Armynot du Chátelet, E., Bout-Roumazeilles, V., Riboulleau, A. and Trentesaux, A. (2009) Sediment (grain size and clay mineralogy) and organic matter quality control on living benthic foraminifera. Revue de Micropaléontologie, 52: 75-84.

Angel, D.L., Verghese. S., Lee, J.J., Saleh, A.M., Zuber, D., Lindell, D. and Symons, A. (2000) Impact of a net cage fish farm on the distribution of benthic foraminifera in the northern Gulf of Eliat (Aqaba, Red Sea). Journal of Foraminiferal Research, 30:54-65.

Aure, J., Strohmeier, T. and Strand Ø. (2007) Modelling current speed and carrying capacity in long-line blue mussel (Mytilus edulis) farms. Aquaculture Research, 38: 304-312.

Berber, R.A. and Raiswell, R. (1984) C/S method for distinguishing freshwater from marine sedimentary rocks. Geology, 12: 365-368.

Brooks, K.M., Stierns, A.R. and Mahnken, C.V.W. (2003)Chemical and biological remediation of the benthos near Atlantic salmon farms. Aquaculture, 219:355-377.

Burridge, L., Weis, J.S., Cabello, F., Pizarro, J. and Bostick, K. (2010) Chemical use in salmon Aquaculture: A review of current practices and possible environmental effects. Aquaculture, 306: 7-23.

Chang, S.K. and Lee, K.S. (1984) A study on the recent benthonic foraminifera of the intertidal flats of Asan Bay, Korea. Journal of the Geological Society of Korea, 20: 171-188.

Chiji, M. and Lopez, S.M. (1968) Regional foraminiferal assemblages in Tanabe Bay, Kii Peninsula, central Japan. Publications of the Seto Marine Biological Laboratory, 16: 85-125.

Choi, Y.H., Seong, K.T., Ko, W.J., Park, M.W., Ku, J.H., Kim, D.W. and Lee, Y.G. (2014) Environmental characteristics of the abalone mariculture area. In;Aquaculture Europe 2014. pp. 254-255. Donostia-San sevastián, Spain.

Choi, J.U., Lee, Y.G., Jeong, D.U., Choi, Y.H. and Woo, H.J. (2018) Effects of abalone farming cage removal on the benthic foraminiferal assemblages. Journal of Coastal Research Special Issue, 85: 321-325.

Christensen, P.B., Vedel, A. and Kristensen, E. (2000)Carbon and nitrogen fluxes in sediment inhabited by suspension-feeding (Nereis diversicolor) and nonsuspension-feeding (N. virens) polychaetes. Marine Ecology Progress Series, 192: 203-217.

Dean, R.J., Shimmield, T.M. and Black, K.D. (2007)Copper, zinc and cadmium in marine cage fish farm sediments: An extensive survey. Environmental Pollution, 145: 84-95.

Duarte, P., Labarta, U. and Fernández-Reiriz, M.J. (2008) Modelling local food depletion effects in mussel rafts of Galician rias. Aquaculture, 274:300-312.

Ellis, A.M., Culver, S.J., Mallinson, D.J., Corbett, D.R., Leorri, E., Buzas, M.A. and Shazili, N.A.M. (2014)The influence of Aquaculture on modern foraminifera and sediments in the Setiu estuary and lagoon, Terengganu, Malaysia: A spatial investigation. Journal of Foraminiferal Research, 44: 390-415.

Folk, R.L. and Ward, W. (1957) Brazos River bar [Texas]; a study in the significance of grain size parameters. Journal of Sedimentary Research, 27:3-26.

Gowen, R.J. and Bradbury, N.B. (1987) The ecological impact of salmonid farming in coastal waters: A review. In; Oceanography and Marine Biology: An Annual Review 25 (ed. by Barnes, H.). pp. 563-575. Aberdeen University Press, Aberdeen.

Grant, J., Hatcher, A., Scott, D.B., Pocklington, P., Schafer, C.T. and Winters, G.V. (1995) A multidisciplinary approach to evaluating impacts of shellfish Aquaculture on benthic communities. Estuaries, 18: 124-144.

Guo, L.G. and Li, Z.J. (2003) Effects of nitrogen and phosphorus from fish cage-culture on the communities of a shallow lake in middle Yangtze River basin of China. Aquaculture, 226: 202-212.

Hayward, B.W., Sabaa, A. and Grenfell, H.R. (2004). Benthic foraminifera and the late Quaternary (last 150 ka) paleoceanographic and sedimentary history of the Bounty Trough, east of New Zealand. Palaeogeography, Palaeoclimatology, Palaeoecology, 211: 59-93.

Ingram, R.L. (1971) Sieve analysis. In; Procedures in Sedimentary Petrology. (ed. by Carver, R.E.). pp. 49-67. Willey-Interscience, New York.

