Multidimensional Urban Exposure Analysis of Industrial Chemical Risk Scenarios in Mexican Metropolitan Areas

Las estructuras urbanas en América Latina se transformaron sustancialmente desde los primeros esbozos de generalización en un modelo hace 25 años. En este sentido, los procesos de globalización y transformación económica han reducido la polarización entre la ciudad rica y la ciudad pobre, mientras la segregación aumentó a una escala muy reducida. Cabe señalar que a partir de los años ‘90, algunas formas urbanas típicas de la ciudad "norteamericana" se difundieron en las urbes del subcontinente. El resultado es un paisaje urbano cerrado, la pérdida de esferas públicas y una transformación de los hábitos de los ciudadanos, como se muestra en el estudio de caso de Nordelta. La formulación de este innovador modelo de ciudad latinoamericana privatizada y fragmentada considera los aspectos mencionados, y a la vez establece un vínculo entre las teorías de EE.UU. y el desarrollo urbano en América Latina

Chlorinated volatile organic compounds (Cl-VOCs), including polychloromethanes, polychloroethanes and polychloroethylenes, are widely used as solvents, degreasing agents and a variety of commercial products. These compounds belong to a group of ubiquitous contaminants that can be found in contaminated soil, air and any kind of fluvial mediums such as groundwater, rivers and lakes. This review presents a summary of the research concerning the production levels and sources of Cl-VOCs, their potential impacts on human health as well as state-of-the-art remediation technologies. Important sources of Cl-VOCs principally include the emissions from industrial processes, the consumption of Cl-VOC-containing products, the disinfection process, as well as improper storage and disposal methods. Human exposure to Cl-VOCs can occur through different routes, including ingestion, inhalation and dermal contact. The toxicological impacts of these compounds have been carefully assessed, and the results demonstrate the potential associations of cancer incidence with exposure to Cl-VOCs. Most Cl-VOCs thus have been listed as priority pollutants by the Ministry of Environmental Protection (MEP) of China, Environmental Protection Agency of the U.S. (U.S. EPA) and European Commission (EC), and are under close monitor and strict control. Yet, more efforts will be put into the epidemiological studies for the risk of human exposure to Cl-VOCs and the exposure level measurements in contaminated sites in the future. State-of-the-art remediation technologies for Cl-VOCs employ non-destructive methods and destructive methods (e.g. thermal incineration, phytoremediation, biodegradation, advanced oxidation processes (AOPs) and reductive dechlorination), whose advantages, drawbacks and future developments are thoroughly discussed in the later sections. Copyright © 2014 Elsevier Ltd. All rights reserved.