A review of the potential effects of suspended sediment on fishes: potential dredging-related physiological, behavioral, and transgenerational implications

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• 作者：Michael E. Kjelland ; Christa M. Woodley…
• 关键词：Suspended sediments ; Dredging ; Physiology ; Behavior ; Population dynamics ; Epigenetics
• 刊名：The Environmentalist
• 出版年：2015
• 出版时间：September 2015
• 年：2015
• 卷：35
• 期：3
• 页码：334-350
• 全文大小：607 KB
• 参考文献：Allan JD, Erickson DL, Fay J (1997) The influence of catchment land use on stream integrity across multiple spatial scales. Freshw Biol 37:149鈥?61
  Al鈥揝hami SA, Che Salmah MR, Abu Assan A, Siti Azizah MN (2011) Fluctuating asymmetry of Chironomus spp. (Diptera: Chironomidae) larvae in association with water quality and metal pollution in Permatang Rawa River in the Juru River Basin, Penang. Malays Water Air Soil Poll 216:203鈥?16
  Arambourou H, Beisel J-N, Branchu P, Debat V (2014) Exposure to sediments from polluted rivers has limited phenotypic effects on larvae and adults of Chironomus riparius. Sci Total Environ 484:92鈥?01
  Auld AH, Schubel JR (1978) Effects of suspended sediment on fish eggs and larvae: a laboratory assessment. Estuar Coast Mar Sci 6:153鈥?64
  Awata S, Tsuruta T, Yada T, Iguchi K (2011) Effects of suspended sediment on cortisol levels in wild and cultured strains of ayu Plecoglossus altivelis. Aquaculture 314:115鈥?21
  Barrett JC, Grossman GD, Rosenfeld J (1992) Turbidity induced changes in reactive distance of rainbow trout. Trans Am Fish Soc 121:437鈥?43
  Barton BA, Schreck CB (1987) Metabolic cost of acute physical stress in juvenile steelhead. Trans Am Fish Soc 116:357鈥?63
  Bash J, Berman C, Bolton S (2001) Effects of turbidity and suspended solids on salmonids. Washington State Transportation Center (TRAC) Report No. WA-RD 526.1, November 2001, Olympia, WA, 92 pp
  Bellas J, Ekelund R, Halldorsson HP, Berggren M, Granmo A (2007) Monitoring of organic compounds and trace metals during a dredging episode in the G枚ta 脛lv Estuary (SW Sweden) using caged mussels. Water Air Soil Poll 181:265鈥?79
  Berg L (1982) The effect of exposure to short-term pulses of suspended sediment on the behavior of juvenile salmonids. In: Hartman GF (ed) Proceedings of the carnation creek workshop: a ten-year review. Coordinating committee of the carnation creek watershed project, Nanaimo, Canada, pp 177鈥?96
  Berg L, Northcote TG (1985) Changes in territorial, gill鈥揻laring, and feeding behaviour in juvenile coho salmon (Oncorhynchus kisutch) following short-term pulses of suspended sediment. Can J Fish Aquat Sci 42:1410鈥?417
  Berkman HE, Rabeni CF (1987) Effect of siltation on stream fish communities. Environ Biol Fish 18:285鈥?94
  Berli BI, Gilbert MJ, Ralph AL, Tierney KB, Burkhardt-Holm P (2014) Acute exposure to a common suspended sediment affects the swimming performance and physiology of juvenile salmonids. Comp Biochem Phys A Mol Integr Physiol 176:1鈥?0. doi:10.鈥?016/鈥媕.鈥媍bpa.鈥?014.鈥?3.鈥?13
  Berry W, Rubinstein N, Melzian B, Hill B (2003) The biological effects of suspended and bedded sediment (SABS) in aquatic systems: a review. US Environment Protection Agency, National Health and Environmental Health Effects Laboratory, Rhode Island, USA, p 58
  Beussink ZS (2007) The effects of suspended sediment on the attachment and metamorphosis success of freshwater mussel parasitic life stages. Missouri State University, Springfield, Missouri, p 55
  Birtwell IK (1999) The effects of sediment on fish and their habitat. Department of Fisheries and Oceans Canada, Canadian Stock Assessment Secretariat Research Document 99/139, ISSN 1480-4883, Ottawa, Canada, pp 34
  Bjornn TC, Reiser DW (1991) Habitat requirements of salmonids in streams. In: Meehan WR (ed) Influences of forest and rangeland management on salmonid fishes and their habitats. American Fisheries Society Special Publication 19, Bethesda, pp 83鈥?38