Kalantzi, I. and Karakassis, I. (2006) Benthic impacts of fish farming: Meta-analysis of community and geochemical data. Marine Pollution Bulletin, 52:484-493.

Kang, J.W., Lee, Y.G., Jeong, D.U., Lee, J.S., Choi, Y.H. and Shin, Y.K. (2015) Effect of abalone farming on sediment geochemistry in the shallow sea near Wando, South Korea. Ocean Science Journal, 50:669-682.

Keely, N.B., Macleod, C.K., Hopkins, G.A. and Forrest, B.M. (2014) Spatial and temporal dynamics in macrobenthos during recovery from salmon farm induced organic enrichment: When is recovery complete?. Marine Pollution Bulletin, 80: 250-262.

Kim, B.M.N., Choi, A., An, S.U., Kim, H.C., Jung, R.H., Lee, W.C. and Hyun, J.H. (2011) Rates of Sulfate Reduction and Iron Reduction in the Sediment Associated with Abalone Aquaculture in the Southern Coastal Waters of Korea. Ocean Polar Research, 33:435-445.

La Rosa, T., Mirto, S., Mazzola, A. and Danovaro, R. (2001) Differential responses of benthic microbes and meiofauna to fish-farm disturbance in coastal sediments. Environmental Pollution, 112: 427-434.

Lee, Y.G., Jeong, D.U., Kang, S.R., Kim, Y.W., Kim, S., Jung, E.H. and Lee, J.S. (2012) The Formation of Hypoxia Sediment and Benthic Foraminiferal Change in Gamak Bay, Southern Coast of Korea. Ocean Polar Research, 34: 53-64.

Lee, Y.G., Jeong, D.U., Lee, J.S., Choi, Y.H. and Lee, M.K. (2016a) Effects of hypoxia caused by mussel farming on benthic foraminifera in semi-closed Gamak Bay, South Korea. Marine Pollution Bulletin, 109: 566-581.

Lee, Y.G., Choi, Y.H., Jeong, D.U., Lee, J.S., Kim, Y.W., Park, J.J. and Choi, J.U. (2016b) Effect of abalone farming on seawater movement and benthic foraminiferal assemblage of Zostera marina in the inner bay of Wando, South Korea. Marine Pollution Bulletin, 109: 205-220.

Lie, H.J. and Cho, C.H. (2002) Recent advances in understanding the circulation and hydrography of the East China Sea. Fisheries Oceanography, 11:318-328.

Long, E.R., MacDonald, D.D., Smith, S.L. and Calder, F.D. (1995) Incidence of adverse biological effects within ranges of chemical concentrations in marine and estuarine sediments. Environmental Management, 19: 81-97.

MacArther, R.H. and MacArther, J.W. (1961) On bird species diversity. Ecology, 42: 544-598.

McKindsey, C.W., Archambault, P., Callier, M.D. and Olivier, F. (2011) Influence of suspended and off-bottom mussel culture on the sea bottom and benthic habitats: a review. Canadian Journal of Zoology, 89: 622-646.

Murray, J.W. (2006) Ecology and Application of Benthic Foraminifera. pp. 426, Cambridge University Press, New York.

Oh, H.J., Kim, S.H. and Moon, S.Y. (2008) The characteristics of phytoplankton community of cold water in the around sea of Wando in summer, 2005. Journal of Environmental Science International, 17:949-956.

Park, H.N., Jeong, D.U., Park, C.M., Choi, J.U., Lee, J.S., and Lee, Y.G. (2017) Hypoxia and Benthic Foraminiferal Assemblage of Spring Season in Gamak Bay. The Korean Journal of Maiacology, 33:93-106.

Park, J.H. (2005) Feces production rate of abalone (Haliotis discus hannai) fed Undaria pinnatifida. Korean Journal of Fisheries and Aquatic Sciences, 38: 353-358.

Pearson, T.H. and Black, K.D. (2001) The environmental impacts of marine fish cage culture. In;Environmental Impacts of Aquaculture. (ed. By Black, K.D.). pp. 1-31, Sheffield Academic Press, Sheffield.

Pielou, E.C. (1966) The measurement of diversity in different types of biological collections. Journal of Theoretical Biology, 13: 131-144.

Resig, J.M. (1960) Foraminiferal ecology around ocean outfalls off southern California. In; Proceedings of the First International conference on Waste Disposal in the Marine Environment. (ed. by Pearson, E.A.). pp. 104-121. Pergamon Press, London.

Schafer, C.T., Winters, G.V., Scott, D.B., Pocklington, P., Cole, F.E. and Honig, C. (1995) Survey of living foraminifera and polychaete population at some Canadian Aquaculture sites. Journal of Foraminiferal Research, 25: 236-259.

