LIST OF PUBLICATIONS OF THE SCOR/LOICZ, IAEA, UNESCO PROJECTS ON SUBMARINE GROUNDWATER DISCHARGE

General Papers

[1] BURNETT, W.C., Offshore springs and seeps are focus of working group. EOS 80 (1999) 13–

15.

[2] CABLE, J.E., BURNETT, W.C., TANIGUCHI, M., OBERDORFER, J., Bibliography for Submarine Groundwater Discharge, Scientific Committee on Oceanic Research (SCOR), Working Group 112 (2000) (http://www.jhu.edu/~scor/WG112.htm)

[3] BURNETT, W.C., BOLKUNIEWICZ, H.J., Are groundwater inputs to the coastal zone important? Proc. Int. Symp. Low-lying Coastal Areas; Hydrology and Integrated Coastal Zone Management, Bremerhaven, Germany (2002) 45–52.

[4] BOKUNIEWICZ, H.J., BUDDEMEIER, R., Maxwell, B., Smith, C., The typological approach to submarine groundwater discharge (SGD), Proc. Int. Symp. Low-lying Coastal Areas;

Hydrology and Integrated Coastal Zone Management, Bremerhaven, Germany (2002) 201–205.

[5] DESTOUNI, G., PRIETO, C., Submarine groundwater discharge, climate change and the coastal zone, Proc. Int. Symp. Low-lying Coastal Areas; Hydrology and Integrated Coastal Zone Management, Bremerhaven, Germany (2002) 219–224.

[6] KONTAR, E.A., OZOROVICH, Y.A., SALOKHIDDINOV, A., Study of groundwater–

seawater interactions in the Aral Sea Basin, Proc. Int. Symp. Low-lying Coastal Areas;

Hydrology and Integrated Coastal Zone Management, Bremerhaven, Germany (2002) 225–230.

[7] TANIGUCHI, M., Temporal variations of submarine groundwater discharge and freshwater/saltwater interaction in the coastal zone, Proc. Int. Symp. Low-lying Coastal Areas;

Hydrology and Integrated Coastal Zone Management, Bremerhaven, Germany (2002) 257–262.

[8] BURNETT, W.C., CHANTON, J., CHRISTOFF, J., KONTAR, E., KRUPA, S., LAMBERT, M., MOORE, W., O’ROURKE, D., PAULSEN, R., SMITH, C., SMITH, L., TANIGUCHI, M., Assessing methodologies for measuring groundwater discharge to the ocean, EOS 83 (2002) 117–123.

[9] PRIETO, C., DESTOUNI, G., Quantifying tidal effects on submarine groundwater discharge, IUGG Conference, Sapporo, Japan (2003).

[10] TANIGUCHI, M., BURNETT, W.C., CABLE, J.E., TURNER, J.V., Assessment Methodologies for Submarine Groundwater Discharge, In: Land and Marine Hydrogeology (Eds: M. Taniguchi, K. Wang, T. Gamo), Elsevier Publications, Oxford (2003) 208p.

[11] BURNETT, W.C., CHANTON, J.P., KONTAR, E., Submarine Groundwater Discharge, Biogeochemistry 66 (2003) 202p.

[12] DESTOUNI G., C. PRIETO, 2003. On the possibility for generic modeling of submarine groundwater discharge, Biogeochemistry 66 (2003) 171–186.

[13] DESTOUNI, G., JARSJÖ, J., Groundwater discharge into the Aral Sea, 35^th International Liège Colloquium on Ocean Dynamics: ‘Dying and Dead Seas’, Liège (2003).

[14] ANONYMOUS, Submarine Groundwater Discharge: Management Implications, Measurements, and Effects, IHP-VI, Series on Groundwater No. 5, IOC Manuals and Guides No. 44 (2004) 35p.

[15] BURNETT, W.C., Measurement and potential importance of submarine groundwater discharge, In: Isotopes in Environmental Studies–Aquatic Forum 2004, Proc. Int. Conf., Monaco, International Atomic Energy Agency, Vienna (2006) 195.

[16] AURELI, A., FIDELIBUS, D., PRIVITERA, A.M.G., ZUPPI, G.M., Salt water intrusion in the aquifers south oriental coastal zones of Sicily, In: Isotopes in Environmental Studies–Aquatic Forum 2004, Proc. Int. Conf., Monaco, International Atomic Energy Agency, Vienna (2006) 208–211.

