Liu K-K, Atkinson L, Quiñones RA, Talaue-McManus L (ed)
(2010) Carbon and nutrient fluxes in continental
margins: a global synthesis. Springer, Berlin
References
Chapter 11
Bokuniewicz H (1980) Groundwater seepage into Great South Bay, New York.
Estuarine and Coastal Marine Science 10:437–444
Bollinger MS, Moore WS (1984) Radium fluxes from a salt marsh. Nature 309:444–446
Bugna GC, Chanton JP, Cable JE, Burnett WC, Cable PH (1996) The importance of
groundwater discharge to the methane budgets of nearshore and continental
shelf waters of the northeastern Gulf Mexico. Geochim Cosmochim Acta
60:4735–4746
Burnett WC, Dulaiova H (2003) Estimating the dynamics of groundwater input into the
coastal zone via continuous radon-222 measurements. Journal of Environmental
Radioactivity 69:21–35
Burnett WC, Bokuniewicz H, Huettel M, Moore WS, Taniguchi M (2003) Groundwater
and pore water inputs to the coastal zone. Biogeochemistry 66:3–33
Cable JE, Burnett WC, Chanton JP, Weatherly GL (1996) Estimating groundwater
discharge into the northeastern Gulf of Mexico using radon-222. Earth Planet Sci
Lett 144:591–604
Cable JE, Burnett WC, Chanton JP, Corbett DR, Cable PH (1997) Field evaluation of
seepage meters in the coastal marine environment. Estuar Coast Shelf Sci
45:367–375
Capone DG, Bautista MF (1985) A groundwater source of nitrate in nearshore marine
sediments. Nature 313:214–216
Capone DG, Slater JM (1990) Interannual patterns of water table height and
groundwater derived nitrate in nearshore sediments. Biogeochemistry 10:277–
288
Cembella AD, Antia NJ, Harrison PJ (1984) The utilization of inorganic and organic
phosphorus compounds as nutrients by eukaryotic microalgae: A
multidisciplinary perspective: Part 1. CRC Critical Reviews in Microbiology
10:317–391
Charette MA, Buesseler KO (2004) Submarine groundwater discharge of nutrients and
copper to an urban subestuary of Chesapeake Bay (Elizabeth River). Limnol
Oceanogr 49:376–385
Charette MA, Buesseler KO, Andrews JE (2001a) Utility of radium isotopes for
evaluating the input and transport of groundwater-derived nitrogen to a Cape
Cod estuary. Limnol Oceanogr 46:456–470
Cherkauer DS, Taylor RW (1990) The spatially continuous determination of
groundwater flow to surface water bodies: application to the connecting channels
between lakes Huron and Erie. J Hydrol 114:349–369
Church TM (1996) An underground route for the water cycle. Nature 380:579–580
Corbett DR, Dillon K, Burnett WC, Chanton JP (1997) Estimating the groundwater
contribution into Florida Bay via natural tracers, 222Rn and CH4. Limnol Oceanogr
45:1546–1557
Corbett DR, Chanton J, Burnett W, Dillon K, Rutkowski C, Fourqurean JW (1999)
Patterns of groundwater discharge into Florida Bay. Limnol Oceanogr 44:1045–
1055
1
Crotwell AM, Moore WS (2003) Nutrient and radium fluxes from Submarine
groundwater discharge to Port Royal Sound, South Carolina. Aquat Geochem
9:191–208
Elsinger RJ, Moore WS (1984) 226Ra and 228Ra in the mixing zone of the Pee Dee River
– Winyah Bay, Yangtze River and Delaware Bay estuaries. Estuar Coast Shelf
Sci 18:601–613
Garrison GH, Glenn CR, McMurtry GM (2003) Measurement of submarine groundwater
discharge in Kahana Bay, O’ahu, Hawaii. Limnol Oceanogr 48:920–928
Gobler CJ, Sanudo-Wilhelmy SA (2001) Temporal variability of groundwater seepage
and brown tide blooms in a Long Island embayment. Mar Ecol Prog Ser
217:299–309
Hahm DS, Kim G, Lee YW, Nam SH, Kim KR, Kim K (2006) Tidal influence on the seato-air transfer of CH4 in the coastal ocean. Tellus B 58:88–94
Hancock GJ, Murray AS (1996) Source and distribution of dissolved radium in the Bega
River estuary, southeastern Australia. Earth Planet Sci Lett 138:145–155
Hanshaw BB, Back W (1980) Chemical mass-wasting of the northern Yucatan
Peninsula by groundwater dissolution. Geology 8:222–224
Herrera-Silveira J (1998) Nutrient-phytoplankton production relationships in a
groundwater-influenced tropical coastal lagoon. Aquatic Ecosystem Health &
Management 1:373–385
Hussain N, Church TM, Kim G (1999) Use of 222Rn and 226Ra to trace groundwater
discharge into the Chesapeake Bay. Mar Chem 65:127–134
Hwang DW, Kim G, Lee YW, Yang HS (2005a) Estimating submarine inputs of
groundwater and nutrients to a coastal bay using radium isotopes. Mar Chem
96:61–71
Hwang DW, Lee YW, Kim G (2005b) Large submarine groundwater discharge (SGD)
and benthic eutrophication in Bangdu Bay on volcanic Jeju Island, Korea. Limnol
Oceanogr 50:1393–1403
Jahne B, Munnich KO, Bosinger R, Dutzi A, Huber W, Libner P (1987) On the
parameters influencing air-water gas exchange. J Geophys Res 92:1937–1950
Johannes RE (1980) The ecological significance of the submarine discharge of
groundwater. Mar Ecol Prog Ser 3:365–373
Kay AE, Lau LS, Stroup ED, Doller SJ, Fellows DP, Young RHF (1977) Hydrological
and ecological inventories of the coastal waters of West Hawaii. Water
Resources Research Center Technical Report 105, Univ of Hawaii, 94 pp
Kelly RP, Moran SB (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, Hwang DW (2002) Tidal pumping of groundwater into the coastal ocean
revealed from submarine 222Rn and CH4 monitoring. Geophys Res Lett 29.