  Bjornn TC, Brusven MA, Molnau MP, Milligan JH, Klamt RA, Chacho E, Schaye C (1977) Transport of granitic sediment in streams and its effects on insects and fish. Bulletin 17. College of Forestry, Wildlife and Range Sciences, Moscow, Idaho, pp 43
  Bocchetti R, Fattorini D, Pisanelli B, Macchia S, Oliviero L, Pilato F, Pellegrini D, Regoli F (2008) Contaminant accumulation and biomarker responses in caged mussels, Mytilus galloprovincialis, to evaluate bioavailability and toxicological effects of remobilized chemicals during dredging and disposal operations in harbour areas. Aquat Toxicol 89:257鈥?66
  Bonada N, Williams DD (2002) Exploration of the utility of fluctuating asymmetry as an indicator of river pollution using larvae of the caddisfly Hydropsyche morose (Trichoptera: Hydropsychidae). Hydrobiologia 481:147鈥?56
  Bonner TH, Wilde GR (2002) Effects of turbidity on prey consumption by prairie stream fishes. Trans Am Fish Soc 131(6):1203鈥?208
  Bray BS (2000) Quantitative assessment of suspended sediment concentration on coho salmon in Freshwater Creek. Senior Thesis, Humboldt State University, Arcata, California
  Burkhead NN, Jelks HL (2001) Effects of suspended sediment on the reproductive success of the tricolor shiner, a crevice-spawning minnow. Trans Am Fish Soc 130:959鈥?68
  Campbell HJ (1954) The effect of siltation from gold dredging on the survival of rainbow trout and eyed eggs in Powder River, Oregon. Oregon State Game Commission, Portland Oregon, p 3
  Campbell PM, Pottinger TG, Sumpter JP (1992) Stress reduces the quality of gametes produced by Rainbow Trout. Biol Reprod 47:1140鈥?150
  Campbell PM, Pottinger TG, Sumpter JP (1994) Preliminary evidence that chronic confinement stress reduces the quality of gametes produced by brown and rainbow trout. Aquaculture 120:151鈥?69
  Carlson TJ, Ploskey G, Johnson RL, Mueller RP, Weiland MA, Johnson PN (2001) Observations of the behavior and distribution of fish in relation to the Columbia River navigation channel and channel maintenance activities. Pacific Northwest National Laboratory, Richland, p 35
  Castro J, Reckendorf F (1995) Effects of sediment on the aquatic environment: potential NRCS actions to improve aquatic habitat. Working Paper No. 6. Natural Resources Conservation Service, Oregon State University, pp 24. http://鈥媤ww.鈥媙rcs.鈥媢sda.鈥媑ov/鈥媤ps/鈥媝ortal/鈥媙rcs/鈥媎etail/鈥媙ational/鈥媡echnical/鈥?鈥媍id=鈥媙rcs143_鈥?14201 Accessed 08 April 2015
  Caux P-Y, Moore DRJ, MacDonald D (1997) Ambient water quality guidelines (criteria) for turbidity, suspended and benthic sediments. Technical Appendix. Prepared for BC Ministry of Environment, Land and Parks, pp 146. http://鈥媤ww.鈥媏nv.鈥媑ov.鈥媌c.鈥媍a/鈥媤at/鈥媤q/鈥婤Cguidelines/鈥媡urbidity/鈥媡urbidity.鈥媓tml . Accessed 08 April 2015
  Chapman DW (1988) Critical review of variables used to define effects of fines in redds of large salmonids. Trans Am Fish Soc 117:1鈥?1
  Chapman JM, Proulx CL, Veilleux MAN, Levert C, Bliss S, Andre ME, Lapointe NWR, Cooke SJ (2014) Clear as mud: a meta-analysis on the effects of sedimentation on freshwater fish and the effectiveness of sediment-control measures. Water Res 56:190鈥?02
  Christopher JC (2014) The bovine spermatozoal transcriptome and sire fertility. Dissertations and Master鈥檚 Theses (Campus Access). Paper AAI3619432. http://鈥媎igitalcommons.鈥媢ri.鈥媏du/鈥媎issertations/鈥婣AI3619432 . Accessed 08 April 2015
  Clarke DG, Wilber DH (2000) Assessment of potential impacts of dredging operations due to sediment resuspension. DOER Technical Notes (ERDC TN鈥揇OER鈥揈9). U.S. Army Engineer Research and Development Center, Vicksburg, Mississippi, pp 14
