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REFERENCES

  • 1
    McAlary T, Proovost J, Dawson E. 2011. Vapor intrusion. In Swartjes F, ed, Dealing With Contaminated Sites. Springer, Dordrecht, The Netherlands, pp 409453.
  • 2
    Folkes D, Wertz W, Kurtz J, Kuehster T. 2009. Observed spatial and temporal distributions of CVOCs at Colorado and New York vapor intrusion sites. Ground Water Monit Remed 29: 7080.
  • 3
    McHugh TE, De Blanc PC, Pokluda RJ. 2006. Indoor air as a source of VOC contamination in shallow soils below buildings. Soil Sediment Contam 15: 103122.
  • 4
    BP-RISC. 2001. Risk-Integrated Software for Clean-Up—User's Manual. British Petroleum-Amoco Oil, Sunbury, United Kingdom.
  • 5
    Johnson PC, Ettinger R. 1991. Heuristic model for predicting the intrusion rate of contaminant vapors into buildings. Environ Sci Technol 25: 14451452.
  • 6
    Waitz M, Freijer JI, Kreule P, Swartjes FA. 1996. The VOLASOIL risk assessment model based on CSOIL for soils contaminated with volatile compounds. RIVM 715810014. RIVM National Institute for Public Health and the Environment, Bilthoven, The Netherlands, p 189.
  • 7
    Proovost J, Reijnders L, Swartjes F, Bronders J, Seuntjes P. 2009. Accuracy of seven vapour intrusion algorithms for VOC in groundwater. J Soils Sediments 9: 6273.
  • 8
    McHugh T, Conor AJ, Ahmad F. 2004. An empirical analysis of the groundwater-to-indoor-air exposure pathway: The role of background concentrations in indoor air. Environ Forensics 5: 3344.
  • 9
    van Wijnen H, Lijzen J. 2006. Validation of the VOLASOIL model using air measurements from Dutch contaminated sites—Concentrations of four chlorinated compounds. RIVM 711701041. RIVM National Institute for Public Health and the Environment, Bilthoven, The Netherlands, p 68.
  • 10
    Davis GB, Rayner JL, Trefry MG, Fischer SJ, Patterson BM. 2005. Measurement and modeling of temporal variations in hydrocarbon vapor behavior in a layered soil profile. Vadose Zone J 4: 225239.
  • 11
    Mendoza CA, McAlary TA. 1990. Modeling of ground-water contamination caused by organic solvent vapors. Ground Water 28: 199206.
  • 12
    Tillman JFD, Weaver JW. 2007. Temporal moisture content variability beneath and external to a building and the potential effects on vapor intrusion risk assessment. Sci Total Envir 379: 115.
  • 13
    Garbesi K, Sextro RG. 1989. Modeling and field evidence of pressure-driven entry of soil gas into a house through permeable below-grade walls. Environ Sci Technol 23: 14811487.
  • 14
    Massmann J, Farrier DF. 1992. Effects of atmospheric pressure on gas transport in the vadose zone. Water Resour Res 28: 777791.
  • 15
    Abreu LDV, Johnson PC. 2006. Simulating the effect of aerobic biodegradation on soil vapor intrusion into buildings: influence of degradation rate, source concentration, and depth. Environ Sci Technol 40: 23042315.
  • 16
    Hers I, Atwater J, Li L, Zapf-Gilje R. 2000. Evaluation of vadose zone biodegradation of BTX vapours. J Contam Hydrol 46: 233264.
  • 17
    Mendoza CA, Frind EO. 1990. Advective–dispersive transport of dense organic vapors in the unsaturated zone. 2. Sensitivity analysis. Water Resour Res 26: 388398.
  • 18
    Johnson PC, Kemblowski MW, Johnson RL. 1999. Assessing the significance of subsurface contaminant vapor migration to enclosed spaces: Site-specific alternatives to generic estimates. Soil Sediment Contam 8: 389421.
  • 19
    Atteia O, Hoehener P. 2010. Semianalytical model predicting transfer of volatile pollutants from groundwater to the soil surface. Environ Sci Technol 44: 66286232.
  • 20
    Abreu LDV, Ettinger R, McAlary T. 2009. Simulated soil vapor intrusion attenuation factors including biodegradation for petroleum hydrocarbons. Ground Water Monit Remed 29: 105117.
  • 21
    Parker JC. 2002. Modeling volatile chemical transport, biodecay, and emission to indoor air. Ground Water Monit Remed 23: 107120.
  • 22
    McCarthy KA, Johnson RL. 1993. Transport of volatile organic compounds across the capillary fringe. Water Resour Res 29: 16751683.
  • 23
    Popovicova J, Brusseau ML. 1998. Contaminant mass transfer during gas-phase transport in unsaturated porous media. Water Resour Res 34: 8392.
  • 24
    Hamamoto S, Moldrup P, Kawamoto K, Komatsu T. 2009. Effect of particle size and soil compaction on gas transport parameters in variably saturated, sandy soils. Vadose Zone J 8: 986995.
  • 25
    Klenk ID, Grathwohl P. 2002. Transverse vertical dispersion in groundwater and the capillary fringe. J Contam Hydrol 58: 111128.