Doi:10.1029/2002GL015093
Kim G, Lee KK, Park KS, Hwang DW, Yang HS (2003a) Large submarine groundwater
discharge (SGD) from a volcanic island. Geophys Res Lett 30.
Doi:10.1029/2003GL018378
Kim G, Ryu JW, Yang HS, Yun ST (2005) Submarine groundwater discharge (SGD)
into the Yellow Sea revealed by 228Ra and 226Ra isotopes: Implications for global
silicate fluxes. Earth Planet Sci Lett 237:156–166
Kim G, Lee YW, Joung DJ, Kim KR, Kim K (2006) Real-time monitoring of nutrient
concentrations and red-tide outbreaks in the southern sea of Korea. Geophys
Res Lett 33. Doi:10.1029/2005GL025431
2
Krest JM, Moore WS, Gardner LR (1999) 226Ra and 228Ra in the mixing zones of the
Mississippi and Atchafalaya Rivers: Indicators of groundwater input. Mar Chem
64:129–152
Krest JM, Moore WS, Gardner LR, Morris JT (2000) Marsh nutrient export supplied by
groundwater discharge: Evidence from radium measurements. Global
Biogeochem Cy 14:167–176
Lambert MJ, Burnett WC (2003) Submarine groundwater discharge estimates at a
Florida coastal site based on continuous radon measurements. Biogeochemistry
66:55–73
Lapointe BE, O’connell JD, Garrett GS (1990) Nutrient couplings between onsite
sewage disposal systems, groundwaters, and nearshore surface waters of the
Florida Keys. Biogeochemistry 10:289–307
LaRoche J, Nuzzi R, Waters R, Wyman K, Falkowski PG, Wallace DWR (1997) Brown
tide blooms in Long Island’s coastal waters linked to interannual variability in
groundwater flow. Global Change Biology 3:397–410
Lee YW, Kim G (2007) Linking groundwater-borne nutrients and dinoflagellate red-tide
outbreaks in the southern sea of Korea using a Ra tracer. Estuar Coast Shelf Sci
71:309–317
Levy DM, Moore WS (1985) 224Ra in continental shelf waters. Earth Planet Sci Lett
73:226–230
Li L, Barry DA, Stagnitti F, Parlange JY (1999) Submarine groundwater discharge and
associated chemical input to a coastal sea. Water Resour Res 35:3253–3259
MacIntyre S, Wanninkhof R, Chanton JP (1995) Trace gas exchange across the airwater interface in freshwater and coastal marine environments. In: Matson PA,
Harris RC (ed) Biogenic trace gasses: Measuring emissions from soil and water.
Blackwell Science Ltd, pp 52–97
Matson EA (1993) Nutrient flux through soils and aquifers to the coastal zone of Guam
(Mariana Islands). Limnol Oceanogr 38:361–371
Michael HA, Mulligan AE, Harvey CF (2005) Seasonal oscillations in water exchange
between aquifers and the coastal ocean. Nature 436:1145–1148
Moore WS (1969) Ocean concentration of 228Ra. Earth Planet Sci Lett 6:437–446
Moore WS (1996) Large groundwater inputs to coastal waters revealed by 226Ra
enrichments. Nature 380:612–614
Moore WS (1997) High fluxes of radium and barium from the mouth of the GangesBrahmaputra River during low river discharge suggest a large groundwater
source. Earth Planet Sci Lett 150:141–150
Moore WS, Astwood H, Lindstrom C (1995) Radium isotopes in coastal waters on the
Amazon shelf. Geochim Cosmochim Acta 59:4285–4298
Nozaki Y, Tsubota H, Kasemsupaya V, Yashima M, Ikuta N (1991) Residence times of
surface water and particle-reactive 210Pb and 210Po in the East China and Yellow
Seas. Geochim Cosmochim Acta 55:1265–1272
Oberdorfer JA, Valentino MA, Smith SB (1990) Groundwater contribution to the nutrient
budget of Tomales Bay, California. Biogeochemistry 10:199–216
Porcelli D, Swarzenski PW (2003) The behaviour of U- and Th series nuclides in
groundwater and the tracing of groundwater. Reviews in Mineralogy and
Geochemistry 52:317–361
Portnoy JW, Nowicki BL, Roman CT, Urish DW (1998) The discharge of nitratecontaminated groundwater from developed shoreline to marsh-fringed estuary.
