Morphodynamics of back-reef beaches in Reunion Island

Ces travaux visent à inscrire le monitoring des plages récifales de l'île de La Réunion dans la « Stratégie Nationale de Gestion Intégrée des Zones Côtières » (2012). Elle oriente les recherches vers une démarche labellisée sur le long terme qui se concrétise par la mise en place de protocoles de mesures normalisés déployés sur des sites ateliers. Le site de l'Ermitage devient, en 2012, le premier site atelier en zone tropicale et de type bioclastique labellisé à l'échelle nationale (AllENVI, puis INSU en 2014). La dynamique des plages d'arrière-récif demeure à ce jour peu étudiée à travers le monde. Les plages bioclastiques de La Réunion sont le produit de récifs coralliens décrits comme dégradés par les biologistes depuis les années 80. Elles sont confrontées à une très forte anthropisation. Des formes marquées d'érosion se lisent dans ces paysages littoraux. La révision des protocoles de suivi de la topographie des plages tout en exploitant les suivis historiques, vise à illustrer la pluralité des dynamiques en contexte d'arrière-récif. La diversité des processus et des échelles spatio-temporelles impliqués dans le fonctionnement hydro-sédimentaire des plages récifales nécessite la mise en œuvre de méthodes d'observation in situ adaptées, comparables et reproductibles. Dans cette étude nous exploitons surtout les suivis topographiques des plages à l'échelle évènementielle, saisonnière et pluriannuelle. Par l'analyse morphologique et volumétrique des séries de profils topographiques, la variabilité morphosédimentaire en zone intertidale et supratidale est décrite. La significativité de la mesure de la mobilité du trait de côte est également questionnée.Long-term assessment of beach morphodynamic is a great challenge to understand future trajectories of these landforms. In France, in 2012, a national strategy for an integrated management of shoreline has been adopted. This one lead to creation of research labels (SOERE and SNO) which aim to sustain scientific researches dedicated to sandy beach morphodynamic in response to various hydrodynamics forcing. Shoreline monitoring on selected pilot sites is conducted within network where normalized protocols and high quality data are guaranteed at long-term scale. The French coastline also extend in tropical zone through its ultramarine territories. Tropical shoreline are among the most sensitive environment however they remain poorly studied. Since, 2012, Reunion island, a French department in Indian Ocean, integrated the SOERE network. Coral reef and coral beaches which preferentially developed on the western coast are frequently threatened by major swell event associated with tropical cyclones or long period swell. Since now, the beach trend evolution and morphogenic processes have not been quantified. However past monitoring exists which has consisted in topographic measurement along beach profile based on empirical protocols which produced biaised data. Since its integration within SOERE network, DGPS survey are now conducted along the different coral beach compartments of Reunion Island at seasonal and post-storm scale. This study aims to capitalize historical and DGPS beach topographic data in order to quantify long term and post-storm beach response and recovery from Cap Champagne to Trou d'Eau

Suivi morphodynamique des plages récifales de La Réunion en contexte d'observatoire

