{"id":167,"date":"2020-12-25T18:39:39","date_gmt":"2020-12-25T18:39:39","guid":{"rendered":"https:\/\/books.gw-project.org\/groundwater-velocity\/?post_type=part&p=167"},"modified":"2020-12-26T05:54:31","modified_gmt":"2020-12-26T05:54:31","slug":"7-references","status":"publish","type":"part","link":"https:\/\/books.gw-project.org\/groundwater-velocity\/part\/7-references\/","title":{"raw":"7 References","rendered":"7 References"},"content":{"raw":"
\r\n

Aley, T, 2002, Groundwater Tracing Handbook. Ozark Underground Laboratory, 1572 Aley Lane, Protem, Missouri, 65733, 35 pages.<\/p>\r\n

Anderson, M.P., 1984, Movement of Contaminants in Groundwater: Groundwater Transport-Advection and Dispersion. Geophysics Study Committee (editors), Studies in Geophysics, National Academy Press, Washington, District of Columbia, USA, pages 37-45.<\/p>\r\n

Ballard, S., 1996, The in situ permeable flow sensor: a ground-water flow velocity meter. Ground Water, volume 34, number 2, pages 231-240.<\/p>\r\n

Ballard, S., G.T. Barker, R.L. Nichols, 1996, A test of the in situ permeable flow sensor at Savannah River, South Carolina, Groundwater, volume 34, number 3, pages 389-396.<\/p>\r\n

Barcelona, M.J., T. Holm, 1991, Oxidation-reduction capacities of aquifer solids. Environmental Science and Technology, volume 25, number 9, pages 1565-1572.<\/p>\r\n

Bedient, P.B., H.S. Rifai, C.J. Newell, 1994, Groundwater contamination, transport and remediation. Prentice-Hall Incorporated, Englewood Cliffs, New Jersey, USA. 542 pages.<\/p>\r\n

Begley, R., 1996, Risk-based remediation guidelines take hold. Environmental Science and Technology, volume 30, number 10, pages. 438A-441A.<\/p>\r\n

Belland-Pelletier, C., M. Fraser, J.F. Barker, T. Ptak, 2011, Estimating contaminant mass discharge: A field comparison of the multilevel point measurement and the integral pumping investigation approaches and their uncertainties. Journal of Contaminant Hydrology, volume 122, pages 63-75.<\/p>\r\n

Bright, J., F. Wang, M. Close, 2002, Influence of the amount of available K data on uncertainty about contaminant transport prediction. Ground Water, volume 40, number 5, pages 529-534.<\/p>\r\n

Brouyere, S., J. Batle-Aguilar, P. Goderniaux, A. Dassargues, 2008, A new tracer technique for monitoring groundwater fluxes: the finite volume point dilution method. Journal of Contaminant Hydrology, volume 95, pages 121-140.<\/p>\r\n

Butler, J.J. Jr., J.M. Healey, 1998, Relationship between pumping-test and slug-test parameters: scale effect or artifact? Ground Water, volume 36, number 2, pages 305-313.<\/p>\r\n

Cherry, J.A., 1990, Groundwater monitoring: some deficiencies and opportunities. Hazardous Waste Site Investigations, Towards Better Decisions, Proceedings of the 10th Oak Ridge National Laboratory Life Sciences Symposium, Gatlinburg, Tennessee, May 21-24.<\/p>\r\n

Clement, T.P., M.J. Truex, B.S. Hooker, 1997, Two-well test method for determining hydraulic properties of aquifers. Ground Water, volume 35, number 4, pages 698-703.<\/p>\r\n

Cook, P., 2020, Introduction to isotopes and environmental tracers as indicators of groundwater flow. The Groundwater Project, Guelph, Ontario, 74 pages.<\/p>\r\n

Crawford, A.J., N.B. Chang, 2016, Developing groundwater variability probes and wireless sensor networks for characterizing the subsurface low flow field. IEEE Sensors Journal, volume 16, number 1, pages 153-162.<\/p>\r\n

