최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기바다 : 한국해양학회지 = The sea : the journal of the Korean society of oceanography, v.15 no.4, 2010년, pp.192 - 202
황동운 (국립수산과학원 갯벌연구소) , 김규범 (서울대학교 지구환경과학부) , 이재영 (국토해양부 해양환경정책과)
Submarine groundwater discharge (SGD) has been recognized as a provider for freshwater, nutrients, and dissolved constituents from continents to the oceans and paid more attention with regard to the mass balance of water or dissolved constituents on local and global scales. The submarine discharge o...
김형수, 김성주, 2001. 한반도 동해안 유출 지하수에 대한 연구. 지구물리학회지, 4: 71-84.
심병완, 2003. 부산 동남해안 지역의 수리동역학적 해수침투 특성 연구. 부경대학교 박사학위논문, 부산, 123pp.
한상국, 박미옥, 2003. 영산강 방류수중 유기화합물 분석. 대한환경공학회 2003 춘계학술대회 논문집, 한국과학기술원, pp. 1264-1268.
Berner, E.K. and R.A. Berner, 1987. The global water cycle. Prentice-Hall: Englewood Cliffs, NJ, pp. 12-24.
Burnett, W.C., M. Taniguchi and J. Oberdorfer, 2001. Measurement and significance of the direct discharge of groundwater into the coastal zone. J. Sea Res., 46: 109-116.
Burnett, W.C., H. Bokuniewicz, M. Huettel, W.S. Moore and M. Taniguchi, 2003. Groundwater and pore water inputs to the coastal zone. Biogeochemistry, 66: 3-33.
Burnett, W.C., P.K. Aggarwal, A Aureli, H. Bokuniewicz, J.E. Cable, M.A. Charette, E. Kontar, S. Krupa, K.M. Kulkarni, A. Loveless, W.S. Moore, J.A. Oberdorfer, J. Oliveira, N. Ozyurt, P. Povinec, A.M.G. Privitera, R. Rajar, R.T. Rarnessur, J. Scholten, T. Stieglitz, M. Taniguchi and J.V. Turner, 2006. Quantifying submarine groundwater discharge in the coastal zone via multiple methods. Sci. Total Environ., 367: 498-543.
Cable, J.E., W.C. Burnett, J.P. Chanton, D.R. Corbett and P.H. Cable, 1997. Field evaluation of seepage meters in the coastal marine environment. Estuar. Coast. Shelf Sci., 45: 367-375.
Calvino, F. and A. Stefanon, 1969. The submarine springs of fresh water and the problems of their capture. Rapp. P-V Reun., Commis. Int. Explor. Sci. Mer Mediterr, Monaco, 19: 609-610.
Cambareri, T.C. and E.M. Eichner, 1998. Watershed delineation and ground water discharge to a coastal embayment. Ground Water, 36: 626-634.
Capone, D.G. and J.M. Slater, 1990. Interannual patterns of water-table height and groundwater derived nitrate in nearshore sediments. Biogeochemistry, 10: 277-288.
Chandury, S. and N. Clauer, 1986. Fluctuations of isotopic composition of strontium in seawater during the Phanerozoic Eon. Chem. Geol., 59: 293-303.
Choi, H.Y., 2001. Oceanographic condition of the coastal area between Narodo Is. and Sorido Is. in the Southern Sea of Korea and its relation to the disappearance of red-tide observed in summer 1998. The Sea - J. Kor. Soc. Oceanogr., 6: 49-62.
Church, T.M., 1996. An underground route for the water cycle. Nature, 380: 579-580.
Corbett, D.R., J.P. Chanton, W.C. Burnett, K. Dillon, C. Rutkowski and J. Fourqurean, 1999. Patterns of groundwater discharge into Florida Bay. Limnol. Oceanogr., 44: 1045-1055.
COSOD II, 1987. Fluid circulation in the crust and the global geochemical budget. Report of the Second Conference on Scientific Ocean Drilling, Strasbourg, France, 6-8 July.
Eckstein, Y., 1969. Hydrogelogy of a volcanic island Che ju Do, Korea. Bull. Int. Assoc. Sci. Hydrol., 14: 45-60.
Garrels, R.M. and F.T. MacKenzie, 1971. Evolution of sedimentary rocks. Norton & Co., New York, 397 pp.
Giblin, A.E. and A.G. Gaines, 1990. Nitrogen inputs to a marine embayment: the importance of groundwater. Biogeochemistry, 10: 309-328.
Hahn, J., Y. Lee, N. Kim, C. Hahn and S. Lee, 1997. The ground-water resources and sustainable yield of Cheju volcanic island, Korea. Environ. Geol., 33: 43-53.
Han, S.Y, H.S. Hong and N. Park, 2006. Distribution of coastal groundwater discharge from surficial aquifers of major river districts. J. Kor. Soc. Civil Engineer., 26: 1-6.
Hanshaw, B.B. and W. Back, 1980. Chemical mass-wasting of the northern Yucatan Peninsula by groundwater dissolution, Geol., 8: 222-224.