Long-term assessment of beach morphodynamic is a great challenge to understand future trajectories of these landforms. In France, in 2012, a national strategy for an integrated management of shoreline has been adopted. This one lead to creation of research labels (SOERE and SNO) which aim to sustain scientific researches dedicated to sandy beach morphodynamic in response to various hydrodynamics forcing. Shoreline monitoring on selected pilot sites is conducted within network where normalized protocols and high quality data are guaranteed at long-term scale. The French coastline also extend in tropical zone through its ultramarine territories. Tropical shoreline are among the most sensitive environment however they remain poorly studied. Since, 2012, Reunion island, a French department in Indian Ocean, integrated the SOERE network. Coral reef and coral beaches which preferentially developed on the western coast are frequently threatened by major swell event associated with tropical cyclones or long period swell. Since now, the beach trend evolution and morphogenic processes have not been quantified. However past monitoring exists which has consisted in topographic measurement along beach profile based on empirical protocols which produced biaised data. Since its integration within SOERE network, DGPS survey are now conducted along the different coral beach compartments of Reunion Island at seasonal and post-storm scale. This study aims to capitalize historical and DGPS beach topographic data in order to quantify long term and post-storm beach response and recovery from Cap Champagne to Trou d'Eau.Ces travaux visent à inscrire le monitoring des plages récifales de l'île de La Réunion dans la « Stratégie Nationale de Gestion Intégrée des Zones Côtières » (2012). Elle oriente les recherches vers une démarche labellisée sur le long terme qui se concrétise par la mise en place de protocoles de mesures normalisés déployés sur des sites ateliers. Le site de l'Ermitage devient, en 2012, le premier site atelier en zone tropicale et de type bioclastique labellisé à l'échelle nationale (AllENVI, puis INSU en 2014). La dynamique des plages d'arrière-récif demeure à ce jour peu étudiée à travers le monde. Les plages bioclastiques de La Réunion sont le produit de récifs coralliens décrits comme dégradés par les biologistes depuis les années 80. Elles sont confrontées à une très forte anthropisation. Des formes marquées d'érosion se lisent dans ces paysages littoraux. La révision des protocoles de suivi de la topographie des plages tout en exploitant les suivis historiques, vise à illustrer la pluralité des dynamiques en contexte d'arrière-récif. La diversité des processus et des échelles spatio-temporelles impliqués dans le fonctionnement hydro-sédimentaire des plages récifales nécessite la mise en œuvre de méthodes d'observation in situ adaptées, comparables et reproductibles. Dans cette étude nous exploitons surtout les suivis topographiques des plages à l'échelle évènementielle, saisonnière et pluriannuelle. Par l'analyse morphologique et volumétrique des séries de profils topographiques, la variabilité morphosédimentaire en zone intertidale et supratidale est décrite. La significativité de la mesure de la mobilité du trait de côte est également questionnée

Effect of Tropical Cyclones on Short-Term Evolution of Carbonate Sandy Beaches on Reunion Island, Indian Ocean

International audienceCarbonate sandy beaches in Reunion Island show various forms of evidence of erosion. Extreme waves associated with tropical cyclones (TCs) play a major role in beach dynamics. The present study analyzes and quantifies back-reef beach response and recovery from forcing generated by TCs Dumile, Felleng, and Bejisa, which occurred in 2013 and 2014. The study focuses on carbonate beaches of Reunion Island from Cap Champagne to the Passe de Trois-Bassins. Morphological and volumetric changes on beaches were analyzed by comparing 19 beach profiles. The results show that TCs are able to cause significant morphosedimentary change on the back-reef beaches of Reunion Island. These changes affect beach topography and involve longshore and cross-shore sediment transport. An alongshore variation in beach response is observed, which varies according to tropical storm intensity and coastal morphology. The intensity of impact seems to be related to reef width. The most severe erosion occurred at Boucan Canot, where reef is absent with a loss of −24 ± 2 m3 after TC Dumile, −38.7 ± 1.2 m3 after Felleng, and −42.5 ± 1.6 m3 after Bejisa. Elsewhere, the volumetric changes is less than 5 m3 under TC Dumile and vary between 2 and 11 m3 under TC Felleng and between 2 and 23 m3 under TC Bejisa. No significant impact occurred at La Saline where the reef flat is large and provides good protection for the beach; however, relative coastline orientation and prestorm beach-profile morphology also play an essential role in storm impact. Wave height and water level are also determinant factors of storm erosion potential. After storms, the beaches show a relative capacity for recovering because of calm conditions; however, different behaviours are observed along the same beach compartment. This suggests local influence of coastal structure and/or reef geomorphology in sediment transport processes

Morphosedimentary evolution of carbonate sandy beaches at decadal scale : case study in Reunion Island , Indian Ocean

