연구동향 분석
박사

열전달을 통한 지표수-지하수 혼합구역의 깊이 추산 및 특성에 관한 연구 : Estimation of hyporheic zone depth based on advective heat transfer and characterization of the surface water-groundwater mixing zone

김희정 2015년

논문상세정보
인용/피인용
' 열전달을 통한 지표수-지하수 혼합구역의 깊이 추산 및 특성에 관한 연구 : Estimation of hyporheic zone depth based on advective heat transfer and characterization of the surface water-groundwater mixing zone' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • delineation of hyporheic zone
  • microbial community
  • numerical analysis
  • surface-groundwater interactions
  • water chemistry
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
285 0

0.0%

' 열전달을 통한 지표수-지하수 혼합구역의 깊이 추산 및 특성에 관한 연구 : Estimation of hyporheic zone depth based on advective heat transfer and characterization of the surface water-groundwater mixing zone' 의 참고문헌

  • Yun, S.Y., Jo, Y.J., Lee, J.Y. (2009) Comparison of groundwater recharges estimated by water level fluctuation and hydrograph separation in Haean basin of Yanggu. J Geol Soc Korea 45(4): 391-404 (in Korean)
  • Woessner, W.W., Sullivan, K.E. (1984) Results of seepage meter and minipiezometer study, Lake Mead, Nevada. Ground Water 22(5): 561-568
  • Winto, E.F. (1997) Nitrate in drinking water, Journal of American Water Works Association, Vol. 63, pp. 95-104
  • Winter, T.C., Harvey, J.W., Franke, O.L. and Alley, W.M. (1998) Groundwater and surface water, a single resource, USGS Circular 1139
  • Wilks, D.S. (1995) Statistical methods in the atmospheric sciences. Academic Press, 467p
  • White, D. S. (1993). Perspectives on defining and delineating hyporheic zones. Journal of the North American Benthological Society, 61-69
  • Wakida, F.T., Lerner, D.N.(2005) Non-agricultural sources of groundwater nitrate: a review and case study. Water Res. 39, 3-16
  • Vought, L.B.M. (1994) Nutrient retention in riparian ecotones, Ambio, Vol. 23, pp. 342-348
  • Vogt, T., Schneider, P., Hahn-Woermle, L., Cirpka, O.A. (2010) Estimation of seepage rates in a losing stream by means of fiberoptic high resolution vertical temperature profiling. J Hydrol 380: 154-164
  • Vega, M., Pardo, R., Barrado, E., Deban, L. (1998) Assessment of seasonal and polluting effects on the quality of river water by exploratory data analysis. Water Res 32:3581-3592
  • V r smarty, C.J., Green, P., Salisbury, J., Lammers, R.B. (2000) Global water resources: Vulnerability from climate and population growth. Science 289(5477): 284-288
  • Triska, F.J., Kennedy, V.C., Avanzino, R.J., Zellweger, G.W., Bencala, K.E. (1989) Retention and transport of nutrients in a third-order stream in northwestern California: Hyporheic processes. Ecol 70:1893-1905
  • Triska, F.J., Duff, J.H., Avanzino, R.J. (1993)The role of water exchange between a stream channel and its hyporheic zone in nitrogen cycling at the terrestrial-aquatic interface. Hydrobiol. 251, 167-184
  • Townsend, C.R., Arbuckle, C.J., Crowl, T.A., Scarscrook, M.R. (1997)The relationship between land use and physicochemistry, food resources and macroinvertebrate communities in tributaries of the Taieri River, New Zealand: A hierarchically scaled approach. Freshwater Biol. 37, 177-191
  • Tarara, J.M., Ham, J.M. (1997) Measuring soil water content in the laboratory and field with dual-probe heat capacity sensors. Agro. J. 89 (4), 535-542
  • Taniguchi, M., Turner, J.V., Smith, A.J. (2003) Evaluation of groundwater discharge rates from subsurface temperature in Cockburn Sound, Western Australia. Biogeochem. 66, 111-124
  • Taniguchi, M., Fukou, Y. (1993) Continuous measurements of groundwater seepage using an automatic seepage meter. Ground Water 31: 675-679
  • Surridge, B.W.J., Baird, A.J., Heathwaite, A.L. (2005) Evaluating the quality of hydraulic conductivity estimates from piezometer slug tests in peat. Hydrol. Proc. 19 (6), 1227-1244
