Integrated Water Resources Management in Colombia: A Historical Perspective

Cardona-Almeida, César; Suárez, Andrés

doi:10.1590/1809-4422asoc0118r7vu27l1oa

Ambient. soc.

2024

DOI: 10.1590/1809-4422asoc0118r7vu27l1oa

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Integrated Water Resources Management in Colombia: A Historical Perspective

César Cardona-Almeida,

Andrés Suárez

Abstract: The integrated management paradigm proposes dealing with a resource, such as water, considering its interrelationships with other environmental components. This vision has been adopted as a policy in several countries, including Colombia, but its results have not been satisfactory. This article studies the “integrative” approach in previous regulatory arrangements, making a historical review of them to understand how the perception and management of the environment by societies in Colombia have evolved. We sho… Show more

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2024

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Impact of land cover variations on the Morroa aquifer (Colombia) static and dynamic levels through remote sensing analysis

Cohen-Manrique,

Solano Correa,

Villa-Ramírez

et al. 2024

Geospatial Informatics XIV

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The Morroa aquifer plays a crucial role supplying drinking water to around one million residents across Sucre, Córdoba, and Bolívar departments in Colombia. However, it faces severe water stress, ranking as the second most overexploited aquifer globally according to recent research using the Groundwater Footprint (GF) indicator. This situation threatens the sustainability of the aquifer and the well-being of the region's inhabitants who rely on it. To tackle this challenge, CARSUCRE, the entity responsible for aquifer management, has implemented various strategies. These include establishing a monitoring network with piezometers to track static and dynamic aquifer levels and conducting civil works to redirect rainfall runoff towards artificial recharge projects. Yet, the impact of vegetation variations in the recharge areas of the aquifer levels remains uncertain due to many different factors like drought, heavy rainfall, and economic changes. This research introduces a methodology that leverages remote sensing data, particularly highresolution images from the Planet platform (3m), combined with land cover analysis in piezometer influence areas. The primary aim is to assess how changes in vegetation affect both static and dynamic levels of the Morroa Aquifer and then identify strategies to enhance land cover and improve water capture. The results obtained show a significant correlation between NDVI, EVI, and LULC for the aquifer recharge zone, with an average of 0.858 for all applied tools. These findings provide valuable information for the management and preservation of this vital water resource in the region.

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Impact of land cover variations on the Morroa aquifer (Colombia) static and dynamic levels through remote sensing analysis

Cohen-Manrique,

Solano Correa,

Villa-Ramírez

et al. 2024

Geospatial Informatics XIV

View full text Add to dashboard Cite

show abstract

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Integrated Water Resources Management in Colombia: A Historical Perspective

Cited by 1 publication

References 9 publications

Impact of land cover variations on the Morroa aquifer (Colombia) static and dynamic levels through remote sensing analysis

Impact of land cover variations on the Morroa aquifer (Colombia) static and dynamic levels through remote sensing analysis

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