Metal Mobilization As An Effect of Anthropogenic Contamination in Groundwater Aquifers in Tutuila, American Samoa

Abstract: Groundwater is the primary drinking water source on most oceanic islands, including Tutuila, American Samoa. Drinking water quality on Tutuila is impacted by anthropogenic pollution sources such as on-site sewage disposal systems, piggeries, and agricultural leachate, particularly across the densely populated Tafuna–Leone Plain. The remineralization of anthropogenically sourced organic matter produces nitrate and dissolved inorganic carbon, which, according to previously published studies, have the potential t… Show more

“…The mobilization of metals and metalloids in groundwater environments due to anthropogenic disturbances of naturally prevailing aquifer conditions is a common occurrence. − Among those, metal mobilization in conjunction with the redox shifts that occur during the injection of oxygenated or nitrate enriched water into anoxic aquifers during managed aquifer recharge (MAR) activities has been widely reported . The current prediction is that at least 10% of the world’s drinking water supply will be provided through MAR applications in the near future …”

Molybdenum Release Triggered by Dolomite Dissolution: Experimental Evidence and Conceptual Model

“…The mobilization of metals and metalloids in groundwater environments due to anthropogenic disturbances of naturally prevailing aquifer conditions is a common occurrence. − Among those, metal mobilization in conjunction with the redox shifts that occur during the injection of oxygenated or nitrate enriched water into anoxic aquifers during managed aquifer recharge (MAR) activities has been widely reported . The current prediction is that at least 10% of the world’s drinking water supply will be provided through MAR applications in the near future …”

Molybdenum Release Triggered by Dolomite Dissolution: Experimental Evidence and Conceptual Model