State level water security indices in Mexico
Background As tends to be the case in large, developing countries, Mexico is a nation of notable meteorological, hydrographic and social contrasts throughout its territory, which impact the various population strata in different ways. The public administration in Mexico is divided into federal (nati...
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| Vydáno v: | Sustainable earth Ročník 3; číslo 1; s. 1 - 14 |
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| Jazyk: | angličtina |
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London
BioMed Central
17.07.2020
Springer Nature B.V BMC |
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| ISSN: | 2520-8748, 2520-8748 |
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| Abstract | Background
As tends to be the case in large, developing countries, Mexico is a nation of notable meteorological, hydrographic and social contrasts throughout its territory, which impact the various population strata in different ways. The public administration in Mexico is divided into federal (nationwide), state and municipal levels. In this sense, it is desirable to have water security metrics not only for the country as a whole but also for each state. The current paper seeks to show how these contrasts create different water-security scenarios using pertinent indices. This is particularly relevant for large countries such as Mexico, with approximately two-thirds of its territory in arid or semiarid areas, which face natural water scarcity, and only one-third has a very high relative water abundance.
Results
The concept of the global water security index was adapted to the state level in Mexico and calculated for each Mexican state in accordance with the worldwide analysis methodology proposed by other authors, which considers water availability, accessibility, safety and quality, as well as management. The proposed methodology was applied in a geographic information system environment, and it was used to obtain water security indices for all Mexican states. The states in which the situation was found to be critical, according to the computed global index, are Sonora, Baja California and Guanajuato, followed by Mexico City, Colima, Aguascalientes and Sinaloa.
Conclusions
Although the vast majority of the most vulnerable states and municipalities that have the highest drought risk are located in the north of the country in the Mexican highlands, even southern states such as Guerrero, Oaxaca, Chiapas, and Tabasco (which are typically characterized as rainy) have municipalities with a high drought vulnerability degree and are also severely affected by this phenomenon, especially in those years in which El Niño manifests itself, as was the case in 2015. The proposed methodology may serve as an example of how to assess water security using mainly free and officially published information, combined with international comparative country information, especially for countries where such information is limited. |
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| AbstractList | Abstract Background As tends to be the case in large, developing countries, Mexico is a nation of notable meteorological, hydrographic and social contrasts throughout its territory, which impact the various population strata in different ways. The public administration in Mexico is divided into federal (nationwide), state and municipal levels. In this sense, it is desirable to have water security metrics not only for the country as a whole but also for each state. The current paper seeks to show how these contrasts create different water-security scenarios using pertinent indices. This is particularly relevant for large countries such as Mexico, with approximately two-thirds of its territory in arid or semiarid areas, which face natural water scarcity, and only one-third has a very high relative water abundance. Results The concept of the global water security index was adapted to the state level in Mexico and calculated for each Mexican state in accordance with the worldwide analysis methodology proposed by other authors, which considers water availability, accessibility, safety and quality, as well as management. The proposed methodology was applied in a geographic information system environment, and it was used to obtain water security indices for all Mexican states. The states in which the situation was found to be critical, according to the computed global index, are Sonora, Baja California and Guanajuato, followed by Mexico City, Colima, Aguascalientes and Sinaloa. Conclusions Although the vast majority of the most vulnerable states and municipalities that have the highest drought risk are located in the north of the country in the Mexican highlands, even southern states such as Guerrero, Oaxaca, Chiapas, and Tabasco (which are typically characterized as rainy) have municipalities with a high drought vulnerability degree and are also severely affected by this phenomenon, especially in those years in which El Niño manifests itself, as was the case in 2015. The proposed methodology may serve as an example of how to assess water security using mainly free and officially published information, combined with international comparative country information, especially for countries where such information is limited. Background As tends to be the case in large, developing countries, Mexico is a nation of notable meteorological, hydrographic and social contrasts throughout its territory, which impact the various population strata in different ways. The public administration in Mexico is divided into federal (nationwide), state and municipal levels. In this sense, it is desirable to have water security metrics not only for the country as a whole but also for each state. The current paper seeks to show how these contrasts create different water-security scenarios using pertinent indices. This is particularly relevant for large countries such as Mexico, with approximately two-thirds of its territory in arid or semiarid areas, which face natural water scarcity, and only one-third has a very high relative water abundance. Results The concept of the global water security index was adapted to the state level in Mexico and calculated for each Mexican state in accordance with the worldwide analysis methodology proposed by other authors, which considers water availability, accessibility, safety and quality, as well as management. The proposed methodology was applied in a geographic information system environment, and it was used to obtain water security