1. THE USE OF GEOGRAPHIC INFORMATION TECHNOLOGIES IN ENVIRONMENTAL DECISION-MAKING IN THE STATE OF MICHOACAN, MEXICO.
- Author
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Teodoro, Silva García José, Gustavo, Cruz Cárdenas, Salvador, Ochoa Estrada, Franciso, Estrada Godoy, and Fabian, Villalpando Barragán
- Subjects
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GEOGRAPHIC information systems , *DECISION making , *HUMAN ecology - Abstract
One of the most urgent issues facing the human environment, a result of current human evolution is the increase in the production of Urban Solid Waste (USW). The State of Michoacán is no exception; the presence of waste facilities in the area is a very big problem and one with a strong geographical content (Mena et al., 2006). SIGs are one tool for addressing this kind of need. A model which has been commonly used for selecting areas for the final deposit of USW, and which has obtained good results, is so-called multicriterion decision-making. It has been applied in the context of integral USW management, and has generated both a methodology for the determination of safe places for final waste deposit and an Environmental Risk Index (ERI), which fulfills the requirements indicated by the Official Mexican Norm (NOM-083-SEMARNAT-2003). The methodology consists of a quadrant analysis of 25 ha of five factors. A rank was assigned to each of the factors, and this rank was standardized according to a scale from 0 to 10 and subsequently multiplied by a weight (W) which numerically represents the degree of importance and influence of each factor in the environment. Five represented the largest impact, and two represented the smallest impact. The ERI is the sum of the five factors considered and it is represented by means of the following equation: ERI = VVw+UsUsw+FrFrw+ln lnw+Zi Ziw, where ERI is the Environmental Risk Index, V Vw is the aquifer vulnerability, Us Usw represents the use of the soil, Fr Frw refers to the fracturing density, ln lnw represents the domain of the urban and industrial infrastructure, and Zi Ziw refers to flood zones. This was shown to be successful in different regions of Michoacán State, such as the Bajío area, the Paísde la Mariposa Monarca and Tierra Caliente. Another example is its application in the hydrogeologic context, which generated the Aquifer Veda index (a restriction diagram for the opening of new exploitations), and which is intended to regulate and give advice about the design of wells, their depth and optimum slot interval, their appropriate location and caudal, in those cases in which well-drilling is permitted. The above-mentioned approach is fundamental to the sustainable operating schemes for the handling of the underground water in the Ciénega de Chapala. This approach is intended to influence the scientific handling of the hydro resource, promoting sustainable politics and rules of operation. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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