  • Storey, R.G., Howard, K.W.F., Williams, D.D. (2003) Factors controlling riffle scale hyporheic exchange flows and their seasonal exchange in a gaining stream: a three-dimensional groundwater flow model. Water Resour Res 39: 1034
  • Stonestrom, D.A., Constantz, J.(2003) Heat as a tool for studying the movement of ground water nears streams. USGS, 1260, 1-96
  • Stonestrom, D.A., Constantz, J. (2004) Using temperature to study streamground water exchanges. USGS; Fact Sheet, 2004-3010, 1-4
  • Sterba, O., Uvira, V., Mathur, P., Rulik, M. (1992) Variations of the hyporheic zone through a riffle in the R. Morava, Czechoslovakia. Regulated Rivers: Res Manage 7:31-43
  • Stephen, J.R., McCagi, A.E., Smith, Z., Prosser, J.I. and Embley, T.M. (1996) Molecular diversity of soil and marine 16S rRNA gene sequences related to subgroup ammonia-oxidizing bacteria, Appl. Environ. Micribial, Vol. 62, pp. 4147-4157
  • Stallman, R.W.(1965) Steady one-dimensional fluid flow in a semi-infinite porous medium with sinusoidal surface temperature. J. Geophys. Res. 70 (12), 2821-2827
  • Stallman, R.W.(1963) Computation of groundwater velocity from temperature data in Methods of Collection and Interpreting Groundwater Data, USGS. Water Supply Paper, 1544-H, 26-46
  • Soulsby, C., Malcolm, I.H., Youngson, A.F., Tetzlaff, D., Gibbins, C.N., Hannah, D.M.(2005) Groundwater-surface water interactions in upland Scottish rivers: hydrological, hydrochemical and ecological implications. Scottish J. Geol. 41, 39-49
  • Sophocleous, M.A., Koussis, A., Martin, J.L., Perkins, S.P. (1995) Evaluation of simplified stream-aquifer depletion models for water rights administration. Ground Water 33:579-588
  • Sophocleous, M.A., Koelliker, J.K., Govindaraju, R.S., Birdie, T., Ramireddygan, S.R., Perkins, S.P. (1999) Integrated numerical modeling for basin-wide water management: The case of the Rattlesnake Creek basin in south-central Kansns. J Hydrol 214: 179-196
  • Smith, J.W.N. (2004) Groundwater-surface water interactions in the hyporheic zone, Environment Agency, Bristol. Science project number SC030155
  • Singh, K.P., Malik, A., Mohan, D., Sinha, S. (2004) Multivariate statistical techniques for the evaluation of spatial and temporal variations in water quality of Gomti River (India): a case study. Water Res 38:3980-3992
  • Simeonova, P., Simeonov, V., Andreev, G. (2003) Environmetric analysis of the Struma River water quality. Cent Euro J Chem 2:121-126
  • Silliman, S.E., Booth, D.F. (1993) Analysis of time-series measurements of sediment temperature for identification of gaining vs. losing portions of Juday Creek, Indiana. J. Hydrol. 146, 1-4
  • Shrestha, S., Kazama, F. (2007) Assessment of surface water quality using multivariate statistical techniques: A case study of the Fuji river basin, Japan. Environ. Model Software 22:464-475
  • Shomar, B., Osenbruck, K., Yahya, A. (2008) Elevated nitrate levels in the groundwater of Gaza strip: Distribution and sources. Sci. Total Environ. 398, 164-174
  • Sebestyen, S.D., Boyer, E.W., Shanley, J.B., Kendall, C., Doctor, D.H., Aiken, G.R., Ohte, N.(2008) Sources, transformations, and hydrological processes that control stream nitrate and dissolved organic matter concentrations during snowmelt in an upland forest. Water Resour. Res. 44, DOI: 10.1029/2008WR006983
  • Schiff, S.L., Aravena, R.O., Trumbore, S.E., Dillon, P.J.(1990) Dissolved organic carbon cycling in forested watersheds: A carbon isotope approach. Water Resour. Res. 26 (12), 2949-2957
  • Ruehl, C., Fisher, A.T., Hatch, C., Huertos, M.L., Stemler, G., Shennan, C. (2006) Differential gauging and tracer tests resolve seepage fluxes in a strongly-losing stream. J Hydrol 330: 235-248