Hwang, D.W., 2005. Magnitudes and mechanisms of submarine groundwater discharge (SGD) in the South Sea of Korea. Doctor thesis, Pukyong National University, 186 pp.
Hwang, D.W., Y.W. Lee and G. Kim, 2005a. Large submarine groundwater discharge and benthic eutrophication in Bangdu Bay on volcanic Jeju Island, Korea. Limnol. Oceanogr., 50: 1393-1403.
Hwang, D.W., G. Kim, Y.W. Lee and H.S. Yang, 2005b. Estimating submarine inputs of groundwater and nutrients to a coastal bay using radium isotopes. Mar. Chem., 96: 61-71.
Isbister, 1966. Geology and hydrology of northeastern Nassau County, Long Island, New York. U.S. Geol.Surv. Water-Supply Pap., 1825, 89 pp.
Johannes, R.E., 1980.The ecological significance of the submarine discharge of groundwater. Mar. Ecol. Prog. Ser., 3: 365-373.
Kay, A.E., L.S. Lau, E.D. Stroup, S.J. Doller, D.P. Fellows and R.H.F. Young, 1977. Hydrological and ecological inventories of the coastal waters of West Hawaii, Univ. Hawaii, Water Resources Research Center Technical Report, 105, 94 pp.
Kelly, R.P. and S.B. Moran, 2002. Seasonal changes in groundwater input to a well-mixed estuary estimated using radium isotopes and implications for coastal nutrient budgets. Limnol. Oceanogr., 47: 1796-1807.
Kim, G., D.W. Hwang, J.W. Ryu and Y.W. Lee, 2005a. Environmental and ecological consequences of submarine groundwater. The Sea - J. Kor. Soc. Oceanogr., 10: 204-212.
Kim, G., K.K. Lee, K.S. Park, D.W. Hwang and H.S. Yang, 2003. Large submarine groundwater discharge (SGD) from a volcanic island. Geophys. Res. Lett., 30: doi: 10.1029/2003GL018378.
Kim, G, J.W. Ryu and D.W. Hwang, 2008. Radium tracing of submarine groundwater discharge (SGD) and associated nutrient fluxes in a highly-permeable bed coastal zone, Korea. Mar. Chem., 109: 307-317.
Kim, G., J.W. Ryu, H.S. Yang and S.T. Yun, 2005b. Submarine groundwater discharge (SGD) into the Yellow Sea revealed by $^{228}Ra$ and ^{226}Ra$ isotopes: Implications for global silicate fluxes. Earth Planet. Sci. Lett., 237: 156-166.
Kohout, F.A., 1966. Submarine springs: a neglected phenomenon of coastal hydrology. J. Hydrol., 26: 391-413.
KORDI, 2003. Land-ocean interactions in the coastal zone. BSPE827-01-1493-4, 505 pp.
Kwon, K.Y., C.H. Moon, J.S. Lee, S.R. Yang, M.O. Park and P.Y. Lee, 2004. Estuarine behavior and flux of Nutrients in the Seomjin River Estuary. The Sea - J. Kor. Soc. Oceanogr., 9: 153-163.
Lambert, M.J. and W.C. Burnett, 2003. Submarine groundwater discharge estimates at a Florida coastal site based on continuous radon measurements. Biogeochemistry, 66: 55-73.
Lee, Y.W., D.W. Hwang, G. Kim, W.C.. Lee and H.T. Oh, 2009. Nutrient inputs from submarine groundwater discharge (SGD) in Masan Bay, an embayment surrounded by heavily industrialized cities, Korea. Sci. Total Environ., 407: 3181-3188.
Lvovich, M.L., 1974. World water resources and their future. Mysl. Publisher: Moscow, 448 pp.
McGuinness, C.L., 1963. The role of groundwater in the national water situation. U.S. Geol. Surv. Water-Supply Pap., 1800, pp. 76-246.
Michael, H.A., 2004. Seasonal dynamics in coastal aquifers: investigation of submarine groundwater discharge through field measurements and numerical models. PhD Dissertation, MIT.
Michael, H.A., J.S. Lubetsky and C.F. Harvey, 2003.Characterizing submarine groundwater discharge: a seepage meter study in Waquoit Bay, Massachusetts. Geophys. Res. Lett., 30: doi:10.1029/2002GL016000.
Milliman, J.D., 1993. Production and accumulation of calcium carbonate in the ocean: budget of a non-steady state. Glob. Biogeochem. Cycles, 7: 927-957.
Moore, W.S., 1996. Large groundwater inputs to coastal waters revealed by ^{226}Ra$ enrichments. Nature, 380: 612-614.
Moore, W.S., 1999. The subterranean estuary: a reaction zone of groundwater and seawater. Mar. Chem., 65: 111-125.
Muir, K.S., 1968. Groundwater reconnaissance of the Santa Babara-Montecito Sea, Santa Barbara County, California. U. S. Geol. Surv. Water-Supply Pap., 1859-A, 28pp.
Mulligan, A.E. and M.A. Charette, 2006. Intercomparison of submarine groundwater discharge estimates from a sandy unconfined aquifer. J. Hydrol., 327: 411-425.