International audienceGlobal change introduce a lot of uncertainties concerning future trajectory of beaches by directly or indirectly modifying major driving factors. An improved understanding of the past shoreline evolution may help for anticipate future coastline response. However, in tropical environment, studies concerning carbonate beaches dynamics are scarce compared to open sandy beaches. Consequently, coral reef protected beaches morphological adjustment is still poorly understood and long-term evolution rate are poorly quantified in these specific environment. In this context, La Reunion Island, insular department of France located in Indian Ocean, constitute a favoured laboratory. This high volcanic island possesses 25 km of carbonate beaches which experience hydrodynamic forcing specific from tropical environment: cyclonic swell during summer and long period swell during winter. Because of degraded coral reef health and high anthropogenic pressure, 50% of the beaches are in erosion since 1970s. Beach survey has been conducted since 1990s by scientist and are now encompassed as pilot site within a French observatory network which guarantee long-term survey with high resolution observational techniques. Thus, La Reunion Island is one of the rare carbonate beach to be surveyed since 20 years. This study aims to examined and quantify beach response at decadal scale on carbonate sandy beaches of Reunion Island. The study focus on 12 km of beaches from Cap Champagne to the Passe de Trois-Bassins. The analyze of 15 beach profile data originated from historical and DGPS beach topographic data confirm long term trend to erosion. Sediment lost varies between 0.5 and 2 m 3 .yr −1 since 1998. However longshore current have led to accretion of some part of beach compartment with rate of 0.7 to 1.6 m 3 .yr −1. Wave climate was examined from in-situ measurement over 15 years and show that extreme waves associated with tropical cyclones and long period swell play a major role in beach dynamics. Swell frequency and intensity are both determinant for beach evolution

Localization of magma injections, hydrothermal alteration, and deformation in a volcanic detachment (Piton des Neiges, La Réunion)

(IF 2,217)International audienceThis contribution aims at understanding how magmatism, hydrothermal alteration, and deformation may have interacted to localize a detachment (a low-angle normal fault) in a basaltic volcano. Piton des Neiges, an inactive volcano of La Réunion Island, has been deeply cut by erosion, allowing its inner structure to be investigated. The deepest unit observed in the edifice is a kilometer-scale plutonic complex, the top of which is intruded by multiple sills. This zone of repeated sill intrusions has been interpreted as a detachment because it displays evidence of hydrothermal alteration in the greenschist facies linked to a brittle-ductile shear deformation. Deformation begins with cataclasis and is followed by mylonitization and chlorite crystallization, then by hydrofracturing and pumpellyite crystallization. Subsequent and post-deformation calcite crystallization occurs in voids such as fractures and vacuoles. Aluminium substitutions in chlorite suggest that the syn-deformation hydrothermal alteration did not exceed 250 °C and peaked in the deformation zone. Comparison of bulk-rock major element analyses of fresh, altered and deformed rocks shows that the zone of sill intrusion and deformation localized increased concentrations of P and K otherwise depleted in the footwall and hangingwall rocks, suggesting that the detachment acted as a trap for fluids.In contradiction with proposed models of volcano spreading, it is apparent that the portion of Piton des Neiges accessible to observation did not deform by creep of a large hydrothermal system or a plutonic complex below its solidus. Instead, the interface between the already cooled plutonic complex and the host rock acted as a brittle failure zone and was repeatedly intruded by magma injections. This localized heat source promoted hydrothermal alteration and low temperature creep in and around the discontinuity. The same process of magmatism-related weakening might occur on active volcanoes; it may, for instance, explain the slow post-eruptive deformation of the Eastern flank of Piton de La Fournaise (the active volcano of La Réunion) observed since the April 2007 eruption

Trend and assessment of coral beaches shoreline : from a local study in Reunion Island to a regional observatory

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The basics for a permanent observatory of shoreline evolution in tropical environments; lessons from back-reef beaches in La Reunion Island

International audienceUnder natural and anthropogenic pressure, the coastal regions are evolving rapidly (population growth, erosion, modification of services, etc.), and some of these changes increase their vulnerability. Monitoring the evolution of the coastal regions has thus become essential to understand how they respond to the various pressures and to define how their resilience could be increased. Among other outcomes, such monitoring should provide continuous, high-resolution data on the spatial and temporal evolution of the coastal areas, especially the shoreline zone. One appropriate way to acquire long, continuous, time series of data is to set up a permanent observatory in the zone to be monitored. This paper aims to provide recommendations and a methodological framework to set up a ‘‘shoreline observatory’’ dedicated to monitor some of the specific features and behaviours of tropical littorals, more particularly back-reef beaches and their geomorphic changes. After a brief review of carbonate sandy beach morphodynamics, we present survey solutions (TLS, UAV photogrammetry) to monitor at high resolution and repeatedly the geomorphic changes of the coastal area, both on land and in shallow water. The example case is that of the back-reef beaches in La Reunion Island