  • Rosenberry, D.O., Pitlick, J.(2009) Effects of sediment transport and seepage direction on hydraulic properties at the sediment-water interface of hyporheic settings. J. Hydrol. 373, 377-391
  • Rosenberry, D.O., Pitlick, J. (2009) Effects of sediment transport and seepage direction on hydraulic properties at the sediment- water interface of hyporheic settings. J Hydrol 359: 118-130
  • Rosenberry, D.O., Morin, R. H.(2004) Use of an electromagnetic seepage meter to investigate temporal variability in lake seepage. Ground Water 42, 68-77
  • Rosenberry, D.O., Menheer, M.A. (2006) A system for calibrating seepage meters used to measure flow between groudwater and surface water. USGS Scientific Investigations Rep. 2006-5053. USGS, Washington, DC
  • Rosenberry, D.O., Klos, P.Z., Neal, A.(2012) In situ quantification of spatial and temporal variability of hyporheic exchange in static and mobile gravelbed rivers. Hydrol. Proc. 26, 604-612
  • Rosenberry, D.O., Klos, P.Z., Neal, A. (2012) In situ quantification of spatial and temporal variability of hyporheic exchange in static and mobile gravelbed rivers. Hydrol Process 26: 604-612
  • Rosenberry, D.O. (2008) Seepage meter designed for use in flowing water. J. Hydrol. 359, 118-130
  • Rosenberry, D.O. (2008) A Seepage meter designed for use in flowing water. J Hydrol 359: 118-130
  • Reghunath, R., Murthy, T.R.S., Raghavan, B.R. (2002) The utility of multivariate statistical techniques in hydrogeochemical studies: an example from Karnataka, India. Water Res 36:2437-2442
  • Randall, J.H., Mac Strand and John, F.W. (2006) Measuring groundwater - surface water interaction and its effect on wetland stream benthic productivity, Trout lake watershed, northern Wisconsin, USA, Journal of hydrology, Vol. 320, pp. 370-384
  • Rand, M.C., Greenberg, A.E., Taras, M.J. (1992) Standard methods for the examination of water and wastewater. APHA (American Public Health Association), Washington DC
  • Peter, J.H. (2002) Human impacts on the stream-groundwater exchange zone, Environmental Management, Vol. 6, pp. 763-781
  • Parker, J.T.C., Fossum, K.D., Ingersoll, T.L.(2000) Chemical characteristics of stormwater sediments and implication for environmental management, Maricopa County, Arizona. Environ. Manage. 26, 99-115
  • Panno, S.V., Hackley, K.C., Hwang, H.H., Greenberg, S.E., Krapac, I.G., Landsberger, S., O’Kelly, D.J. (2006) Characterization and identification of Na-Cl sources in ground water. Ground Water 44:176-187
  • Orghidan, T. (1992) Ein neuer lebenstraum des unterirdischen wassers, der hyporheische biotop, Archivfur Hydrobiologi., 55, 392-414
  • Oberdorfer, J.A. (2003) Hydrologic modeling of submarine groundwater discharge: comparison to other quantitative methods. Biogeochem 66: 159- 169
  • Murdoch, L.C., Kelly, S.E.(2003) Factors affecting the performance of conventional seepage meters. Water Resour. Res. 39 (6), DOI: 10.1029/2002WR001347
  • Munhoven, G. (2002) Glacial-interglacial changes of continental weathering: estimates of the related CO2 and HCO3- flux variations and their uncertainties. Global Planet Change 33:155-176
  • Molona-Giraldo, N., Bayer, B., Blum, P.(2011) Evaluating the influence of thermal dispersion on temperature plumes from geothermal systems using analytical solutions. Int. J. Thermal Sci. 50 (7), 1223-1231
  • Mengis, M., Schiff, S.L., Harris, M., English, M.C., Aravena, R., Elgood, R.J., MacLean, A. (1999) Multiple geochemical and isotopic approaches for assessing groundwater NO3- elimination in riparian zone. Ground Water 37 (3) 448-457
  • McKenna, J.E. (2003) An enhanced cluster analysis program with bootstrap significance testing for ecological community analysis. Environ Model Software 18:205-220
