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http://dx.doi.org/10.7837/kosomes.2015.21.1.109

Review on the Biological Effects of Suspended Solids on Shellfish, Fish, and Seaweed  

Lee, Kyoung-Seon (Department of Environmental Engineering and Biotechnology, Mokpo National Maritime University)
Publication Information
Journal of the Korean Society of Marine Environment & Safety / v.21, no.1, 2015 , pp. 109-118 More about this Journal
Abstract
In order to obtain basic informations about impact assessment of marine life by suspended solids in coastal waters, the survey about recent study related with suspended solids effects on exploitable marine life (shellfish, fish, seaweed.) was tried. 1) The paper concerning impacts of suspended solids on marine life has been mainly focused on shellfish. 2) Effects of suspended solids on marine life mainly investigated for acute toxicity. 3) Experiments with suspended solids are intended on adult and juvenile in shellfish, egg and juvenile in fish, and spores in seaweed. Biological impacts of suspended solids can vary depending on concentrations, duration, and life stage, and these informations would improve a knowledge of the effects of suspended solids on marine life.
Keywords
Suspended solids; Bological impacts; Shellfish; Fish; Seaweed;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
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1 Quinn, J. M., R. J. Davies-Colley, C. W. Hichey, M. L. Vickers and P. A. Ryan(1992), Effects of clay discharges on streams; 2. Benthic invertebrates, Hydrobiologia, Vol. 248, pp. 235-247.   DOI
2 Redding, J. M., C. B. Schreck and F. H. Everest(1987), Physiological Effects on Coho Salmon and Steelhead of Exposure to Suspended Solids. Transactions of the American Fisheries Society, Vol. 116, pp. 737-744.   DOI
3 Robinson, W. E., W. E. Wehling and M. P. Morse(1984), The effect of suspended clay on feeding and digestive efficiency of the surf clam, Spisula solidissima (Dillwyn), Journal of Experimental Marine Biology and Ecology, Vol. 74, pp. 1-12.   DOI
4 Seaman, M. N. L., E. His, M. Keskin and T. Reins(1991), Influence of turbulence and turbidity on growth and survival of laboratory reared bivalve larvae, International Council for the Exploration of the Sea, K:56, pp. 1-6.
5 Shin, P. K. S., F. N. Yau, S. H Chow, K. K. Tai and S. G. Cheung(2002), Responses of the green-lipped mussel Perna viridis (L.) to suspended solids, Marine Pollution Bulletin, Vol. 45, pp. 157-162.   DOI
6 Suedel, B. C., C. H. Lutz, J. U. Clarke and D. G. Clarke(2012), The effects of suspended sediment on walleye (Sander vitreus) eggs, Journal of Soils Sediments, Vol. 12, pp. 995-1003.   DOI
7 Suzuki, Y., T. Maruyama, A. Miura and J. Shin(1997), Effects of suspended or accumulated kaolinite particles on adhesion and germination of Porphyra yezoensis conhospores, Journal of JSCE, Vol. 559, pp. 73-79.