Davis, S.N., G.M. Thompson, H.W. Bentley, G. Stilesa, 1980, Ground-water tracers - a short review. Ground Water, volume 18, number 1, pages 14-23.<\/p>\r\n

Devlin, J.F., C.M. McElwee, 2007, Effects of measurement error on horizontal hydraulic gradient estimates in an alluvial aquifer. Groundwater, volume 45, number l, pages 62-73.<\/p>\r\n

Drost, W., 1983, Single well techniques. Tracer Methods in<\/em> Isotope Hydrology. Proceedings of an Advisory Group Meeting Organized by The International Atomic Energy Agency, Vienna, 27 September to 1 October, 1982.<\/p>\r\n

Einarson, M.D., D.M. Mackay, 2001, Predicting impacts of groundwater contamination. Environmental Science and Technology, volume 35, number 3, pages 66A-73A.<\/p>\r\n

Essouayed, E., M.D. Annable, M. Momtbrun, O. Atteia, 2019, An innovative tool for groundwater velocity measurement compared with other tools in laboratory and field tests. Journal of Hydrology X, volume 2, 100008, pages 1-9.<\/p>\r\n

Geyer, T., S. Birk, T. Licha, R. Liedl, M. Sauter, 2007, Multitracer test approach to characterize reactive transport in karst aquifers. Groundwater, volume 45, number 1, pages 36-45.<\/p>\r\n

Gibson, B., J.F. Devlin, 2018, Laboratory validation of a point velocity probe for measuring horizontal flow from any direction. Journal of Contaminant Hydrology, volume 208, pages 10-16.<\/p>\r\n

Gupta, S.K., L.S. Lau, P.S. Moravcik, 1994, Ground-water tracing with injected helium. Ground Water, volume 32, number 1, pages 96-102.<\/p>\r\n

Hatfield, K., M. Annable, J. Cho, P.S.C. Rao, H. Klammler, 2004, A direct passive method for measuring water and contaminant fluxes in porous media. Journal of Contaminant Hydrology, volume 75, pages 155-181.<\/p>\r\n

Kearl, P.M., K. Roemer, 1998, Evaluation of groundwater flow directions in a heterogeneous aquifer using the colloidal borescope. Advances in Environmental Research, volume 2, number 1, pages 12-23.<\/p>\r\n

Keller, C.E., J.A. Cherry, B.L. Parker, 2013, New method for continuous transmissivity profiling in Fractured rock. Groundwater, volume 52, number 3, pages 352-367.<\/p>\r\n

Kerfoot, W.B., V.A. Massard, 1985, Monitoring well screen influences on direct flowmeter measurements. Groundwater Monitoring Review, volume 5, number 4, pages 74-77.<\/p>\r\n

Klammler, H., K. Hatfield, M.A. Newman, J. Cho, M.D. Annable, B.L. Parker, J.A. Cherry, I. Perminova, 2016, A new device for characterizing fracture networks and measuring groundwater and contaminant fluxes in fractured rock aquifers. Water Resources Research, volume 52, pages 5400\u20135420, doi:10.1002\/2015WR018389<\/span><\/a>.<\/p>\r\n

Labaky, W., J.F. Devlin, R.W. Gillham, 2007, Probe for measuring groundwater velocity at the centimeter scale. Environmental Science and Technology, volume 41, number 24, pages 8453-8458.<\/p>\r\n

Luhmann, A.J., M.D. Covington, S.C. Alexander, S.Y. Chai, B.F. Schwartz, J.T. Groten, E.C. Alexander Jr., 2012, Comparing conservative and nonconservative tracers in karst and using them to estimate flow path geometry. Journal of Hydrology, volumes 448-449, pages 201-211, doi.org\/10.1016\/j.jhydrol.2012.04.044<\/span><\/a>.<\/p>\r\n

McKay, L.D., W.E. Sanford, J.M. Strong, 2000, Field-scale migration of colloidal tracers in a fractured shale saprolite. Ground Water, volume 38, number 1, pages 139-147.<\/p>\r\n