  • Martin, P. (1996) The metabolism of organic matter in the hyporheic zone of a mountain stream, and its spatial distribution, Hydorobiologia, Vol. 323, pp. 107-118
  • Marmonier, P., Dole, M.J. (1986) Les Amphipodes des se diments d’un bras court-circuite du Rho?ne: logique de re partition et re action aux crues. Sci de l’eau 5:461?486
  • Malcolm, I.A., Soulsby, C., Youngson, A.F., Petry, J. (2003) Heterogeneity in ground water?surface water interactions in the hyporheic zone of a salmonid spawning stream: towards integrating hydrometric and tracer approaches. Hydrol Process 17:601?617
  • Malcolm, I.A., Soulsby, C., Youngson, A.F., Hannah, D.M., McLaren, I.S., Thorne, A. (2004) Hydrological influences in hyporheic water quality: implications for salmon egg survival. Hydrol Process 18:1543-1560
  • Lowry, C.S., Walker, J.F., Hunt, R.J., Anderson, M.P. (2007) Identifying spatial variation of groundwater discharge in a wetland stream using a distributed temperature sensor. Water Resour Res 43: , DOI: 10.1029/2007WR006145
  • Lee, J.Y.,Lee, K.S.,Park, Y., Choi, H.M., Jo, Y.J. (2012) Chemical and isotopic compositions of groundwater and stream water in a?basin,?Korea: indication of fast circulation. J Geol Soc India (submitted)
  • Lee, J.Y., Lee, K.K. (2000) Use of hydrologic time series data for identification of recharge mechanism in a fractured bedrock aquifer system. J Hydrol 229:190-201
  • Lee, J.Y., Kim, H.S., Yun, S.T., Kwon, J.S. (2009) Factor and cluster analyses of water chemistry in and around a large rockfill dam: Implications for water leakage. J Geotech Geoenviron Eng 135:1254-1263
  • Lee, J.Y., Cheon, J.Y., Lee, K.K., Lee, S.Y., Lee, M.H. (2001) Statistical evaluation of geochemical parameter distribution in a groundwater system contaminated with petroleum hydrocarbons. J Environ Qual 30:1548-1563
  • Lee, J.Y. (2009) Importance of hydrogeological and hydrologic studies for Haean basin in Yanggu. J. Geol. Soc. Korea 45, 405-414 (in Korean with English abstract)
  • Lee, D.R., Cherry, J.A. (1978) A field exercise on groundwater flow using seepage meters and mini-piezometers. J Geol Edu 27: 6-10
  • Lee, D.R. (1985) Method for locating sediment anomalies in lake beds that can be caused by groundwater flow. J Hydrol 79: 187-193
  • Lee, D.R. (1977) A device for measuring seepage flux in lake and estuaries. Am Soc Limnol Oceanol 22: 140-147
  • Lapham, W.W. (1989) Use of temperature profiles beneath streams to determine rates of vertical groundwater flow and vertical hydraulic conductivity, USGS. Water Supply Paper, 2337, 35 pp
  • Langhoff, J.H., Christensen, S., Rasmussen, K.R. (2001) Scale dependent hydraulic variability of streambed on an outwash plain. In: Impact of Human Activity on Groundwater Dynamics, Proceedings of IAHS Symposium VI.IAHS Publication 269
  • LaMarche, V.C. (1974) Frequency-dependent relationships between tree-ring series along an ecological gradient and some dendroclimatic implications. Tree-Ring Bulletin 34: 1-20
  • LaBaugh, J.W., Winter, T.C., Rosenberry, D.O., Schuster, P.F., Reddy, M.M., Aiken, G.R. (1997) Hydrological and chemical estimates of the water balance of a closed- basin lake in north central Minnesota. Water Resour Res 33: 2799-2812
  • Kwon, Y.S., Lee, H.H., Han, U., Kim, W.H. (1990) Terrain analysis of Haean basin in terms of earth science. J Korea Earth Sci Soc 11: 236-241 (in Korean)
  • Krupa, S.L., Belanger, T.V., Heck, H.H., Brok, J.T., Jones, B.J. (1998) The next generation seepage meter. J Coastal Res 25: 210-213
  • Kim, H., Lee, K.K., Lee, J.Y. (2014b) Numerical verification of hyporheic zone depth estimation using streambed temperature. J. Hydrol. 511, 861-869
  • Kim, H., Lee, J.Y., Park, Y., Hyun, Y., Lee, K.K. (2014c) Groundwater and stream water exchange revealed by water chemistry in a hyporheic zone of agricultural area. Paddy Water Environ. 12, 89-101