8 Suzuki, Y., T. Maruyama, T. Takami and A. Miura(1998), Inhibition effects of suspended and accumulated particles on adhesion and development of Undaria pinnatifida zoospores, Journal of Japan Society on Water Environment, Vol. 21, pp. 670-675.   DOI
9 Tazaki, K., N. Nawatani, Y. Kunimine, T. Morikawa, T. Nagura, R. Warimoto, R. Asada, H. Watanabe, K. Nagai, Y. Ikeda, K. Sato, H. Segawa and K. Miyata(2002), Sediment characteristics of dasidaira dam reservoir of Kurobe river and Toyama bay and flushed suspension impacts on fishes. Journal of Geological Society of Japan, Vol. 108, pp. 435-452.   DOI
10 Thirb, H. H. and K. Benson-Evans(1985), The effect of water temperature, current velocity and suspended solids on the distribution, growth and seasonality of Lemanea fluviatilis (C. Ag.), Rhodophyta, in the River Usk and other South Wales rivers, Hydrobiologia, Vol. 127, pp. 63-78.   DOI
11 Tse, C. Y., K. M, Chan and C. K. Wong(2010), DNA damage as a biomarker for assessing the effects of suspended solids on the orange-spotted grouper, Epinephelus coioides, Fish Physiology and Biochemistry, Vol. 36, pp. 141-146.   DOI
12 Umar, M. J., L. J. McCook and I. R. Price(1998), Effects of sediment deposition on the seaweed sargassum on fringing coral reef. Coral Reefs, Vol. 17, pp. 169-177.   DOI
13 Utne-Palm, A. C.(2004), Effects of larvae ontogeny, turbidity, and turbulence on prey attack rate and swimming activity of Atlantic herring larvae, Journal of Experimental Marine Biology and Ecology, Vol. 310, pp. 147-161.   DOI
14 Wilber, D. H. and D. G. Clarke(2001), Biological effects of suspended sediments: a review of suspended sediment impacts on fish and shellfish with relation to dredging activities in estuaries, North American Journal of Fisheries Management. Vol. 21, 855-875.   DOI
15 Yoo, H. I., J. H. Kim and H. G. Choi(2010), Effects of sediment (silt), water movement, and light intensity on the survival and growth of sporelings of epiphytic Campylaephora hypnaeoides, Korean Journal of Fisheries Aquatic Science, Vol. 43, pp. 230-245.
16 Auld, A. H. and J. R. Schubel(1978), Effects of suspended sediment on fish eggs and larvae: a laboratory assessment, Estuarine and Coastal Marine Science, Vol. 6, pp. 153-164.   DOI   ScienceOn
17 Yoon, S. J. and G. S. Park(2011), Ecotoxicological effects of the increased suspended solids on marine benthic organisms, Journal of the Environmental Sciences, Vol. 20, pp. 1383-1394.   DOI
18 Yurimoto, T., K. Tanaka, H. Nasu and K. Matsuoka(2008), Influence of resuspended sediments and their surface accumulation on a pen shell Atrina pectinata in Ariake Bay, West Japan, Aquaculture science, Vol. 56, pp. 335-342.
19 Arakawa H.(2005), Lethal effects caused by suspended particles and sediment load on zoospores and gametophytes of the brown alga Eisenia bicyclis, Fisheries Science, Vol. 71, pp. 133-140.   DOI
20 Arakawa, H. and K. Matsuike(1992), Influence on insertion of zoospores, germination, survival, and maturation of gametophytes of brown algae, exerted by sediments, Nippon Suisan Gakkaish, Vol. 58, pp. 619-625.   DOI
21 Baba, Y., K. Kawana, T. Handa, N. Iwata and K. Namba(2006), Eco-Physiological effects of suspended solids on fish-Effects of smectite on the survival of Japanese flounder Paralichthys olivaceus, Nippon Suisan Gakkaishi, Vol. 72, pp. 408-413.   DOI
22 Bacon, G. S., B. A. MacDonald and J. E. Ward(1998), Physiological responses of infaunal (Mya arenaria) and epifaunal (Placopecten magellanicus) bivalves to variations in the concentration and quality of suspended particles. I. Feeding activity and selection, Journal of Experimental Marine Biology and Ecology, Vol. 219, pp. 105-125.   DOI
23 Bash, J., C. Berman and S. Bolton(2001), Effects of turbidity and suspended solids on salmonids. Final research report, Washington State Transportation Center, USA, pp. 1-66.
24 Berry W., N. Rubinstein and B. Melzian(2003), The biological effects of suspended and bedded sediment (SABS) in aquatic systems: A review, Internal EPA report, http://www.epa.gov/waterscience/criteria/sediment/pdf/, pp. 1-58.
25 Bilotta, G. S. and R. E. Brazier(2008), Understanding the influence of suspended solids on water quality and aquatic biota, Water Research, Vol 42, pp. 2849-2861.   DOI
26 Boehlert, G. W. and J. B. Morgan(1985), Turbidity enhances feeding abilities of larval Pacific herring, Clupea harengus pallasi, Hydrobiologia, Vol. 123, pp. 161-170.   DOI
27 Chang, S. D. and P. Chin(1978), Effects of suspended silt and clay on the mortality of some species of bivalves, Bulletin of the Korean Fisheries Society, Vol. 11, pp. 227-231.
