Pollutants in aquifers threaten future of Mexico’s fast growing “Riviera Maya”
By: Ms. Van Lavieren and Ms. Benedetti
The Yucatan Peninsula, Mexico, is a very popular tourist destination that has been subjected to intensive coastal development. This region is highly susceptible to contamination of its groundwater, aquifer, and coastal waters because of its unique karst geology that is composed of highly permeable limestone deposits. It is also characterized by an extensive flooded underground cave system where freshwater within the aquifers forms a distinct layer above salt water intruding from the sea. The two water layers meet and mix in these flooded caves, which extend 8 to 12 km inland. On the land’s surface, sinkholes or “cenotes” as they are known in the Mayan language, provide passageways that link water originating from inland areas to discharge areas along the coast, thereby providing a route for pollution to reach the Caribbean Sea.
Since the 1990s, it is believed that land based sources of pollution such as discharge of (untreated) sewage and wastewater, along with overfishing, coral disease, and climate change, may have contributed to the loss of up to 50% of corals on the reefs along the region’s coast, according to Harvell et al. (2007).With a 10-fold increase in population expected by 2030, the problems are likely to worsen.
The Caribbean Coastal Pollution Project (CCPP), involving the participation of eight Caribbean countries, was launched in 2007 to help build capacity for improved assessment, monitoring and management of Persistent Organic Pollutants (POPs) and Persistent Toxic Substances (PTS) in Caribbean coastal ecosystems. Under the CCPP, a study was performed in an attempt to identify and measure contaminants in selected groundwater discharge zones along the Yucatan coast, and identify potential sources. Two types of passive sampler technologies, Semi-Permeable Membrane Devices (SPMDs) and Polar Organic Chemical Integrative Samplers (POCIS) were deployed for a one-month period in 5 underwater cave systems from December 2008 to January 2009. SPMDs accumulate compounds with low water solubility, such as Polychlorinated Biphenyls (PCBs) and organochlorine pesticides, while POCIS accumulate more water-soluble compounds, such as current use pesticides and pharmaceuticals. This particular technique was chosen given that in the past it has proven useful for monitoring a wide range of contaminants in aquatic environments (Metcalfe et al., 2000, 2008; O’Toole et al., 2006, 2006).
Prof. Chris D. Metcalfe of Trent University and Senior Research Fellow of the United Nations University Institute for Water, Environment and Health (UNU-INWEH), Canada, led the study with Dr. Patricia A. Beddows of Northwestern University, USA; Gerardo Gold Bouchot of CINVESTAV Unidad Merida, Mexico; Tracy L. Metcalfe and Hongxia Li of Trent University; and Hanneke Van Lavieren of UNU-INWEH. The study was also conducted in cooperation with a local non-governmental organization called “Amigos de Sian Ka’an“, Mexican researchers, laboratories, and university students…read more.
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