  • 26
    Silliman SE, Berkowitz B, Simunek J, Van Genuchten MT. 2002. Fluid flow and solute migration within the capillary fringe. Ground Water 40: 7684.
  • 27
    Bouwer EJ, Zehnder AJB. 1993. Bioremediation of organic compounds—Putting microbial metabolism to work. Trends Biotechnol 11: 360367.
  • 28
    White M, Oostrom M. 2004. STOMP: Subsurface transport over multiple phases, Ver 2.0. PNNL-12030. Pacific Northwest National Laboratory, Richland, WA, USA.
  • 29
    Lahvis MA, Baehr AL. 1998. Documentation of R-UNSAT. A computer model for the simulation of reactive transport in the unsaturated zone. U.S. Geological Survey, Rolla, MO. pp 97-630.
  • 30
    Simunek J, Kodesova R, Gribb MM, Van Genuchten MT. 1999. Estimating hysteresis in the soil water retention function from cone permeameter experiments. Water Resour Res 35: 13291345.
  • 31
    Oostrom M, Rockhold ML, Thorne PD, Truex MJ, Last GV, Rohay VJ. 2007. Carbon tetrachloride flow and transport in the subsurface of the 216-Z-9 trench at the Hanford site. Vadose Zone J 6: 971984.
  • 32
    Millington RJ, Quirk JP. 1959. Permeability of porous media. Nature 183: 387388.
  • 33
    Brooks H, Corey AT. 1966. Properties of porous media affecting fluid flow. J Irrig Drain Eng 93: 6188.
  • 34
    Lenhard RJ, Parker JC, Mishra S. 1989. On the correspondance between Brooks-Corey and Van Genuchten models. J Irrig Drain Eng 115: 744751.
  • 35
    Mualem Y. 1976. A new model for predicting the hydraulic conductivity of unsaturated porous media. Water Resour Res 12: 513522.
  • 36
    Bird RB, Stewart WE, Lightfoot EN. 1960. Transport Phenomena. John Wiley & Sons, New York, NY, USA.
  • 37
    Van der Sluijs P, De Gruijter JJ. 1985. Water table classes: A method to describe seasonal fluctuation and duration of water tables on Dutch soil maps. Agric Water Manag 10: 109125.
  • 38
    Schulze-Makuch D. 2005. Longitudinal dispersivity data and implications for scale behavior. Ground Water 43: 443456.
  • 39
    Suarez M, Rifai H. 1999. Biodegradation rates for fuel hydrocarbons and chlorinated solvents in groundwater. Bioremediation J 3: 337362.
  • 40
    Clement TP. 1997. RT3D, Ver 1.0. A modular computer code for simulating reactive multi-species transport in 3-dimensional groundwater systems. Pacific Northwest National Laboratory, Richland, WA, USA.
  • 41
    Stoop P, Glastra P, Hiemstra Y, de Vries L, Lembrechts J. 1998. Results of the second Dutch national survey on radon in dwellings. RIVM 610058006. RIVM National Institute for Public Health and the Environment, Bilthoven, The Netherlands.
  • 42
    Turczynowicz L, Robinson NI. 2001. A model to derive soil criteria for benzene migrating from soil to dwelling interior in homes with crawl spaces. Hum Ecol Risk Assess 7: 387415.
  • 43
    Yao Y, Shen R, Pennell KG, Suuberg EM. 2011. Comparison of the Johnson and Ettinger vapor intrusion screening model predictions with full three-dimensional model results. Environ Sci Technol 45: 22272235.
  • 44
    VROM. 2009. Circulaire Bodemsanering. Staatscourant 67. Ministry of Housing, Spatial Planning, and the Environment of The Netherlands, Den Haag, The Netherlands.
  • 45
    Janssen MPM. 2003. Modeling ventilation and radon in new Dutch dwellings. Indoor Air 13: 118127.
  • 46
    Parker JC. 2003. Physical processes affecting natural depletion of volatile chemicals in soil and groundwater. Vadose Zone J 2: 222230.
  • 47
    Arands R, Lam T, Massry I, Berler DH, Muzzio FJ, Kosson DS. 1997. Modeling and experimental validation of volatile organic contaminant diffusion through an unsaturated soil. Water Resour Res 33: 599609.
  • 48
    Patterson BM, Davis GB. 2009. Quantification of vapor intrusion pathways into a slab-on-ground building under varying environmental conditions. Environ Sci Technol 43: 650656.
  • 49
    Werner D, Hoehener P. 2001. The influence of water table fluctuations on the volatilization of contaminants from groundwater. In Thornton SF, Oswald SE, eds, Groundwater Quality: Natural and Enhanced Restoration of Groundwater Pollution. Proceedings of the Groundwater Quality 2001 conference, Sheffield, United Kingdom, June, 2001.
  • 50
    Inoue A, Horikoshi K. 1991. Estimation of solvent-tolerance of bacteria by the solvent parameter log P. J Ferment Bioeng 71: 194196.
  • 51
    U.S. Environmental Protection Agency. 2004. User's guide for evaluating vapor intrusion into buildings. Office of Emergency and Remedial Response, Washington, DC, p 133.