McNab, W.W., B.P. Dooher, 1998, A critique of a steady-state analytical method for estimating contaminant degradation rates. Ground Water, volume 36, number 6, pages 983-987.<\/p>\r\n

Morris, D.A., A. I. Johnson, 1967, Summary of hydrologic and physical properties of rock and soil materials, as analyzed by the Hydrologic Laboratory of the U.S. Geological Survey, 1948-60. Geological Survey Water-Supply Paper 1839--D, United States Government Printing Office, Washington, 42 pages.<\/p>\r\n

Osorno, T., J.F. Devlin, 2018, An in-well point velocity probe for the rapid characterization of groundwater velocity at the centimeter-scale. Journal of Hydrology, volume 557, pages 539-546.<\/p>\r\n

Pehme, P.E., B.L. Parker, J.A. Cherry, J.P. Greenhouse, 2010, Improved resolution of ambient flow through fractured rock with temperature logs. Ground Water, volume 48, number 2, pages 191-205.<\/p>\r\n

Post, V., J.R. von Asmuth, 2013, Review: Hydraulic head measurements\u2014new technologies, classic pitfalls. Hydrogeology Journal, volume 21, pages 737\u2013750.<\/p>\r\n

Rifai, H.S., and P.B. Bedient, 1990, Comparison of biodegradation kinetics with an instantaneous reaction model for groundwater. Water Resources Research, volume 26, number 4, pages 637-645.<\/p>\r\n

Sale, T., Gallo, S., Askarani, K.K., Irianni-Renno, M., Lyverse, M., Jopkins, H., Blotevogel, J., Burge, S. 2020. Real-time soil and groundwater monitoring via spatial and temporal resolution of biogeochemical potentials. Journal of Hazardous Materials. accesses at https:\/\/doi.org\/10.1016\/j.jhazmat.2020.124403<\/span><\/a>, November 26, 2020.<\/p>\r\n

Schillig, P., J.F. Devlin, M. McGlashan, G. Tsoflias, J.A. Roberts, 2011, Transient heterogeneity in an aquifer undergoing bioremediation of hydrocarbons. Ground Water, volume 49, number 2, pages 184-196.<\/p>\r\n

Sterling, S.N., B.L. Parker, J.A. Cherry, J.H. Williams, J.W. Lane, F.P. Haeni, 2005, Vertical cross contamination of trichloroethylene in a borehole in fractured sandstone. Ground Water, volume 43, number 4, pages 557-573.<\/p>\r\n

Su, G.W., B.M. Freifeld, C.M. Oldenburg, P.D. Jordan, P.F. Daley, 2006, Interpreting velocities from heat-based flow sensors by numerical simulation. Ground Water, volume 44, number 3, pages 386-393.<\/p>\r\n

Sudicky, E.A., and J.A. Cherry, 1979, Field observations of tracer dispersion under natural flow conditions in an unconfined sandy aquifer. Water Pollution Research Journal of Canada, volume 14, pages 1-17.<\/p>\r\n

van der Kamp, G., 1992, Evaluating the effects of fractures on solute transport through fractured clayey aquitards. Proceedings of the 1992 Conference of the International Association of Hydrogeologists, Canadian National Chapter, Hamilton, Ontario, May, 9 pages.<\/p>\r\n

Vulava, V.M., E. B. Perry, C.S. Romanek, J.C. Seaman, 2002, Dissolved gases as partitioning tracers for determination of hydrogeological parameters. Environmental Science and Technology, volume 36, number 2, pages 254-262.<\/p>\r\n\r\n<\/div>","rendered":"

\n

Aley, T, 2002, Groundwater Tracing Handbook. Ozark Underground Laboratory, 1572 Aley Lane, Protem, Missouri, 65733, 35 pages.<\/p>\n

Anderson, M.P., 1984, Movement of Contaminants in Groundwater: Groundwater Transport-Advection and Dispersion. Geophysics Study Committee (editors), Studies in Geophysics, National Academy Press, Washington, District of Columbia, USA, pages 37-45.<\/p>\n