Water Resour Res 34:3095–3104
Purkl S, Eisenhauer A (2004) Determination of radium isotopes and 222Rn in a
groundwater affected coastal area of the Baltic Sea and the underlying sub-sea
floor aquifer. Mar Chem 87:137–149
3
Rasmussen LL (1998) Groundwater flow, tidal mixing and haline convection in coastal
sediments. Dissertation, Florida State University, 119 pp
Reid DF (1984) Radium variability produced by shelf-water transport and mixing in the
western Gulf of Mexico. Deep-Sea Res 31:1501–1510
Scott MK (1998) Radium-226 as a groundwater tracer.MS thesis, Univ of Rhode Island,
137 pp
Scott MK, Moran SB (2001) Groundwater input to coastal salt ponds of southern Rhode
Island estimated using 226Ra as a tracer. Journal of Environmental Radioactivity
54:163–174
Slomp CP, Van Cappellen P (2004) Nutrient inputs to the coastal ocean through
submarine groundwater discharge: controls and potential impact. J Hydrol
295:64–86
Swarzenski PW, Kindinger JL (2003) Leaky Coastal Margins: Examples of enhanced
coastal groundwater/surface water exchange from Tampa Bay and Crescent
Beach submarine spring, Florida, USA. In: Cheng A, Ouazar D (ed) Coastal
aquifer management, monitoring and modeling and case studies. CRC/Lewis
Press, pp 93–112
Swarzenski PW, Reich CD, Spechler RM, Kindinger JL, Moore WS (2001) Using
multiple geochemical tracers to characterize the hydrogeology of the submarine
spring off Crescent Beach, Florida. Chem Geol 179:187–202
Swarzenski PW, Bratton J, Crusius J (2004a) Submarine groundwater discharge and its
role in coastal processes and ecosystems. USGS OFR 2204-1226
Swarzenski PW, Charette M, Langevin C (2004c) An autonomous, electromagnetic
seepage in meter to study coastal groundwater/surface water exchange. USGS
OFR 2004–1369
Swarzenski P, Orem W, McPherson B, Baskaran M, Wan Y (2006a) Biogeochemical
transport in the Loxahatchee River estuary, FL: The role of submarine
groundwater discharge. Mar Chem 101:248–265
Swarzenski PW, Reich C, Kroeger KD, Baskaran M (2006b) Ra and Rn isotopes as
natural tracers of submarine groundwater discharge in Tampa Bay, FL. Mar
Chem 104:69–84
Taniguchi M (2002) Tidal effects on submarine groundwater discharge into the ocean.
Geophys Res Lett 29. Doi:10.1029/2002GL014987
Taniguchi M, Fukuo Y (1993) Continuous measurements of groundwater seepage
using an automatic seepage meter. Ground Water 31:675–679
Taniguchi M, Burnett WC, Cable JE, Turner JV (2002) Investigation of submarine
groundwater discharge. Hydrological Processes 16:2115–2129
Valiela I, Costa J, Foreman K, Teal JM, Howes B, Aubrey D (1990) Transport of waterborne nutrients from watersheds and their effects on coastal waters.
Biogeochemistry 10:177–198
Weiskel PK, Howes BL (1992) Differential transport of sewage-derived nitrogen and
phosphorus through a coastal watershed. Environ Sci Tech 26:352–360
Yamaguchi M, Itakura S (1999) Nutrition and growth kinetics in nitrogen- or
phosphorous-limited cultures of the noxious red tide dinoflagellate Gymnodinium
mikimotoi. Fisheries Science 65:367–373
Yamaguchi M, Itakura S, Uchida T (2001) Nutrition and growth kinetics in nitrogen- or
phosphorus-limited cultures of the ‘novel red tide’ dinoflagellate Heterocapsa
circularisquama (Dinophyceae). Phycologia 40:313–318
Yang HS, Hwang DW, Kim G (2002) Factors controlling excess radium in the Nakdong
River estuary, Korea: submarine groundwater discharge versus desorption from
riverine particles. Mar Chem 78:1–8
Younger PL (1996) Submarine groundwater discharge. Nature 382, 121–122
4
Zappa CJ, Raymond PA, Terray EA, McGillis WR (2003) Variation in surface turbulence
and the gas transfer velocity over a tidal cycle in a macrotidal estuary. Estuaries
26:1401–1415
5