Browsing by Autor "L. Acosta"

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    Diagnóstico biológico preliminar y prioridades de investigación en el área protegida municipal Parabanó
    (2004) Kathia Rivero; Damián I. Rumiz; Juan Carlos Catari; Huáscar Azurduy; Oswaldo Maillard; L. Acosta; Miguel Angel Aponte; Karina Osinaga; Grimaldo Soto; Humberto Saavedra
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    Glacial melt content of water use in the tropical Andes
    (IOP Publishing, 2017) Wouter Buytaert; Simon Moulds; L. Acosta; Bert De Bièvre; Carlos Francisco García Olmos; Marcos Villacís; Carolina Tovar; Koen Verbist
    Accelerated melting of glaciers is expected to have a negative effect on the water resources of mountain regions and their adjacent lowlands, with tropical mountain regions being among the most vulnerable. In order to quantify those impacts, it is necessary to understand the changing dynamics of glacial melting, but also to map how glacial meltwater contributes to current and future water use, which often occurs at considerable distance downstream of the terminus of the glacier. While the dynamics of tropical glacial melt are increasingly well understood and documented, major uncertainty remains on how the contribution of tropical glacial meltwater propagates through the hydrological system, and hence how it contributes to various types of human water use in downstream regions. Therefore, in this paper we present a detailed regional mapping of current water demand in regions downstream of the major tropical glaciers. We combine these maps with a regional water balance model to determine the dominant spatiotemporal patterns of the contribution of glacial meltwater to human water use at an unprecedented scale and resolution. We find that the number of users relying continuously on water resources with a high (>25%) long-term average contribution from glacial melt is low (391 000 domestic users, 398 km 2 of irrigated land, and 11 MW of hydropower production), but this reliance increases sharply during drought conditions (up to 3.92 million domestic users, 2096 km 2 of irrigated land, and 732 MW of hydropower production in the driest month of a drought year). A large proportion of domestic and agricultural users are located in rural regions where climate adaptation capacity tends to be low. Therefore, we suggest that adaptation strategies should focus on increasing the natural and artificial water storage and regulation capacity to bridge dry periods.
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    High-resolution hydrometeorological data from a network of headwater catchments in the tropical Andes
    (Nature Portfolio, 2018) B. F. Ochoa‐Tocachi; Wouter Buytaert; Javier Antiporta; L. Acosta; Juan Diego Bardales; Rolando Célleri; Patricio Crespo; Paola Fuentes; Junior Gil‐Ríos; Mario Guallpa
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    Impacts of land use on the hydrological response of tropical Andean catchments
    (Wiley, 2016) B. F. Ochoa‐Tocachi; Wouter Buytaert; Bert De Bièvre; Rolando Célleri; Patricio Crespo; Marcos Villacís; Carlos Llerena; L. Acosta; Mauricio Villazón; Mario Guallpa
    Abstract Changes in land use and land cover are major drivers of hydrological alteration in the tropical Andes. However, quantifying their impacts is fraught with difficulties because of the extreme diversity in meteorological boundary conditions, which contrasts strongly with the lack of knowledge about local hydrological processes. Although local studies have reduced data scarcity in certain regions, the complexity of the tropical Andes poses a big challenge to regional hydrological prediction. This study analyses data generated from a participatory monitoring network of 25 headwater catchments covering three of the major Andean biomes ( páramo , jalca and puna ) and links their hydrological responses to main types of human interventions (cultivation, afforestation and grazing). A paired catchment setup was implemented to evaluate the impacts of change using a ‘trading space‐for‐time’ approach. Catchments were selected based on regional representativeness and contrasting land use types. Precipitation and discharge have been monitored and analysed at high temporal resolution for a time period between 1 and 5 years. The observed catchment responses clearly reflect the extraordinarily wide spectrum of hydrological processes of the tropical Andes. They range from perennially humid páramos in Ecuador and northern Peru with extremely large specific discharge and baseflows, to highly seasonal, flashy catchments in the drier punas of southern Peru and Bolivia. The impacts of land use are similarly diverse and their magnitudes are a function of catchment properties, original and replacement vegetation and management type. Cultivation and afforestation consistently affect the entire range of discharges, particularly low flows. The impacts of grazing are more variable but have the largest effect on the catchment hydrological regulation. Overall, anthropogenic interventions result in increased streamflow variability and significant reductions in catchment regulation capacity and water yield, irrespective of the hydrological properties of the original biome. Copyright © 2016 The Authors. Hydrological Processes . Published by John Wiley & Sons Ltd.