  • Kim, H., Lee, J.Y., Lee, S.S., Hyun, Y., Lee, K.K.(2011) Characterization of vertical temperature distribution in hyporheic zone. J. Kor. Wetland Soc.13(2), 265-273(in Korean with English abstract)
  • Kim, H., Lee, J.Y., Lee, K.K.(2014a) Thermal characteristics and bacterial diversity of forest soil in the Haean basin of Korea. The Scientific World J. ID 247401
  • Kim, H., Lee, J.Y., Lee, K.K.(2012) Partial correlation between hydrological, geochemical and microbiological processes in groundwater-stream water mixing zone in a rural area. Kor. Wetland Soc. 14(4), 489-502
  • Kim, H., Lee, J.Y., Lee, K.K. (2015b) Spatial and temporal variations in stream and groundwater chemistry and microbial community in an intensive agricultural area. Hydrol. Process. Major revision
  • Kim, H., Lee, J.Y., Lee, K.K. (2013) Spatial and temporal variations of groundwater-stream water interaction in an agricultural area, case study: Haean basin, Korea. Res. J. Earth Planet. Sci. 2 (2), 71-82
  • Kim, H., Kaown, D., Mayer, B., Lee, J.Y., Hyun, Y., Lee, K.K.(2015a) Identifying the sources of nitrate contamination of groundwater in an agricultural area (Haean basin, Korea) using isotope and microbial community analyses. Sci. Total Environ. (accepted)
  • Kim, H., Hyun, Y., Lee, K.K. (2009) Hydro-ecological characterization in groundwater dependent ecosystem. J. Kor. Wetland Soc. 11 (3), 1-8 (in Korean with English abstract)
  • Kim, B.K., Park, Y.A. (1967) The origin of the so-called Punch Bowl. J Geol Soc Korea 3: 61-66
  • Kendall, C. and Macdonnell, J.J. (1998) Isotope tracers in chatchment hydrology, Elsevier Science, Amsterdam
  • Kelly, W.E., Frohlich, R.K. (1985) Relations between aquifer electrical and hydraulic properties. Ground Water 23 (2), 182-189
  • Keery, J., Binley, A., Crook, N., Smith, J.W.N. (2007) Temporal and spatial variability of groundwater-surface water fluxes: Development and application of an analytical method using temperature time series. J. Hydrol. 336, 1-16
  • Kaser, D.H., Binley, A., Heathwaite, A.L., Krause, S. (2009) Spatio-temporal variations of hyporheic flow in a riffle-step-pool sequence. Hydrol Process 23: 2138-2149
  • Kaown, D., Kim, H., Moon, H.S., Ko, K.S., Lee, K.K. (2014) Hydrogeochemical and microbial characteristics in aquiferscontaminated with leachate from animal carcass disposal sites. Environ. Earth Sci. DOI 10.1007/s12665-014-3750-3
  • Kalbus, E., Reinstorf, F. and Schirmer, M. (2006) Measuring methods for groundwater, surface water and their interactions; a review, Hydrol. Earth Syst. Sci. Discuss., Vol. 3, pp. 1809-1850
  • Johnson, L.B., Richards, C., Host, G.E., Arthur, J.W. (1997) Landscape influences on water chemistry in Midwestern stream ecosystems. Freshwater Biol. 37, 193-208
  • Isiorho, S.A., Matisoff, G., When, K.S. (2005) Seepage relationship between lake Chad and Chad aquifers. Ground Water 34: 819-826
  • Hyun, Y., Kim, H., Lee, S.S., Lee, K.K. (2011) Characterizing streambed water fluxes using temperature and head data on multiple spatial scales in Munsan stream, South Korea. J. Hydrol. 402, 377-387
  • Hynes, H.B.N. (1960)The biology of polluted waters. Liverpool University Press, Liverpool, 122 pp
  • Hunt, B. (1999) Unsteady stream depletion from ground water pumping. Ground Water 37:98-102
  • Holmes, R.M., Jones, J.B., Fisher, S.G. and Grimm,N.B. (1996) Denitrification in a nitrogen-limited stream ecosystem, Biogeochem., Vol. 33, pp. 125-146
  • Hoehn, E., Cirpka, O.A. (2006) Assessing hyporheic zone dynamics in two alluvial flood plains of the Southern Alps using water temperature and tracers. Hydrol. Earth Syst. Sci. Disc. 3, 335-364