Ballard, S., 1996, The in situ permeable flow sensor: a ground-water flow velocity meter. Ground Water, volume 34, number 2, pages 231-240.<\/p>\n

Ballard, S., G.T. Barker, R.L. Nichols, 1996, A test of the in situ permeable flow sensor at Savannah River, South Carolina, Groundwater, volume 34, number 3, pages 389-396.<\/p>\n

Barcelona, M.J., T. Holm, 1991, Oxidation-reduction capacities of aquifer solids. Environmental Science and Technology, volume 25, number 9, pages 1565-1572.<\/p>\n

Bedient, P.B., H.S. Rifai, C.J. Newell, 1994, Groundwater contamination, transport and remediation. Prentice-Hall Incorporated, Englewood Cliffs, New Jersey, USA. 542 pages.<\/p>\n

Begley, R., 1996, Risk-based remediation guidelines take hold. Environmental Science and Technology, volume 30, number 10, pages. 438A-441A.<\/p>\n

Belland-Pelletier, C., M. Fraser, J.F. Barker, T. Ptak, 2011, Estimating contaminant mass discharge: A field comparison of the multilevel point measurement and the integral pumping investigation approaches and their uncertainties. Journal of Contaminant Hydrology, volume 122, pages 63-75.<\/p>\n

Bright, J., F. Wang, M. Close, 2002, Influence of the amount of available K data on uncertainty about contaminant transport prediction. Ground Water, volume 40, number 5, pages 529-534.<\/p>\n

Brouyere, S., J. Batle-Aguilar, P. Goderniaux, A. Dassargues, 2008, A new tracer technique for monitoring groundwater fluxes: the finite volume point dilution method. Journal of Contaminant Hydrology, volume 95, pages 121-140.<\/p>\n

Butler, J.J. Jr., J.M. Healey, 1998, Relationship between pumping-test and slug-test parameters: scale effect or artifact? Ground Water, volume 36, number 2, pages 305-313.<\/p>\n

Cherry, J.A., 1990, Groundwater monitoring: some deficiencies and opportunities. Hazardous Waste Site Investigations, Towards Better Decisions, Proceedings of the 10th Oak Ridge National Laboratory Life Sciences Symposium, Gatlinburg, Tennessee, May 21-24.<\/p>\n

Clement, T.P., M.J. Truex, B.S. Hooker, 1997, Two-well test method for determining hydraulic properties of aquifers. Ground Water, volume 35, number 4, pages 698-703.<\/p>\n

Cook, P., 2020, Introduction to isotopes and environmental tracers as indicators of groundwater flow. The Groundwater Project, Guelph, Ontario, 74 pages.<\/p>\n

Crawford, A.J., N.B. Chang, 2016, Developing groundwater variability probes and wireless sensor networks for characterizing the subsurface low flow field. IEEE Sensors Journal, volume 16, number 1, pages 153-162.<\/p>\n

Davis, S.N., G.M. Thompson, H.W. Bentley, G. Stilesa, 1980, Ground-water tracers – a short review. Ground Water, volume 18, number 1, pages 14-23.<\/p>\n

Devlin, J.F., C.M. McElwee, 2007, Effects of measurement error on horizontal hydraulic gradient estimates in an alluvial aquifer. Groundwater, volume 45, number l, pages 62-73.<\/p>\n

Drost, W., 1983, Single well techniques. Tracer Methods in<\/em> Isotope Hydrology. Proceedings of an Advisory Group Meeting Organized by The International Atomic Energy Agency, Vienna, 27 September to 1 October, 1982.<\/p>\n

Einarson, M.D., D.M. Mackay, 2001, Predicting impacts of groundwater contamination. Environmental Science and Technology, volume 35, number 3, pages 66A-73A.<\/p>\n