Nace, R.L., 1969. Groundwater: perspectives and prospects. Water Well J., 23: 28-29.
Nace, R.L., 1970. World hydrology: status and prospects. In: Symposium on World Water Balance, Vol I. IARS Publication No.92. IAHS/UNESCO: Louvain, pp. 1-10.
Oberdorfer, J.A., 2003. Hydrogeologic modeling of submarine groundwater discharge: comparison to other quantitative methods. Biogeochemistry, 66: 159-169.
Oberdorfer, J.A., M.A. Valentino and S.V. Smith, 1990. Groundwater contribution to the nutrient budget of Tomales Bay, California. Biogeochemistry, 10: 199-216.
Park, W.B., S.K. Yang and G.W. Koh, 1994. Study on the fluctuations of groundwater levels in Cheju Island, Korea. J. Kor. Environ. Sci. Soc., 3: 333-348.
Pashkovsky, I.S., 1969. Groundwater discharge to the Aral Sea at present and in future. Byull. Mosk. O-va. Ispyt. Prir., Geol., 4: 110-118.
Pluhowski, E.J. and I.H. Kantrowitz, 1964. Hydrology of the Babylon-Islip Area, Suffolk County, Long Island, New York. U.S. Geol. Surv. Water-Supply Pap., 1768, 120 pp.
Reilly, T.E. and A.S. Goodman, 1987. Analysis of salt water upcoming beneath a pumping well. J. Hydrol., 89: 169-204.
Robinson, M.A., 1996. A finite element model of submarine groundwater discharge to tidal esturine waters. PhD Dissertation. Virginia Polytechnic Institute, Blacksburg. Vrignia.
Segol, G. and G.F. Pinder, 1976. Transient simulation of salt water intrusion in southerastern Florida. Water Res. Res., 12: 65-70.
Semikhatov, A.N., 1954. Hydrogelogy. Selkhozgiz, Moscow, 328pp.
Seiler, K.P., 2003. Potential areas of subsurface freshwater discharge to the oceans (abs.). In:Proceedings of the XXIII General Assembly of the International Union of Geodesy and Geophysics (IUGG). Sapporo, Japan.
Sellinger, C.E., 1995. Groundwater flux into a portion of Eastern Lake Michigan. J. Great Lakes Res., 21: 53-63.
Shiklomanov, I.A., 1999. World Water Resources: Modern Assessment and Outlook for the 21st Century. In: International Hydrological Program. UNESCO, Paris.
Simmons, G.M., 1992. Importance of submarine groundwater discharge (SGWO) and seawater cycling to the material flux across sediment/water interfaces in marine environments. Mar. Ecol. Prog. Ser., 84: 173-184.
Smith, A.J. and S.P. Nield, 2003. Groundwater discharge from the superficial aquifer into Cockburn Sound Western Australia: estimation by inshore water balance. Biogeochemistry, 66: 125-144.
Takasaki, K.J. and S. Valenciano, 1969. Water in the Kahuhu area, Hawaii, U.S. Geol. Surv. Water-Supply Pap., 1874.
Taniguchi, M, W.C. Burnett, J.E. Cable and J.V. Turner, 2002. Investigation of submarine groundwater discharge. Hydrol. process., 16: 2115-2129.
Williams, M.O., 1946. Bahrain: port of peals and petroleum, Nation. Geograph., 89: 194-210.
Yang, H.S., D.W. Hwang and G. Kim, 2002. Factors controlling excess radium in the Nakdong River estuary, Korea: submarine groundwater discharge versus desorption from riverine particles. Mar. Chem., 78: 1-8.
Yang, J.S., H.Y. Cho, S.T. Jeong and S.J Kim, 2004. Estimation of the groundwater discharges in Masan Bay Watershed. J. Kor. Soc. Coast. Ocean Engin., 16: 213-223.
Yang, J.S., J.Y. Jeong, J.Y. Heo, S. Lee and J.Y. Choi, 1999. Chemical mass balance of materials in the Keum River estuary: 1. Seasonal distribution of nutrients. The Sea - J. Kor. Soc. Oceanogr., 4: 71-79.
Younger, P.L., 1996. Submarine groundwater discharge. Nature, 382: 121-122.
Zektzer, I.S., 1968. Natural resources of fresh groundwater of the area adjacent to the Baltic Sea. Nedra, Moscow, 105 pp.
Zektzer, I.S., 1996. Groundwater discharge into the seas and oceans: state of the art. In Groundwater discharge in the coastal zone, Buddemeier R. W. (ed.). LOICZ/Russian Acadey of Sciences: Texel, Netherlands/Moscow, pp. 122-123.
Zektzer, I.S., V.A. Ivanov and A.V. Meskheteli, 1973. The problem of direct groundwater discharge to the seas. J Hydrol., 20: 1-36.
Zektzer, I.S. and H.A. Loaiciga, 1993. Groundwater fluxes in the global hydrologic cycle: past, present and future. J. Hydrol., 144: 405-427.
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
출판사/학술단체 등이 한시적으로 특별한 프로모션 또는 일정기간 경과 후 접근을 허용하여, 출판사/학술단체 등의 사이트에서 이용 가능한 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.