[17] AGGARWAL, P.K., KULKARNI, K.M., POVINEC, P.P., HAN, L.–F., GROENING, M., Environmental isotope investigation of submarine groundwater discharge in Sicily, Italy, In:

Isotopes in Environmental Studies–Aquatic Forum 2004, Proc. Int. Conf., Monaco, International Atomic Energy Agency, Vienna (2006) 212–213.

[18] AURELI, A., BARROCU, G., CUSIMANO, G., FIDELIBUS, D., GATTO, L., HAUSER, S., SCHIAVO, M.A., TULIPANO, L., ZUPPI, G.M., Hydrochemistry and isotopic characteristics of the submarine springs of south-eastern Sicily, In: Isotopes in Environmental Studies–Aquatic Forum 2004, Proc. Int. Conf., Monaco, International Atomic Energy Agency, Vienna (2006) 216–218.

[19] BURNETT, W.C., PETERSON, R., DULAIOVA, H., Groundwater inputs via ²²²Rn and Ra isotopes off Ubatuba, Brazil, In: Isotopes in Environmental Studies–Aquatic Forum 2004, Proc.

Int. Conf., Monaco, International Atomic Energy Agency, Vienna (2006) 219—220.

[20] JARSJÖ, J., DESTOUNI, G., Groundwater discharge into the Aral Sea after 1960, J. Mar. Sys.

47 (2004) 109–120.

[21] SHIBUO, Y., JARSJÖ, J., DESTOUNI, G., Modelling seawater–groundwater interactions in the Aral Sea region, Abstract H21B-1019, AGU Fall meeting, San Francisco (2004).

[22] BURNETT, W.C., DULAIOVA, H., STRINGER, C., PETERSON, R., Submarine groundwater discharge: its measurement and influence on the coastal zone, J. Coast. Res. 39 (2006) 35–38.

[23] CABLE, J., MARTIN, J., TANIGUCHI, M., A review of submarine ground water discharge:

biogeochemical inputs and leaky coastlines, 22–41, In: Submarine Groundwater, (Eds: I.S.

Zekster, R.G. Dzhamalov, L.G. Everett) CRC Press (2006) ISBN: 0849335760, 512p.

[24] CORBETT, R., CABLE, J., MARTIN, J., Direct measurements of submarine ground water discharge using seepage meters, 86–99, In: Submarine Groundwater, (Eds: I.S. Zekster, R.G.

Dzhamalov, L.G. Everett) CRC Press (2006) ISBN: 0849335760, 512p.

[25] SHIBUO, Y., JARSJÖ, J., DESTOUNI, G., Modeling groundwater–seawater interactions in the Aral Sea region, In: Groundwater and Saline Intrusion (Eds: Araguás, L., Custodio, E., Manzano, M.), Insitututo Geologico y Minero de España, Serie: Hidrogeología y Aguas Subterráneas No 15 Madrid (2005) 163–171.

[26] PRIETO, C., Groundwater–seawater interactions: Seawater intrusion, submarine groundwater discharge and temporal variability and randomness effects, PhD Thesis in Water Resources Engineering, KTH Architecture and the Built Environment, TRITA–LWR PhD thesis, the Royal Institute of Technology, Stockholm (2005).

[27] PRIETO, C., DESTOUNI, G., Quantifying hydrological and tidal influences on groundwater discharges to coastal waters, Water Resour. Res. 41 W12427 doi:10.1029/2004WR003920 (2005).

[28] SHIBUO, Y., JARSJÖ, J., DESTOUNI, G., Bathymetry–topography effects on saltwater–fresh groundwater interactions around the shrinking Aral Sea, Water Resour. Res. 42 W11410 doi:10.1029/2005WR004207 (2006).

[29] JARSJÖ, J., ALEKSEEVA, I., SCHRUM, C., DESTOUNI, G., Simulation of groundwater–

seawater interactions in the Aral Sea basin by a coupled water balance model, International Association of Hydrological Sciences (IAHS) Red Book Series (2005) in press.

[30] MOORE, W.S., The role of submarine groundwater discharge in coastal biogeochemistry, J.

Geochem. Explor. 88 1 (2006) 389–393.

