Studies showed that DDT levels were still high in Tianjin, China, even though its use was banned in 1983. To estimate current risk of DDT to human health in Tianjin area, a non-steady-state (Level IV) multimedia fugacity model was used to simulate the fate and transfer of pp'-DDT before and after the ban. The ordinary linear equations of Level IV model were solved with a matrix approach. The calculated pp'-DDT concentration in air, water, soil, and sediment reached a maximum in the 1980s and then decreased, and agree well with those measured. The biggest bulk sinks of pp'-DDT were soil and sediment, which accounted for 90% of total amount of pp'-DDT in the environment. Air deposition and diffusions through the interfaces of water-air and water sediment were the major intermedia transfer processes, while the degradation in soil and sediment were the key eliminating routes for pp'-DDT in the environment. (c) 2005 Elsevier Inc. All rights reserved.
Li, Q., Zhu, T., Qiu, X., Hu, H., Vighi, M. (2006). Evaluating the fate of p,p′-DDT in Tianjin, China using a non-steady-state multimedia fugacity model. ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY, 63(2), 196-203 [10.1016/j.ecoenv.2005.06.003].
Evaluating the fate of p,p′-DDT in Tianjin, China using a non-steady-state multimedia fugacity model
VIGHI, MARCO
2006
Abstract
Studies showed that DDT levels were still high in Tianjin, China, even though its use was banned in 1983. To estimate current risk of DDT to human health in Tianjin area, a non-steady-state (Level IV) multimedia fugacity model was used to simulate the fate and transfer of pp'-DDT before and after the ban. The ordinary linear equations of Level IV model were solved with a matrix approach. The calculated pp'-DDT concentration in air, water, soil, and sediment reached a maximum in the 1980s and then decreased, and agree well with those measured. The biggest bulk sinks of pp'-DDT were soil and sediment, which accounted for 90% of total amount of pp'-DDT in the environment. Air deposition and diffusions through the interfaces of water-air and water sediment were the major intermedia transfer processes, while the degradation in soil and sediment were the key eliminating routes for pp'-DDT in the environment. (c) 2005 Elsevier Inc. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.