Surface Exchange and Transport Processes Governing Atmospheric PCB Levels over Lake Superior

Abstract: Measurements of gas phase PCB concentrations obtained at a site on the shore of Lake Superior are analyzed to determine the importance of regional air/surface exchange as a determinant of PCB concentration over the lake. During periods of onshore flow, results obtained in congenerspecific regression analyses of log concentration against reciprocal temperature are strongly dependent upon time of year. During months when the lake is colder than the overlying air (resulting in a stable atmosphere over the lake), … Show more

“…It has been shown that the gas-phase air concentrations of SOCs have a strong relationship to ambient temperature (Lee and Jones, 1999;Cortes et al, 1998;Hoff et al, 1998;Honrath et al, 1997). As the temperature rises, gas-phase air concentrations increase as a result of volatilization from surfaces such as soil, atmospheric particles, water, and vegetation.…”

“…As the temperature rises, gas-phase air concentrations increase as a result of volatilization from surfaces such as soil, atmospheric particles, water, and vegetation. The temperature dependence of gas-phase ambient concentrations of SOCs has been investigated using ClausiusClapeyron plots (Lee and Jones, 1999;Cortes et al, 1998;Hoff et al, 1998;Honrath et al, 1997;Hillery et al, 1997) and surface exchange models (Wania et al, 1998).…”

“…It has been shown that the ambient concentrations of SOCs are affected by seasonal temperature variations and long-range transport (Sofuoglu et al, 2001; Lee and Jones, 1999;Cortes et al, 1998;Hoff et al, 1998;Honrath et al, 1997;Hillery et al, 1997;Wania et al, 1998). As the temperature rises, gas-phase air concentrations increase as a result of volatilization from previously contaminated surfaces such as soil, atmospheric particles, water, and vegetation.…”

Short-term variation in ambient concentrations and gas/particle partitioning of organochlorine pesticides in Izmir, Turkey

“…It has been shown that the gas-phase air concentrations of SOCs have a strong relationship to ambient temperature (Lee and Jones, 1999;Cortes et al, 1998;Hoff et al, 1998;Honrath et al, 1997). As the temperature rises, gas-phase air concentrations increase as a result of volatilization from surfaces such as soil, atmospheric particles, water, and vegetation.…”

“…As the temperature rises, gas-phase air concentrations increase as a result of volatilization from surfaces such as soil, atmospheric particles, water, and vegetation. The temperature dependence of gas-phase ambient concentrations of SOCs has been investigated using ClausiusClapeyron plots (Lee and Jones, 1999;Cortes et al, 1998;Hoff et al, 1998;Honrath et al, 1997;Hillery et al, 1997) and surface exchange models (Wania et al, 1998).…”

“…It has been shown that the ambient concentrations of SOCs are affected by seasonal temperature variations and long-range transport (Sofuoglu et al, 2001; Lee and Jones, 1999;Cortes et al, 1998;Hoff et al, 1998;Honrath et al, 1997;Hillery et al, 1997;Wania et al, 1998). As the temperature rises, gas-phase air concentrations increase as a result of volatilization from previously contaminated surfaces such as soil, atmospheric particles, water, and vegetation.…”

Short-term variation in ambient concentrations and gas/particle partitioning of organochlorine pesticides in Izmir, Turkey

“…It has been shown that the air concentrations of semivolatile organic compounds (SOCs) have a strong relationship to ambient temperature (Lee and Jones, 1999;Cortes et al, 1998;Hoff et al, 1998;Honrath et al, 1997). As the temperature rises, air concentrations increase as a result of volatilization from surfaces such as soil, atmospheric particles, water, and vegetation.…”

“…As the temperature rises, air concentrations increase as a result of volatilization from surfaces such as soil, atmospheric particles, water, and vegetation. The temperature dependence of gas-phase ambient concentrations of SOCs has been investigated using ClausiusClapeyron plots (Lee and Jones, 1999;Cortes et al, 1998;Hoff et al, 1998;Honrath et al, 1997;Hillery et al, 1997) and surface exchange models (Wania et al, 1998). The variation in atmospheric SOC concentrations can be quantified using the Clausius-Clapeyron equation…”

Temperature dependence of gas-phase polycyclic aromatic hydrocarbon and organochlorine pesticide concentrations in Chicago air

Atmospheric Transport and Air-Surface Exchange of Pesticides