Essouayed, E., M.D. Annable, M. Momtbrun, O. Atteia, 2019, An innovative tool for groundwater velocity measurement compared with other tools in laboratory and field tests. Journal of Hydrology X, volume 2, 100008, pages 1-9.<\/p>\n

Geyer, T., S. Birk, T. Licha, R. Liedl, M. Sauter, 2007, Multitracer test approach to characterize reactive transport in karst aquifers. Groundwater, volume 45, number 1, pages 36-45.<\/p>\n

Gibson, B., J.F. Devlin, 2018, Laboratory validation of a point velocity probe for measuring horizontal flow from any direction. Journal of Contaminant Hydrology, volume 208, pages 10-16.<\/p>\n

Gupta, S.K., L.S. Lau, P.S. Moravcik, 1994, Ground-water tracing with injected helium. Ground Water, volume 32, number 1, pages 96-102.<\/p>\n

Hatfield, K., M. Annable, J. Cho, P.S.C. Rao, H. Klammler, 2004, A direct passive method for measuring water and contaminant fluxes in porous media. Journal of Contaminant Hydrology, volume 75, pages 155-181.<\/p>\n

Kearl, P.M., K. Roemer, 1998, Evaluation of groundwater flow directions in a heterogeneous aquifer using the colloidal borescope. Advances in Environmental Research, volume 2, number 1, pages 12-23.<\/p>\n

Keller, C.E., J.A. Cherry, B.L. Parker, 2013, New method for continuous transmissivity profiling in Fractured rock. Groundwater, volume 52, number 3, pages 352-367.<\/p>\n

Kerfoot, W.B., V.A. Massard, 1985, Monitoring well screen influences on direct flowmeter measurements. Groundwater Monitoring Review, volume 5, number 4, pages 74-77.<\/p>\n

Klammler, H., K. Hatfield, M.A. Newman, J. Cho, M.D. Annable, B.L. Parker, J.A. Cherry, I. Perminova, 2016, A new device for characterizing fracture networks and measuring groundwater and contaminant fluxes in fractured rock aquifers. Water Resources Research, volume 52, pages 5400\u20135420, doi:10.1002\/2015WR018389<\/span><\/a>.<\/p>\n

Labaky, W., J.F. Devlin, R.W. Gillham, 2007, Probe for measuring groundwater velocity at the centimeter scale. Environmental Science and Technology, volume 41, number 24, pages 8453-8458.<\/p>\n

Luhmann, A.J., M.D. Covington, S.C. Alexander, S.Y. Chai, B.F. Schwartz, J.T. Groten, E.C. Alexander Jr., 2012, Comparing conservative and nonconservative tracers in karst and using them to estimate flow path geometry. Journal of Hydrology, volumes 448-449, pages 201-211, doi.org\/10.1016\/j.jhydrol.2012.04.044<\/span><\/a>.<\/p>\n

McKay, L.D., W.E. Sanford, J.M. Strong, 2000, Field-scale migration of colloidal tracers in a fractured shale saprolite. Ground Water, volume 38, number 1, pages 139-147.<\/p>\n

McNab, W.W., B.P. Dooher, 1998, A critique of a steady-state analytical method for estimating contaminant degradation rates. Ground Water, volume 36, number 6, pages 983-987.<\/p>\n

Morris, D.A., A. I. Johnson, 1967, Summary of hydrologic and physical properties of rock and soil materials, as analyzed by the Hydrologic Laboratory of the U.S. Geological Survey, 1948-60. Geological Survey Water-Supply Paper 1839–D, United States Government Printing Office, Washington, 42 pages.<\/p>\n

Osorno, T., J.F. Devlin, 2018, An in-well point velocity probe for the rapid characterization of groundwater velocity at the centimeter-scale. Journal of Hydrology, volume 557, pages 539-546.<\/p>\n

Pehme, P.E., B.L. Parker, J.A. Cherry, J.P. Greenhouse, 2010, Improved resolution of ambient flow through fractured rock with temperature logs. Ground Water, volume 48, number 2, pages 191-205.<\/p>\n

