Browsing by Author "Link, Oscar"
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- ItemScour at Bridge Foundations in Supercritical Flows: An Analysis of Knowledge Gaps(2019) Link, Oscar; Mignot, Emmanuel; Roux, Sebastien; Camenen, Benoit; Escauriaza Mesa, Cristian Rodrigo; Chauchat, Julien; Brevis, Wernher; Manfreda, Salvatore
- ItemThe status quo effect in the sociohydrology of floods(2024) Leal, Catalina Mendoza; Coloma, Rocio; Ponce, Diego; Alarcon, Benjamin; Guerra, Maricarmen; Stehr, Alejandra; Carrasco, Juan Antonio; Alcayaga, Hernan; Rojas, Octavio; Link, Felipe; Link, OscarTwo behavioural types in sociohydrology of floods have been described in more detail than others: the levee effect and the learning effect. However, additional types of behaviour operate and need further research. Taking the case of frequent flash floods occurring in an ephemeral stream, a tributary of the Vilama River, located in San Pedro de Atacama, Chile, at the interphase between the Atacama desert and the Andean Altiplano, we explore the existence of further behavioural types in the sociohydrology of floods at four neighbourhoods along the tributary. Fieldwork to reconstruct a recent flood event, hydrological analysis and semistructured interviews with key informants to characterize people's responses to floods were conducted. Results show evidence that the so-called status quo effect is present at the riparian community scale, i.e. when communities do not learn and adapt to prevent damage even when exposed to frequent floods. Possible causes of the status quo effect are discussed.
- ItemThe need for a hydromorphological approach to Chilean river management(SOC BIOLGIA CHILE, 2012) Andreoli, Andrea; Mao, Luca; Iroume, Andres; Arumi, Jose L.; Nardini, Andrea; Pizarro, Roberto; Caamano, Diego; Meier, Claudio; Link, OscarThe manuscript reflects the opinion of the authors about the need for a hydromorphological approach for the management of Chilean rivers. A brief state-of-the-art of the recent scientific advances on hydromorphological approach to river management is presented, as well as a general overview of the conditions of Chilean rivers and the mayor disturbances they suffer. Moreover, the need to take into account both direct and indirect services provided by rivers in the decision making process on river management is underlined. Hydromorphology is claimed to be a main element to be considered while assessing the ecological state of rivers. Understanding how the hydrological and morphological variables interact dynamically is indeed key to assess the presence or absence of dynamic equilibrium, a condition that, in turn, promotes both habitat diversity and self-sustainable aquatic and riparian ecosystems. The authors also emphasized the need for a change of paradigm in current Chilean rivers management practices, by developing a unified framework to assess hydromorphological and ecological river conditions. In addition, the implementation of specific legislation aimed at promoting ecological and geomorphological standards in river management practice, and the strengthening and widening of the academic teaching of fluvial ecology and geomorphology is suggested.
- ItemUsing social cartographies for the calibration of two-dimensional hydraulic flood models(2024) Alarcon, Benjamin; Saenger, Vicente; Guerra, Maricarmen; Faundez, Rodrigo; Link, Felipe; Carrasco, Juan Antonio; Link, OscarAccurate numerical simulations of floods provide precise hazard estimations and can improve risk management strategies. Unfortunately, flood events of extraordinary magnitude -needed for risk assessment- are rare and difficult to measure. Hence, numerical models are typically calibrated and validated using a few measured scenarios of moderate magnitudes. Flood social cartography, a participatory mapping method, identifies historically flood-prone areas based on the residents' experience and knowledge. This research proposes using social cartographies to calibrate and validate hydraulic flood models. A numerical flood simulation model of the lower reach of the unregulated Carampangue River, Chile, was calibrated and validated using available information from gauges, satellite images, and social cartographies for the towns of Arauco and Ramadillas. The discharge magnitude of floods recorded in the social cartographies was determined. The quality of both models, calibrated with gauge data and with social cartography flood maps, was determined in each case by comparing computations with depth gauge data and satellite images through the root mean square error and the critical success index. Results show that social cartography participants recognized flooded areas corresponding to a discharge with a return period of 35 years. The calibration with social cartographies delivered a set of Manning's roughness coefficients similar to those obtained using gauge data. The validation cases show that water depth and the extension of floods computed with the model calibrated using social cartographies is comparable to that computed using gauge data in the calibration process. RMSE from both calibrated models is of order 0.1 m. Consequently, the social cartography of floods constitutes a useful data source of extreme flood scenarios for calibrating and validating numerical flood models.