indices for all Mexican states. The states in which the situation was found to be critical, according to the computed global index, are Sonora, Baja California and Guanajuato, followed by Mexico City, Colima, Aguascalientes and Sinaloa. Conclusions Although the vast majority of the most vulnerable states and municipalities that have the highest drought risk are located in the north of the country in the Mexican highlands, even southern states such as Guerrero, Oaxaca, Chiapas, and Tabasco (which are typically characterized as rainy) have municipalities with a high drought vulnerability degree and are also severely affected by this phenomenon, especially in those years in which El Niño manifests itself, as was the case in 2015. The proposed methodology may serve as an example of how to assess water security using mainly free and officially published information, combined with international comparative country information, especially for countries where such information is limited. Background As tends to be the case in large, developing countries, Mexico is a nation of notable meteorological, hydrographic and social contrasts throughout its territory, which impact the various population strata in different ways. The public administration in Mexico is divided into federal (nationwide), state and municipal levels. In this sense, it is desirable to have water security metrics not only for the country as a whole but also for each state. The current paper seeks to show how these contrasts create different water-security scenarios using pertinent indices. This is particularly relevant for large countries such as Mexico, with approximately two-thirds of its territory in arid or semiarid areas, which face natural water scarcity, and only one-third has a very high relative water abundance. Results The concept of the global water security index was adapted to the state level in Mexico and calculated for each Mexican state in accordance with the worldwide analysis methodology proposed by other authors, which considers water availability, accessibility, safety and quality, as well as management. The proposed methodology was applied in a geographic information system environment, and it was used to obtain water security indices for all Mexican states. The states in which the situation was found to be critical, according to the computed global index, are Sonora, Baja California and Guanajuato, followed by Mexico City, Colima, Aguascalientes and Sinaloa. Conclusions Although the vast majority of the most vulnerable states and municipalities that have the highest drought risk are located in the north of the country in the Mexican highlands, even southern states such as Guerrero, Oaxaca, Chiapas, and Tabasco (which are typically characterized as rainy) have municipalities with a high drought vulnerability degree and are also severely affected by this phenomenon, especially in those years in which El Niño manifests itself, as was the case in 2015. The proposed methodology may serve as an example of how to assess water security using mainly free and officially published information, combined with international comparative country information, especially for countries where such information is limited. |
| ArticleNumber | 9 |
| Author | Cortez-Mejia, Petronilo E. Arreguin-Cortes, Felipe I. Saavedra-Horita, J. Raul Tzatchkov, Velitchko G. Sainos-Candelario, Arizabeth Llaguno-Guilberto, Oscar J. Rodriguez-Varela, J. Manuel |
| Author_xml | – sequence: 1 givenname: Felipe I. surname: Arreguin-Cortes fullname: Arreguin-Cortes, Felipe I. organization: National Autonomous University of Mexico, Institute of Engineering – sequence: 2 givenname: J. Raul surname: Saavedra-Horita fullname: Saavedra-Horita, J. Raul organization: Independent advisor – sequence: 3 givenname: J. Manuel surname: Rodriguez-Varela fullname: Rodriguez-Varela, J. Manuel organization: Mexican Institute of Water Technology – sequence: 4 givenname: Velitchko G. orcidid: 0000-0003-2081-8179 surname: Tzatchkov fullname: Tzatchkov, Velitchko G. email: velitchk@tlaloc.imta.mx organization: Mexican Institute of Water Technology – sequence: 5 givenname: Petronilo E. surname: Cortez-Mejia fullname: Cortez-Mejia, Petronilo E. organization: Mexican Institute of Water Technology – sequence: 6 givenname: Oscar J. surname: Llaguno-Guilberto fullname: Llaguno-Guilberto, Oscar J. organization: Mexican Institute of Water Technology – sequence: 7 givenname: Arizabeth surname: Sainos-Candelario fullname: Sainos-Candelario, Arizabeth organization: Mexican Institute of Water Technology |
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| References | 31_CR38 31_CR37 Y Wada (31_CR11) 2014; 5 31_CR39 31_CR34 31_CR33 V Smakhtin (31_CR27) 2001; 240 31_CR36 31_CR35 Y Wada (31_CR26) 2011; 15 GF Jenks (31_CR47) 1967 YT Assefa (31_CR23) 2019; 11 31_CR30 31_CR32 31_CR31 D Grey (31_CR2) 2007; 9 31_CR48 31_CR7 31_CR6 AK Gain (31_CR3) 2016; 11 31_CR45 31_CR44 31_CR46 U Oswald Spring (31_CR24) 2014; 1 31_CR9 31_CR8 31_CR41 31_CR40 31_CR43 R Calow (31_CR1) 2013 31_CR16 31_CR15 31_CR18 31_CR17 31_CR12 31_CR13 31_CR19 31_CR10 31_CR54 KCH van Ginkel (31_CR20) 2018; 144 N Mason (31_CR5) 2012 A Hsu (31_CR14) 2014 WP Fox (31_CR51) 2018 31_CR29 31_CR28 31_CR22 31_CR25 D Ortega-Gaucin (31_CR50) 2018; 10 E Van Beek (31_CR53) 2014 FI Arreguín-Cortes (31_CR49) 2019; 1 D Ortega-Gaucin (31_CR42) 2018 PF Martinez Austria (31_CR4) 2013; IV 31_CR21 A Alinezhad (31_CR52) 2011; 7 |
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As tends to be the case in large, developing countries, Mexico is a nation of notable meteorological, hydrographic and social contrasts throughout... Background As tends to be the case in large, developing countries, Mexico is a nation of notable meteorological, hydrographic and social contrasts throughout... Abstract Background As tends to be the case in large, developing countries, Mexico is a nation of notable meteorological, hydrographic and social contrasts... |
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| SubjectTerms | Access to water Developing countries Drinking water Drought Earth and Environmental Science El Nino Environment Environmental risk Geographic information systems Groundwater Hydrology LDCs Population Remote sensing Sanitation Stream flow Sustainable development Water availability Water management Water quality Water resources in Mexico Water scarcity Water security Water shortages Water supply |
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| Title | State level water security indices in Mexico |
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