  • Hill, B.H., Herlihy, A.T., Kaufann, P.R. and Sinsabaugh, R.L. (1998) Sediment microbial respiration in a synoptic survey of mid-Atlantic region streams, Freshwater Biology, Vol. 39, pp. 493-501
  • Hill, A.R., Lymburner, D.J. (1998) Hyporheic zone chemistry and streamsubsurface exchange in two groundwater-fed streams. Can. J. Fish. Aquat. Sci. 55, 495-506
  • Hill, A.R. and Labadia, C.F. (1998) Hyporheic zone hydrology and nitrogen dynamics in relation to the streambed topography of a N-rich stream, Biogeochemistry, Vol. 42, pp. 285-310
  • Hem, J.D. (1992) Study and Interpretation of the Chemical Characteristics of Natural Water. U.S. Gov Print Office, Washington, DC
  • Hazen, A. (1893) Some physical properties of sands and gravels. Massachusetts State Board, 24th Annual Report
  • Hatch, C.E., Fisher, A.T., Revenaugh, J.S., Constantz, J., Ruehl, C. (2006) Quantifying surface water-groundwater interactions using time series analysis of streambed thermal records: Method development. Water Resour Res 42:W10410 doi:10.1029/2005WR004787
  • Harvey, J.W., Fuller, C.C. (1998) Effect of enhanced manganese oxidation in hyporheic zone on basin-sccale geochemical mass balance. Water Resour. Res. 34, 623-636
  • Harvey, J.W. and Bencala, K.E. (1993) The effect of streambed topography on surface-subsurface water exchange in mountain catchments, Water Resource Research, Vol. 29, pp. 89-98
  • Harvery, J.W., Wagner, B.J., Bencala, K.E. (1996) Evaluating the reliability of the stream tracer approach to characterize stream-subsurface water exchange. Water Resour. Res 32(8), 2441-2451
  • Harvery, J.W., Wagner, B.J., 2000. Quantifying Hydrologic Interactions between Streams and Their Subsurface Hyporheic Zones. Streams and Ground Waters 3-44,?doi:10.1016/b978-012389845-6/50002-8??Key: citeulike:8512185
  • Harman, J., Robertson, W.D., Cherry, J.A., Zanini, L. (1996) Impacts on a sand aquifer from old septic system: Nitrate and phosphate. Ground Water 34 (6), 1105-1114
  • Harlan, R.L. (1973) Analysis of coupled heat-fluid transport in partially frozen soil. Water Resour. Res. 9 (5), 1314-1323
  • Hantush, M.S. (1965) Wells near streams with semipervious beds. J Geophys Res 12: 2829-2838
  • Hancock, P.J., Boulton, A.J., Humphreys, W.F. (2005) Aquifers and hyporheic zones: towards an ecological understanding of groundwater. Hydrogeology Journal, 13(1), 98-111
  • Hancock, P.J. (2002) Human impacts on the stream-groundwater exchange zone. Environ Manage 6:763-781
  • Greenberg, M.S., Burton Jr., G.A., Rowland, C.D. (2002) Optimizing interpretation of in situ effects of riverine pollutants: impact of upwelling and downwelling. Environ. Toxicol. Chem. 21 (2), 289-297
  • Gooseff, M.N., Mcknight, D.M., Lyons, W.B., Blum, A.E. (2002) Weathering reactions and hyporheic exchange controls on stream water chemistry in a glacial meltwater stream in the McMurdo Dry Valleys. Water Resour Res 38:1279Weathering reactions and hyporheic exchange controls on stream water chemistry in a glacial meltwater stream in the McMurdo Dry Valleys Goto, S., Yamano, M., Kinoshita, M. (2005) Thermal response of sediment with vertical fluid flow to periodic temperature variation at the surface. J. Geophys. Res. 110 (B1), DOI: 10.1029/2004JB003419
  • Gilliam, J.W. (1994) Riparian wetlands and water quality, Journal of Environmental quality, Vol. 23, pp. 896-900
  • Geist, D.R. (1998) A method for installing piezometers in large cobble bed rivers, Groundwater Monitoring and Remediation, Winter. pp. 78-82
  • Fustec, E., Mariotti, A., Grillo, X., Sajus, J. (1991) Nitrate removal by denitrification in alluvial groundwater: Role of a former channel. J. Hydrol. 123, 337-354
  • Fuss, C. and Smocke, L. (1996) Spatial and temporal variation in microbial respiration rates in blackwater stream. Freshwater Biol 36:339-349