28 Bricelj, V. M. and R. E. Malouf(1984), Influence of algal and suspended sediment concentrations on the feeding physiology of the hard clam Mercenaria mercenaria, Marine Biology, Vol. 84, pp. 155-165.   DOI
29 Bricelj, V. M., R. E. Malouf and C. de Quillfeldt(1984), Growth of juvenile Mercenaria mercenaria and the effect of resuspended bottom sediments, Marine Biology, Vol. 84, pp. 167-173.   DOI
30 Chang, S. D., P. Chin and B. O. Sung(1976), Effect of silt and salinity on the mortality of Meretrix lusoria (Roding), Bulletin of the Korean Fisheries Society, Vol. 9, pp. 69-73.
31 Chang, S. D., P. Chin and K. Y. Park(1983), Effects of temperature, salinity, and silt and clay on the rate of photosynthesis of laver, Porphyra yezoensis, Bulletin of the Korean Fisheries Society, Vol. 16, pp. 335-340.
32 Chapman, A. S. and R. L. Fletcher(2002), Differential effects of sediments on survival and growth and growth of Fucus serratus embryos (Fucales, Phaophyceae), Journal of Phycology, Vol. 38, pp. 894-903.   DOI
33 Cheung, S. G. and P. K. S. Shin(2005), Size effects of suspended particles on gill damage in green-lipped mussel Perna viridis, Bulletin of Marine Pollution, Vol. 51, pp. 801-810.   DOI
34 Chin P., Y. K. Shin, H. S. Kim and O. Y. Chang(1998), Effects of suspended solids on mortality, respiration and feeding behavior of marine animals, Bulletin of the Korean Fisheries Society, The Korean Fisheries Society 1998 program, pp. 316-317.
35 Cho, K. W., J. H. Maeng, B. S. Shin and B. J. Kim(2003), Studies on Improvement of Costal Flow and Suspend Predictions in the Coastal Zone Developments, KEI, RE-19, pp. 29-37.
36 Davis, H. C. and H. Hidu(1969), Effects of turbidity producing substances in sea water on eggs and larvae of three genera of bivalve mollusks, The Veliger, Vol. 11, pp. 316-323.
37 Cho, Y. M.(2004), Variation of filtration rate of the short-necked clam, Ruditapes philippinarum, with concentration of suspended solid, Master Thesis, Yosu University, pp. 1-95.
38 Chung, E. Y., Y. K. Shin and J. H. Lee(1993), Effects of silt and clay on respiration and mortality of the abalone, Nordotis discus, The Korean Journal of Malacology, Vol. 9, pp. 23-29.
39 Chung, E. Y., Y. K. Shin and J. H. Lee(1994), Effects of suspended sediment on metabolism of Scapharca broughtonii, The Korean Journal of Malacology, Vol. 10, pp. 55-63.
40 Devinny J. S. and L. A. Volse(1978), Effects of sediments on the development of Macrocystis pyrifera gametophyte, Marine Biology, Vol. 48, pp. 343-348.   DOI
41 Ekelund, R., A. Granmo, M. Berggren, L. Renberg and C. Wahlberg(1987), Influence of suspended solids on bioavailability of hexachlorobenzene and lindane to the deposit-feeding marine bivalve, Abra nitida (Muller), Bulletin of Environmental Contamination and Toxicology, Vol. 38, pp. 500-508.   DOI
42 Ellis, J., V. Cummings, J. Hewitt, S. Thrush and A. Norkko(2002), Determining effects of suspended sediment on condition of a suspension feeding bivalve (Atrina zelandica): results of a survey, a laboratory experiment and a field transplant experiment, Journal of Experimental Marine Bilogy and Ecology, Vol. 267, pp. 147-174.   DOI
43 Grant, J. and B. Thorpe(1991), Effects of suspended sediment on growth, respiration, and excretion of the soft-shell clam (Mya arenaria), Canadian Journal of Fisheries and Aquacultural Science, Vol. 48, pp. 1285-1292.   DOI
44 Hewitt, J. E. and J. Norkko(2007), Incorporating temporal variability of stressors into studies: An example using suspension-feeding bivalves and elevated suspended sediment concentrations, Journal of Experimental Marine Biology and Ecology, Vol. 341, pp. 131-141.   DOI
45 Griffin, F. J, E. H. Smith, C. A. Vines and C. N. Cherr(2008), Impacts of suspended sediments on fertilization, embryonic development, and early larval life stages of the Pacific herring, Clupea pallasi, A report to the US Army Corps of engineers and the long-term management strategy environmental windows science work group, pp. 1-36.