Post, V., J.R. von Asmuth, 2013, Review: Hydraulic head measurements\u2014new technologies, classic pitfalls. Hydrogeology Journal, volume 21, pages 737\u2013750.<\/p>\n

Rifai, H.S., and P.B. Bedient, 1990, Comparison of biodegradation kinetics with an instantaneous reaction model for groundwater. Water Resources Research, volume 26, number 4, pages 637-645.<\/p>\n

Sale, T., Gallo, S., Askarani, K.K., Irianni-Renno, M., Lyverse, M., Jopkins, H., Blotevogel, J., Burge, S. 2020. Real-time soil and groundwater monitoring via spatial and temporal resolution of biogeochemical potentials. Journal of Hazardous Materials. accesses at https:\/\/doi.org\/10.1016\/j.jhazmat.2020.124403<\/span><\/a>, November 26, 2020.<\/p>\n

Schillig, P., J.F. Devlin, M. McGlashan, G. Tsoflias, J.A. Roberts, 2011, Transient heterogeneity in an aquifer undergoing bioremediation of hydrocarbons. Ground Water, volume 49, number 2, pages 184-196.<\/p>\n

Sterling, S.N., B.L. Parker, J.A. Cherry, J.H. Williams, J.W. Lane, F.P. Haeni, 2005, Vertical cross contamination of trichloroethylene in a borehole in fractured sandstone. Ground Water, volume 43, number 4, pages 557-573.<\/p>\n

Su, G.W., B.M. Freifeld, C.M. Oldenburg, P.D. Jordan, P.F. Daley, 2006, Interpreting velocities from heat-based flow sensors by numerical simulation. Ground Water, volume 44, number 3, pages 386-393.<\/p>\n

Sudicky, E.A., and J.A. Cherry, 1979, Field observations of tracer dispersion under natural flow conditions in an unconfined sandy aquifer. Water Pollution Research Journal of Canada, volume 14, pages 1-17.<\/p>\n

van der Kamp, G., 1992, Evaluating the effects of fractures on solute transport through fractured clayey aquitards. Proceedings of the 1992 Conference of the International Association of Hydrogeologists, Canadian National Chapter, Hamilton, Ontario, May, 9 pages.<\/p>\n

Vulava, V.M., E. B. Perry, C.S. Romanek, J.C. Seaman, 2002, Dissolved gases as partitioning tracers for determination of hydrogeological parameters. Environmental Science and Technology, volume 36, number 2, pages 254-262.<\/p>\n<\/div>\n","protected":false},"parent":0,"menu_order":7,"template":"","meta":{"pb_part_invisible":false,"pb_part_invisible_string":""},"contributor":[],"license":[],"class_list":["post-167","part","type-part","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/books.gw-project.org\/groundwater-velocity\/wp-json\/pressbooks\/v2\/parts\/167","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/books.gw-project.org\/groundwater-velocity\/wp-json\/pressbooks\/v2\/parts"}],"about":[{"href":"https:\/\/books.gw-project.org\/groundwater-velocity\/wp-json\/wp\/v2\/types\/part"}],"version-history":[{"count":1,"href":"https:\/\/books.gw-project.org\/groundwater-velocity\/wp-json\/pressbooks\/v2\/parts\/167\/revisions"}],"predecessor-version":[{"id":169,"href":"https:\/\/books.gw-project.org\/groundwater-velocity\/wp-json\/pressbooks\/v2\/parts\/167\/revisions\/169"}],"wp:attachment":[{"href":"https:\/\/books.gw-project.org\/groundwater-velocity\/wp-json\/wp\/v2\/media?parent=167"}],"wp:term":[{"taxonomy":"contributor","embeddable":true,"href":"https:\/\/books.gw-project.org\/groundwater-velocity\/wp-json\/wp\/v2\/contributor?post=167"},{"taxonomy":"license","embeddable":true,"href":"https:\/\/books.gw-project.org\/groundwater-velocity\/wp-json\/wp\/v2\/license?post=167"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}