[31] BURNETT, W.C., AGGARWAL, P.K., H. BOKUNIEWICZ, H., CABLE, J.E., CHARETTE, M.A., KONTAR, E., KRUPA, S., KULKARNI, K.M., LOVELESS, A., MOORE, W.S., OBERDORFER, J.A., DE OLIVEIRA, J., OZYURT, N., POVINEC, P., PRIVITERA, A.M.G., RAJAR, R., RamEssur, R.T., J. SCHOLTEN, J., STIEGLITZ, T., TANIGUCHI,M., TURNER, J.V., Quantifying submarine groundwater discharge in the coastal zone via multiple methods, Sci. Total Environ. 367 (2006) 498–543.

[32] SHIBUO, Y., JARSJÖ, J., DESTOUNI, G., Bathymetry–topography effects on saltwater–fresh groundwater interactions around the shrinking Aral Sea, Water Resour. Res. 42 (2006) W11410, doi:10.1029/2005WR004207.

[33] JARSJÖ, J., ALEKSEEVA, I., SCHRUM, C., DESTOUNI, G., Simulation of groundwater–

seawater interactions in the Aral Sea basin by a coupled water balance model, In: From Uncertainty to Decision Making, ModelCare 2005 (Eds: M.F.P. Bierkens, K. Kovar, J.C.

Gehrels), International Association of Hydrological Sciences (IAHS) Red Book Series, Paper no. IAHS 304-30-145 (2006).

Western Australia Experiment (2000)

[34] BURNETT, W.C., TURNER, J.V., LOICZ group investigates groundwater discharge in Australia. LOICZ Newsletter 18 (2001) 1–4.

[35] TANIGUCHI, M., J. TURNER, J.V., SMITH, A.J., Evaluations of groundwater discharge rates from subsurface temperature in Cockburn Sound, Western Australia, Biogeochemistry 66 (2003) 111–124.

[36] SMITH, A.J., NIELD, S.P., Groundwater discharge from the surficial aquifer into Cockburn Sound Western Australia: Estimation by inshore water balance. Biogeochemistry 66 (2003) 125–144.

Donnalucata, Sicily Experiment (2001)

[37] POVINEC, P.P., AGGARWAL, P.K., AURELI, A., BURNETT, W.C., KONTAR, E.A., KULKARNI, K.M., MOORE, W.S., RAJAR, R., TANIGUCHI, M., COMANDUCCI, J.-F., CUSIMANO, G., DULAIOVA, H., GATTO, L., GROENING, M., HAUSER, S., LEVY-PALOMO, I., OREGIONI, B., OZOROVICH, Y.R., PRIVITERA, A.M.G., SCHIAVO, M.A., Characterization of submarine groundwater discharge offshore south-eastern Sicily, J. Environ.

Radioact. 89 (2006) 81–101.

Continental Shelf Research, vol. 26, 2006

[38] SCHIAVO, M.A., HAUSER, S., CUSIMANO, G., GATTO, L., Geochemical characterization of groundwater and submarine discharge in the south-eastern Sicily, 826–834.

[39] TANIGUCHI, M., BURNETT, W.C., DULAIOVA, H., Kontar, E.A., POVINEC, P.P., MOORE, W.S., Submarine groundwater discharge measured by seepage meters in Sicilian coastal waters, 835–842.

[40] KONTAR E.A., OZOROVICH, Y.R., Geo-electromagnetic survey of the fresh/salt water interface in the coastal southeastern Sicily, 843–851.

[41] MOORE, W.S., Radium isotopes as tracers of submarine groundwater discharge in Sicily, 852–

861.

[42] BURNETT, W.C., DULAIOVA, H., RADON as a tracer of submarine groundwater discharge into a boat basin in Donnalucata, Sicily, 862–873.

[43] POVINEC, P.P., COMANDUCCI, J.-F., I. LEVY–PALOMO, I., OREGIONI, B., Monitoring of submarine groundwater discharge along the Donnalucata coast in the south-eastern Sicily using underwater gamma-ray spectrometry, 874–884.

Shelter Island, New York Experiment (2001)

[44] SHOLKOVITZ, E.R., HERBOLD, C., CHARETTE, M.A., An automated dye-dilution based seepage meter for the time-series measurement of submarine groundwater discharge, Limnol.

Oceanogr. Methods 1 (2003) 17–29.

[45] RAPAGLIA, J.P., Distribution of Submarine Groundwater Discharge at Coastlines, M.S. thesis, Marine Sciences Research Center, Stony Brook University (2003) 83p.

