climate change scenario.

Published

2021

2. UAS Identify and Monitor Unusual Small-Scale Rhythmic Features in the Bay of Cádiz (Spain)

Author

Lara Talavera, Javier Benavente, and Laura Del Río

Subjects

unmanned aerial systems, high-resolution DEMs, rhythmic features, pattern formation, shore-parallel bars, mesoforms, Science

Abstract

Unusual shore-normal and barred-like rhythmic features were found in Camposoto Beach (Bay of Cádiz, SW Spain) during a monitoring program using unmanned aerial systems (UAS). They appeared in the backshore and persisted for 6 months (October 2017–March 2018). Their characteristics and possible formation mechanism were investigated analyzing: (1) UAS-derived high-resolution digital elevation models (DEMs), (2) hydrodynamic conditions, and (3) sediment samples. The results revealed that the features did not migrate spatially, that their wavelength was well predicted by the edge wave theory, and that they shared characteristics with both small-scale low-energy finger bars (e.g., geometry/appearance and amplitude) and swash cusps (e.g., wavelength, seaward circulation pattern, and finer and better sorted material in the runnels with respect to the crests). Our findings pinpoint to highly organized swash able to reach the backshore during spring tides under low-energy and accretionary conditions as well as backwash enhanced by conditions of water-saturated sediment. This study demonstrates that rhythmic features can appear under different modalities and beach locations than the ones observed up to date, and that their unusual nature may be attributed to the low spatiotemporal resolution of the traditional coastal surveying methods in comparison with novel technologies such as UAS.

Published

2021

3. Morphodynamic Controls for Growth and Evolution of a Rubble Coral Island

Author

Stephanie Duce, Courtney Smith, Will F. Figueira, Tristan Salles, Jon Hill, Lara Talavera, Ana Vila-Concejo, Jorg M. Hacker, Daniel L. Harris, Jody M. Webster, and Thomas E. Fellowes

Subjects

010504 meteorology & atmospheric sciences, Science, Climate change, engineering.material, 010502 geochemistry & geophysics, 01 natural sciences, Great Barrier Reef, Climate change scenario, remote-sensing, Reef, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, reef island dynamics, Rubble, Sediment, geomorphic change, DEMs of difference, rubble spit dynamics, planform changes, cyclones, ENSO, gravel island, Oceanography, engineering, General Earth and Planetary Sciences, Cyclone, Small Island Developing States, Sediment transport, Geology

Abstract

Rubble islands are dynamic sedimentary features present on reef platforms that evolve under a variety of morphodynamic processes and controlling mechanisms. They provide valuable inhabitable land for small island nations, critical habitat for numerous species, and are threatened by climate change. Aiming to investigate the controlling mechanisms dictating the evolution of One Tree Island (OTI), a rubble island in the Southern Great Barrier Reef, we combined different remotely-sensed data across varying timescales with wave data extracted from satellite altimetry and cyclone activity. Our findings show that (1) OTI had expanded by 7% between 1978 and 2019, (2) significant gross planform decadal adjustments were governed by the amount, intensity, proximity, and relative position of cyclones as well as El Niño Southern Oscillation (ENSO) phases, and (3) the mechanisms of island growth involve rubble spits delivering and redistributing rubble to the island through alongshore sediment transport and wave overtopping. Frequent short-term monitoring of the island and further research coupling variations in the different factors driving island change (i.e., sediment availability, reef-wave interactions, and extreme events) are needed to shed light on the future trajectory of OTI and other rubble islands under a climate change scenario.

Published

2021