El Manejo Integrado de los Recursos Hídricos en el acuífero insular de Cozumel, Quintana Roo, México
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Date
Subject
Sustainable Development
Environmental management
Mexico
Island
Groundwater
desarrollo sostenible
gestión ambiental
México
isla
agua subterránea
Environmental management
Mexico
Island
Groundwater
desarrollo sostenible
gestión ambiental
México
isla
agua subterránea
Language:
Journal Title
Journal ISSN
Volume Title
Publisher
Instituto Tecnológico de Santo Domingo (INTEC)
El Manejo Integrado de los Recursos Hídricos (MIRH) es de vital importancia para ambientes insulares donde el volumen del acuífero es limitado y el incremento en la demanda, junto con el deterioro en su calidad, amenazan su disponibilidad para el futuro. En el siguiente ensayo se analiza el MIRH en la isla Cozumel (México) a partir de la definición de la Asociación Mundial para el Agua (AMA), con lo cual se caracteriza la situación actual de las políticas, instituciones e instrumentos (PIeIs) en el contexto local y federal. El análisis bajo la definición de la AMA permite homologar criterios para abordar el MIRH y así aportar al enriquecimiento del concepto a través del estudio del caso particular en la isla Cozumel; además de contribuir a identificar los retos para la implementación del MIRH en la zona de estudio. Mediante este ensayo fue posible identificar las bases de las PIeIs y su sincronización local con la federal, así como el manejo actual del acuífero, y se detectó una falta de instrumentos para la planeación participativa con los cuales se involucre a los usuarios del recurso, a nivel local, dentro de las decisiones referentes a su manejo.
The Integrated Water Resource Management (IWRM) is vital for island environments where the volume of the aquifer is finite. The following essay analyzes IWRM in Cozumel Island (Mexico) based on the definition of the Global Water Partnership (GWP), which allows to characterize the current situation of policies, institutions and instruments for management in the local and federal context. The analysis under the definition of the GWP allows to standardize criteria to address the IWRM and thereby contribute to the enrichment of the concept through the study of specific cases such as Cozumel Island; it also contributes to identify current challenges for the implementation of the IWRM in the study area. Throughout this essay, the bases and concordance between local and federal level of policies, institutions and instruments, along with the current aquifer management used in the island, were identified. Furthermore, a lack of instruments that allow local participation on management decisions was recognized.
The Integrated Water Resource Management (IWRM) is vital for island environments where the volume of the aquifer is finite. The following essay analyzes IWRM in Cozumel Island (Mexico) based on the definition of the Global Water Partnership (GWP), which allows to characterize the current situation of policies, institutions and instruments for management in the local and federal context. The analysis under the definition of the GWP allows to standardize criteria to address the IWRM and thereby contribute to the enrichment of the concept through the study of specific cases such as Cozumel Island; it also contributes to identify current challenges for the implementation of the IWRM in the study area. Throughout this essay, the bases and concordance between local and federal level of policies, institutions and instruments, along with the current aquifer management used in the island, were identified. Furthermore, a lack of instruments that allow local participation on management decisions was recognized.
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Type
info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
Artículos
info:eu-repo/semantics/publishedVersion
Artículos
Source
Science, Environment and Climate; Vol. 4 No. 1 (2021): Science, Environment and Climate; 7-17
Ciencia, Ambiente y Clima; Vol. 4 Núm. 1 (2021): Ciencia, Ambiente y Clima; 7-17
2636-2333
2636-2317
10.22206/cac.2021.v4i1
Ciencia, Ambiente y Clima; Vol. 4 Núm. 1 (2021): Ciencia, Ambiente y Clima; 7-17
2636-2333
2636-2317
10.22206/cac.2021.v4i1