Scott, D.B., Schafer, C.T., Honig, C. and Younger, D.C. (1995) Temporal variations of benthic foraminiferal assemblages under or near Aquaculture operations:documentation of impact history. Journal of Foraminiferal Research, 25: 224-235.

Schönfeld, J., Alve, E., Geslin, E., Jorissen, F., Korsun, S. and Spezzaferri, S. (2012) The FOBIMO (FOraminiferal BIo-MOnitoring) initiative-Towards a standardized protocol for soft-bottom benthic foraminiferal monitoring studies. Marine Micropaleontology, 94-95: 1-13.

Shannon, C.E. and Weaver, W. (1963) The mathematical theory of communication. pp. 177. University of Illinois Press, Urbana.

Smaal, A.C. (1991) The ecology and cultivation of mussels: New advances. Aquaculture, 94: 245-261.

Smith, J.N., Yeats, P.A. and Milligan, T.G. (2005)Sediment geochronologies for fish farm contaminant in Lime Kilin Bay, Bay of Fundy. In; Environmental Effects of Marine Finfish Aquaculture. (ed. by Hargrave, B.T.). pp. 221-238. Springer, Berlin.

Smith, R.G. (1993) Determination of mercury in environmental samples by isotope dilution/ICPMS. Analytical Chemistry, 65: 2485-2488.

Song, J.H. and Kim, H.Y. (2013) A Comparative Analysis on Business Performances of Abalone Sea-Cage Aquaculture in Wando Region. Journal Fisheries and Marine Sciences Education, 25:410-418.

Stevens, C., Plew, D., Hartstein, N. and Fredriksson, D. (2008) The physics of open-water shellfish Aquaculture. Aquacultural Engineering, 38: 145-160.

Strohmeier, T., Duinker, A., Strand, O. and Aure, J. (2008) Temporal and spatial variation in food availability and meat ratio in a longline mussel farm (Mytilus edulis). Aquaculture, 276: 83-90.

Sutherland, T.F., Levings, C.D., Petersen, S.A., Poon, P. and Piercey, B. (2007). The use of meiofauna as an indicator of benthic organic enrichment associated with salamonid Aquaculture. Marine Pollution Bulletin, 54: 1249-1261.

Thornberg, H.M., Culver, S.J., Corbett, R.C., Mallinson, D.J., Buzas, M.A. and Shazili, N.A.M. (2014) The influence of Aquaculture on modern foraminifera and sediments in the Setiu estuary and lagoon, Terengganu, Malaysia: a temporal investigation. Journal of Foraminiferal Research, 44: 365-389.

Tsujimoto, A., Nomura, R., Yasuhara, M., Yamazaki, H. and Yoshikawa, S. (2006) Impact of eutrophication on shallow marine benthic foraminifers over the last 150 years in Osaka Bay, Japan. Marine Micropaleontology, 60: 258-268.

Tsujimoto, A., Yasuhara, M., Nomura, R., Yamazaki, H., Sampei, Y., Hirose, K. and Yoshikawa, S. (2008)Development of modern benthic ecosystems in eutrophic coastal oceans: the foraminiferal record over the last 200 years, Osaka Bay, Japan. Marine Micropaleontology, 69: 225-239.

Twichell, S.C., Meyers, P.A., Diester-Haass, L. (2002)Significance of high C/N ratios in organic-carbon-rich Neogene sediments under the Benguela Current upwelling system. Organic Geochemistry, 33: 715-722.

Uchio, T. (1962) Influence of the river Shinano on foraminifera and sediment grain distribution. Publications of the Seto Marine Biological Laboratory, 10: 363-393.

Vidovic, J., Cosovic, V., Juracic, M. and Petricioli D. (2009) Impact of fish farming on foraminiferal community, Drvenik Veliki island, Adriatic Sea, Croatia. Marine Pollution Bulletin, 58: 1297-1309.

Vidovic, J., Dolenec, M., Dolenec, T., Karamarko, V., Zvab Rozic, P. (2014) Benthic foraminifera assemblages as elemental pollution bioindicator in marine sediments around fish farm (Vrgada Island, Central Adriatic, Croatia). Marine Pollution Bulletin, 83: 198-213.

Watkins, J.G. (1961) Foraminiferal ecology around the Orange County, California, ocean sewer outfall. Micropaleontology, 7: 199-206.

Woo, H.J. and Lee, Y.G. (2006) Foraminiferal characteristics in the Ganghwa tidal flat. Journal of Wetlands Research, 8: 51-65.

Yucel-Gier, G., Kucuksezgin, F. and Kocak, F. (2007)Effects of fish farming on nutrients and benthic community structure in the Eastern Aegean (Turkey). Aquaculture Research, 38: 256-267.

Zalesny, E.R. (1959) Foraminiferal ecology of Santa Monica bay, California. Micropaleontology, 5: 101-126.