[46] DULAIOVA, H., BURNETT, W.C., CHANTON, J.P., MOORE, W.S., Bokuniewicz, H.J., CHARETTE, M.A., SHOLKOVITZ, E., Assessment of groundwater discharges into West Neck Bay, New York, via natural tracers, Cont. Shelf Res. 26 (2006) 1971–1983.

Ubatuba, Brazil Experiment (2003)

[47] BOKUNIEWICZ, H.J., KONTAR, E., RODRIGUES, M., KLEIN, D.A., Submarine Groundwater Discharge (SGD) patterns through a fractured rock aquifer: a case study in the Ubatuba coastal area, Brazil Revista de la Asociacion Argentina de Sedimentologia 11 (2004) 9–16.

[48] De OLIVEIRA, J., ELÍSIO, A.C.R., TEIXEIRA, W.E., PERES, A.C., BURNETT, W.C., POVINEC, P.P., SOMAYAJULU, B.L.K., BRAGA, E.S., Isotope techniques for assessment of submarine groundwater discharge and coastal dynamics in Ubatuba coastal areas, Brazil, J.

Coast. Res. 39 (2006) 1084–1086.

[49] De OLIVEIRA, J., CHARETTE, M., ALLEN, M., De SANTIS BRAGA, E., VERONESE FURTADO, V., Coastal water exchange rate studies at the southeastern Brazilian margin, using Ra isotopes as tracers. In: Radionuclides in the Environment (Eds: P.P. Povinec, J.A. Sanchez–

Cabeza), Elsevier, Amsterdam ( 2006) 345–359.

[50] POVINEC, P.P., LEVY–PALOMO, I., COMANDUCCI, J.–F., De OLIVEIRA, J., OREGIONI, B., Privitera, A.M.G., Submarine groundwater discharge investigations in Sicilian and Brazilian coastal waters using an underwater gamma-ray spectrometer, In: Radionuclides in the Environment (Eds: P.P. Povinec, J.A. Sanchez–Cabeza), Elsevier, Amsterdam ( 2006) 373–381.

[51] POVINEC, P.P., BOKUNIEWICZ, H., BURNETT, W.C., CABLE, J., CHARETTE, M., MOORE, W.S., OBERDORFER, J.A., De OLIVEIRA, J., PETERSON, R.N., STIEGLITZ, T., TANIGUCHI, M., Isotope tracing of submarine groundwater discharge offshore Ubatuba, Brazil: Results of the IAEA–UNESCO SGD project, J. Environ. Radioact. (2007) submitted.

Estuarine, Coastal and Shelf Science, vol. 76, 2008

[52] OBERDORFER, J.A., CHARETTE, M., ALLEN, M., MARTIN, J.B., CABLE, J.E., Hydrogeology and Geochemistry of near-shore submarine groundwater discharge at Flamengo Bay, Ubatuba, Brazil, 457–465.

[53] BOKUNIEWICZ, H., TANIGUCHI, M., ISHITOIBI, T., CHARRETTE, M., ALLEN, M., KONTAR, E.A., Direct measures of submarine groundwater discharge over a fractured rock aquifer in Ubatuba, Brazil, 466–472.

[54] CABLE, J.E., MARTIN, J.B., In situ evaluation of nearshore marine and fresh pore water transport in Flamengo Bay, Brazil, 473–483.

[55] TANIGUCHI, M., STIEGLITZ, T., ISHITOBI, T., Temporal variability of water quality of submarine groundwater discharge in Ubatuba, Brazil, 484–492.

[56] STIEGLITZ, T., TANIGUCHI, M., NEYLON, S., Spatial Variability of Submarine Groundwater Discharge, Ubatuba, Brazil, 493–500.

[57] BURNETT, W.C., PETERSON, R., MOORE, W.S., De OLIVEIRA, J., Radon and radium isotopes as tracers of submarine groundwater discharge – results from the Ubatuba, Brazil SGD assessment intercomparison, 501–511.

[58] MOORE, W.S., DE OLIVEIRA, J., Determination of residence time and mixing processes of the Ubatuba, Brazil, inner shelf waters using natural Ra isotopes, 512–521.

[59] POVINEC, P.P., De OLIVEIRA, J., BRAGA, E.S., COMANDUCCI, J.–F., GASTAUD, J., GROENING, M., MORGENSTERN, U., TOP, Z., Isotopic, trace element and nutrient characterization of coastal waters from Ubatuba inner shelf area, south-eastern Brazil, 522–542.