  • Fraser, B.G., Williams, D.D. (1997) Accuracy and precision in sampling hyporheic fauna. Can J Fish Aquat Sci 54:1135-1141
  • Findlay, S. (1995)The importance of surface-subsurface exchange in stream ecosystems: the hyporheic zone. Limnol. Oceanogra. 40, 159-164
  • Findlay, S. (1995) The importance of surface-subsurface exchange in stream ecosystems: the hyporheic zone, Limnology and Oceanography., Vol. 40, pp. 159-164
  • Essaid, H., Zamora, C., McCarthy, K., Vogel, J., Wilson, J. (2008) Using heat to characterize streambed water flux variability in four stream reaches. J. Environ. Qual. 37, 1010
  • Domenical, P.A., Schwartz, W. (1998) Physical and chemical hydrology. 2nd edition, John Wiley & Sons, Inc. New York
  • Corbett, R.D., Chanton, J.P., Burnett, W.C., Dillon, K., Rutkowski, C., Fourqurean, J.W. (1999) Patterns of groundwater discharge into Florida bay. Am Soc Limnol Oceanol 44: 1045-1055
  • Cooling, M.P., Boulton, A.J. (1993) Aspects of the hyporheic zone below the terminus of a South Australian arid-zone stream. Marine Freshwater Res 44:411-426
  • Constantz, J., Thomas, C.L., Zwllweger, G. (1994) Influence of diurnal variations in stream temperature on streamflow loss and groundwater recharge. Water Resour Res 30: 3253-3264
  • Constantz, J., Thomas, C.L., Zellweger, G. (1994) Influence of diurnal variations in stream temperature on streamflow loss and groundwater recharge. Water Resour. Res. 30 (12), 3253-3264
  • Constantz, J., Thomas, C.L. (1996)The use of streambed temperature profiles to estimate the depth, duration, and rate of percolation beneath arroyos. Water Resour. Res. 32 (12), 3597-3602
  • Constantz, J., Thomas, C.L. (1996) The use of streambed temperature profiles to estimate the depth, duration, and rate of percolation beneath arroyos. Water Resour Res 32: 3597-3602
  • Constantz, J., Stewart, A.E., Niswonger, R., Sarma, L. (2002) Analysis of temperature profiles for investigating steam losses beneath ephemeral channels. Water Resour Res 38: 1316
  • Constantz, J., Cox, M., Su, G.W. (2003) Comparison of heat and bromide as groundwater tracers near streams. Ground Water 41 (5), 647-656
  • Constantz, J. (2008) Heat as a tracer to determine streambed water exchanges. Water Resour. Res. 44 (4), DOI: 10.1029/2008WR006996
  • Conant Jr., B. (2004) Delineating and quantifying groundwater discharge zones using streambed temperatures. Ground Water 41 (2), 243-257
  • Christensen, N.S., Wood, A.W., Voisin, N., Lettenmaier, D.P., Palmer, R.N. (2004) The effects of climate change on the hydrology and water resources of the Colorado river basin. Clim Change 62: 337-363
  • Choi, H.M., Lee, J.Y. (2010) Groundwater level distribution and rainfall response characteristics in Haean basin of Yangu. J Soil Groundwater Environ 15: 1-8 (in Korean)
  • Chiyuan, M., Junren, N., Alistair, G.L.B. (2010) Recent changes of water discharge and sediment load in the yellow river basin, China. Progress Physic Geol 34: 541-561
  • Chen, J., Chen, C., Chen, C.Y. (2007) Analysis of solute transport in a divergent flow tracer test with scale-dependent dispersion. Hydrol Process 21: 2526-2536
  • Castro, N.M., Hornberger, G.M. (1991) Surface-subsurface water interactions in an alluviated mountain stream channel. Water Resour. Res. 27 (7), 1613- 1621
  • Carver, A. (2001) Riverbed permeabilities: information from pooled data. Ground Water 39 (4), 546-553
  • Carslaw, H.S., Jaeger, J.C. (1656) Conduction of heat in solids, Clarendon, Oxford, U.K., 510 pp
  • Cardenas, M.B., Wilson, J.L., Haggerty, R. (2008) Residence time of heterogeneity, bed forms, and stream curvature on subchannel hyporheic exchange. Water Resour Res 40: W08307
  • Cable, J.E., Burnett, W.C., Chanton, J.P. (1997) Magnitude and variations of groundwater seepage along a Florida marine shoreline. Biogeochem 38: 189- 205
