1. Preface
2. Acknowledgment
3. Part I: Water Availability 1 Overview of the water condition in México
4. 2 Hydrological watersheads in Mexico. Division and legal definition
5. 3 The Groundwater condition in Mexico
6. 4 Runoff simulation under future climate change and uncertainty
7. 5 Hydraulic fracking of not conventional reservoirs in Mexico: The issue of water and waste control
8. Part II. Water Quality 6 Pollution in wastewater used for irrigation in the Mezquital Valley, México: case study
9. 7 Mining industry in Mexico: Recycling of flotation effluents to the process using anaerobic sulfate-reducing consortia in UASB reactors for the elimination dissolved metals
10. 8 Water body trophic state determinations. Case study Tecocomulco lagoon, Hidalgo, Mexico
11. 9 Water quality management for a sustainable supply. The diagnosis of the State of San Luis Potosi, Mexico
12. 10 The wetland of Cajititlán Lake severely deteriorated and in danger of dying out
13. 11 Water quality of the Nexapa River: a diagnosis
14. 12 Impacts on the groundwater quality that supplies the Puebla City by the effect of aquifer intensive exploitation
15. Part III: Water Allocation 13 Water resources allocation with supply and demand uncertainties
16. 14 An overview of aquaculture activity in Hidalgo state
17. 15 Drinking Water Services Situation by the Region in the State of Nuevo León, Mexico
18. 16 Population and tourism dynamics, its effects on the future demand for water. Case study from Los Cabos, Baja California Sur
19/ Part IV: Water Governance 17 Water governance in 16 Mexican National Parks
20. 18 Conflict in border condition: the dispute over the use of water in the Mexicali valley
21. 19 The institutional challenges of the municipalities of Zacatecas in the wastewater treatment
22. Part V: Water Management 20 The institutional challenges of the municipalities of Zacatecas in the wastewater treatment
23. 21 Improving environmental services of Candelaria River basin by restoring ecological connectivity
24. 22 Transdisciplinary approach to assessing socio-hydrological resilience in urban metropolitan environments: a Mexican perspective
25. 23 The 80% paradigm: An appointment with the sewage in Cuernavaca.