46 Hawkins, A. J. S., R. F. M. Smith, B. L. Bayne and M. Heral(1996), Novel observations underlying the fast growth of suspension-feeding shellfish in turbid environments: Mytilus edulis, Marine Ecology Progress Series, Vol. 131, pp. 179-190.   DOI
47 Hewitt, J. E. and C. A. Pilditch(2004), Environmental history and physiological state influence feeding responses of Atrina zelandica to suspended sediment concentrations, Journal of Experimental Marine Biology and Ecology, Vol. 306, pp. 95-112.   DOI
48 Hewitt, J., S. Hatton, K. Safi and R. Craggs(2001), Effects of suspended sediment levels on suspension feeding shellfish in the Whitford Embayment, National Institute of Water & Atmospheric Research Ltd., Auckland Regional Council Technical Publication, No. 159, pp. 1-37.
49 Iwata, N., S. Yokayanma, K. Tanaka, K. Kawana and K. Namba(2011), Eco-physiological effects of suspended solids on fish-lethal effects of clay mineral suspension on Japanese flounder Paralichthys olivaceus in relation to the mineral composition and suspending method of clay mineral products, Nippon Suisan Gakkaishi, Vol. 77, pp. 215-222.   DOI
50 Jones, A. B., N. P. Preston and W. C. Dennison(2002), The efficiency and condition of oysters and macroalgae used as biological filters of shrimp pond effluent, Aquaculture Research, Vol. 33, pp. 1-19.   DOI
51 Kiorboe, T., E. Frantsen, C. Jensen and G. Sorensen(1981a), Effect of suspended sediment on development and hatching of herring (Clupea harengus) eggs, Estuarine Coastal and Shell Sciece, Vol. 13, pp. 107-111.   DOI
52 Kiorboe, T., F. Mohlenberg and O. Nohr(1981b), Effect of suspended bottom material on growth and energetics in Mytilus edulis, Marine Biology, Vol. 61, pp. 283-288.   DOI
53 Lee, J. Y.(1994), Effects of silt and clay on the rates of respiration, filtration and nitrogen excretion in shellfish, Mactra veneriformis, Bulletin of the Korean Fisheries Society, Vol. 27, pp. 59-68.
54 Lee, K. S.(2008), The effects of suspended solids on the mortality and the glycogen content of abalone, Haliotis discus hannai, Journal of the Korean Society of Marine Environment & Safety, Vol. 14, pp. 183-187.
55 Li, Y. and A. Shen(2012), Gill damage and recovery in juvenile black sea bream Acanthopagrus schlegelii stressed by uncontaminated suspended solids, Advanced Materials Research, Vol. 518-523, pp. 5047-5054.   DOI
56 Longstaff, B. J. and W. C. Dennison(1999), Seagrass survival during pulsed turbidity events: the effects of light deprivation on the seagrasses Halodule pinifolia and Halophila ovalis, Aquatic Botany, Vol. 65, pp. 105-121.   DOI
57 Longstaff, B. J., N.R. Loneragan, M. O'Donohue and W.C. Dennison(1999), Effects of light deprivation on the survival and recovery of the seagrass Halophila ovalis(R.B.r) Hook, Journal of Experimental Marine Biology and Ecology, Vol. 234, pp. 1-27.   DOI
58 MacDonald, B. A., G. S. Bacon and J. E. Ward(1998), Physiological response of infaunal (Mya arenaria) and epifaunal (Placopecten magellanicus) bivalves to variations in the concentration and quality of suspended particles II. Absorption efficiency and scope of growth, Journal of Experimental Marine Biology and Ecology, Vol. 219, pp. 127-141.   DOI
59 Loosanoff, V. L.(1962), Effects of turbidity on some larval and adult bivalves, Proceedings of the Gulf and Caribbean Fisheries Institute 14th Annual Session. pp. 80-95.