  • Brunke, M., Gonse, T. (1997)The ecological significance of exchange processes between rivers and groundwater. Freshwater Biol. 37, 1-33
  • Brunke, M. and Gonser, T. (1997) The ecological significance of exchange processes between rivers and groundwater, Freshwater Biology., Vol. 37, pp. 1-33
  • Brodie, R.S., Baskaran, S., Ransley, T., Spring, J. (2009) Seepage meter: progressing a simple method of directly measuring water flow between surface water and groundwater systems. Australian J Earth Sci 56: 3-11
  • Boyer, E.W., Hornberger, G.M., Bencala, K.E., McKnight, D.M. (2000) Effects of asynchronous snowmelt on flushing of dissolved organic carbon: A mixing model approach. Hydrol. Proc. 14 (18), 3291-3308
  • Boulton, A.J., Findlay, S., Marmonier, P, Stanley, E.H., Valett, H.M. (1998) The functional significance of the hyporheic zone in streams and rivers. Annu Review Ecol Syst 29:59-81
  • Boulton, A.J. (2000) River ecosystem health down under: assessing ecological condition in riverine groundwater zones in Australia, Ecosystem Health., Vol. 6, pp. 108-118
  • Boulton, A.J. (2000) River ecosystem health down under: assessing ecological condition in riverine groundwater zones in Australia, Ecosystem Health., 6, 108-118
  • Boulton, A.J. (1993) Stream ecology and hyporheic exchange: implications, techniques and limitations. Marine and Freshwater Res 44:553-564
  • Boulton, A. J., Stanley, E. H. (1995) Hyporheic processes during flooding and drying in a Sonoran Desert stream. II: Faunal dynamics. Archiv f?r Hydrobiologie, 134(1), 27-52
  • Bertin, C., Bourg, A.C.M., 1994. Radon-222 and chloride as natural tracers of the infiltration of river water into an alluvial aquifer in which there is significant river/groundwater mixing. Environ. Sci. Tech. 28, 794-798
  • Bencala, K.E., MaKnight, D.M., Zellweger, G.W., 1990. Characterization of transport in an acidic and metal-rich mountain stream based on a lithium tracer injection and simulations of transient storage. Water Resour. Res. 26 (5), 989-1000
  • Bencala, K.E. and Walters, R.A. (1983) Simulation of solute transport in a mountain pool-and-riffle stream: a transient storage model, Water Resources Research, Vol. 19, pp. 718-724.
  • Beller, H.R., Hudson, Vic M.G.B., McNab, W.W.M., Carlsen, T. (2004) Biogeochemistry and natural attenuation of nitrate in groundwater at an explosives test facility. Appl. Geochem. 19, 1483-1494
  • Becker, M.W., Georgian, T. and Ambrose, H. (2004) Estimating flow and flux of groundwater discharge using temperature and velocity, Journal of Hydrology, Vol. 296, pp. 221-233
  • Baxter, C.V., Hauer, F.R. and Woessener, W.W. (2003) Measuring groundwater-stream water exchange: New techniques for installing minipiezometers and estimating hydraulic conductivity, Trans. Am. Fisher Society, Vol. 132, pp. 493-502
  • Battin, T.J. (2003) A mixing model analysis of stream solute dynamics and the contribution of a hyporheic zone to ecosystem function, Freshwater Biology., Vol. 48, pp. 995-1014
  • Barlow P.M., Moench A.F. (1998) Analytical solutions and computer programs for hydraulic interaction of stream-aquifer system. USGS Open Field Report 98-415A
  • Babiker, I.S., Mohamed, M.A.A., Terao, H., Kato, K., Ohta, K. (2004) Assessment of groundwater contamination by nitrate leaching from intensive vegetable cultivation using geographical information system. Environ. Int. 29, 1009-1017
  • Appelo C.A.J., Postma D. (2005) Geochemistry. Groundwater and Pollution (2nd ed.) A.A. Balkema Publishers, Amsterdam
  • Andrew, J.B. (1998) The functional significance of the hyporheic zone in streams and rivers, Annu. Rev. Ecol. Syst., Vol. 2, pp. 59-81
  • Anderson, M. (2005) Heat as a groundwater tracer. Ground Water 43(6), 951- 968