60 Lyngby J. E. and S. M. Mortensen(1996), Effects of dredging activities on growth of Laminaria saccharina, Marine Ecology, Vol. 17, pp. 345-354.   DOI
61 Moon, M. H., J. W. Cho and M. C. Lee(1991), A variation on the marine environments in the Yeongsan river estuary, Natural Science Research, Vol. 14, pp. 101-115.
62 Moore, K. A., R. L. Wetzel and R. J. Orth(1997), Seasonal pulses of turbidity and their relations to eelgrass (Zostera marina L.) survival in an estuary, Journal of Experimental Marin Biology and Ecology, Vol. 215, pp. 115-134.   DOI   ScienceOn
63 Morgan, R. P., V. J. Rasin and L. A. Noe(1973), Effects of suspended sediments on the development of eggs and larvae of striped bass and white perch, Final report to the USA army corps of engineers, Philadelphia, USA, pp. 73-110.
64 Neumanna, A., J. M. O'Connora, J. A. Sherka and K. V. Wooda(1975), Respiratory and hematological responses of oyster toadfish (Opsanus tau) to suspended solids, Transactions of the American Fisheries Society, Vol. 104, pp. 775-781.   DOI
65 Newcombe, C. P. and D. D. MacDonald(1991), Effects of suspended sediments on aquatic ecosystems, North American Journal of Fisheries Management, Vol. 11, pp. 72-82.   DOI
66 Norkko, J., J. E. Hewitt and S. F. Thrush(2006), Effects of increased sedimentation on the physiology of two estuarine soft-sediment bivalves, Austrovenus stutchburyi and Paphies australis, Journal of Experimental Marine Biology and Ecology, Vol. 333, pp. 12-26.   DOI
67 Newcombe, C. P. and J. O. T. Jensen(1996), Channel suspended sediment and fisheries: a synthesis for quantitative assessment of risk and impact, North American Journal of Fisheries Management, Vol. 16, pp. 693-727.   DOI
68 NFRDI(2010), The effect of suspended solid on the aquaculture farm of bivalve, 2009 Report of National Fisheries Research & Development Institute, Fisheries Resources and Environment Division East Sea Fisheries Research Institute, National Fisheries Research & Development Institute, TR-2010-ME-004, pp. 1-49.
69 Nicholls, P., J. Hewitt and J. Halliday(2003), Effects of suspended sediment concentrations on suspension and deposit feeding marine macrofauna, National Institute of Water & Atmospheric Research Ltd., Auckland Regional Council Technical Publication No. 211, pp. 1-31.
70 Ohata, R., R. Masuda, M. Ueno, Y Fukunishi and Y. Yamashita(2011), Effects of turbidity on survival of larval ayu and red sea bream exposed to predation by jack mackerel and moon jellyfish, Fisheries Science, Vol. 77, pp. 207-215.   DOI
71 Ohata, R., R. Masuda, K. Takahashi and Y. Yamashita(2013), Moderate turbidity enhances schooling behaviour in fish larvae in coastal waters, ICES Journal of Marine Science, Vol. 71, pp. 925-929.
72 Phillips, N. E. and J. S. Shima(2006), Differential effects of suspended sediments on larval survival and settlement of New Zealand urchins Evechinus chloroticus and abalone Haliotis iris, Marine Ecology Progress Series, Vol. 314, pp. 149-158.   DOI