  Coen LD (1995) A review of the potential impacts of mechanical harvesting on subtidal and intertidal shellfish resources. South Carolina Division of Natural Resources, Marine Resources Research Institute, James Island, South Carolina, pp 46
  Collins AL, Walling DE (2007) Fine-grained bed sediment storage within the main channel systems of the Frome and Piddle catchments, Dorset, UK. Hydrol Process 21:1448鈥?459
  Contreras-Sanchez WM, Schreck CB, Fitzpatrick MS, Pereira CB (1998) Effects of stress on the reproduction performance of rainbow trout (Oncorhynchus mykiss). Biol Reprod 58:439鈥?47
  Crocker PA, Young C (1990) Tetrachlorodibenzo-p-dioxins and dibenzofurans in edible fish tissue at selected sites in Arkansas, Louisiana, and Texas. U.S. Environmental Protection Agency, Region 6, Dallas, Texas, pp 87
  Dhimolea E, Wadia PR, Murray TJ, Settles ML, Treitman JD, Sonnenschein C, Shioda T, Soto AM (2014) Prenatal exposure to BPA alters the epigenome of the rat mammary gland and increases the propensity to neoplastic development. PLoS One 9(7):99800
  Donahue I, Irvine K (2003) Effects of sediment particle size composition on survivorship of benthic invertebrates from Lake Tanganyika, Africa. Archive fuer Hydrobiol 157:131鈥?44
  Dudgeon D (2000) The ecology of tropical Asian rivers and streams in relation to biodiversity conservation. Annu Rev Ecol Syst 31:239鈥?63
  Ellis MM (1936) Erosion silt as a factor in aquatic environments. Ecology 17:29鈥?2
  Engwall M, Naf C, Broman D, Brunstrom B (1998) Biological and chemical determination of contaminant levels in settling particulate matter and sediments-a Swedish river system before, during, and after dredging of PCB-contaminated lake sediments. Ambio 27:403鈥?10
  European Inland Fisheries Advisory Commission (EIFAC) Working Party on Water Quality Criteria for European Freshwater Fish (1965) Water quality criteria for European freshwater fish. Report on finely divided solids and inland fisheries. Int J Air Water Poll 9:151鈥?68
  Fleming SW, Quilty EJ, Farahmand T, Hudson P (2005) Magnitude-duration based ecological risk assessment for turbidity and chronic temperature impacts: method development and application to millionaire creek. Prepared for the environmental quality section, environmental protection branch, British Columbia Ministry of Environment, Surrey. Prepared by Aquatic Informatics Inc., Vancouver, pp 56
  Franklin TB, Mansuy IM (2010) Epigenetic inheritance in mammals: evidence for the impact of adverse environmental effects. Neurobiol Dis 39(1):61鈥?5. doi:10.鈥?016/鈥媕.鈥媙bd.鈥?009.鈥?1.鈥?12
  Galbraith RV, MacIsaac EA, Macdonald JS, Farrell AP (2006) The effect of suspended sediment on fertilization success in sockeye (Oncorhynchus nerka) and coho (Oncorhynchus kisutch) salmon. Can J Fish Aquat Sci 63:2487鈥?494
  Gapp K, Jawaid A, Sarkies P, Bohacek J, Pelczar P, Prados J, Farinelli L, Miska E, Mansuy IM (2014) Implication of sperm RNAs in transgenerational inheritance of the effects of early trauma in mice. Nat Neurosci 17:667鈥?69. doi:10.鈥?038/鈥媙n.鈥?695
  Garcia MH (ed) (2008) Sedimentation engineering: processes, measurements, modeling, and practice. ASCE Manuals and Reports on Engineering Practice No. 110. American Society of Civil Engineers, Reston, VA, 1132 pp
  Germano JD, Cary D (2005) Rates and effects of sedimentation in the context of dredging and dredged material placement. DOER Technical Notes Collection (ERDC TN鈥揇OER鈥揈19), U.S. Army Engineer Research and Development Center, Vicksburg, Mississippi, pp 12
  Gillette R, Miller-Crews I, Nilsson EE, Skinner MK, Gore AC, Crews D (2014) Sexually dimorphic effects of ancestral exposure to vinclozolin on stress reactivity in rats. Endocrinology 155(10):3853鈥?866. doi:10.鈥?210/鈥媏n.鈥?014-1253
  Goldes SA, Ferguson HW, Moccia RD, Daoust PY (1988) Histological effects of the inert suspended clay kaolin on the gills of juvenile rainbow trout, Salmo gairdneri Richardson. J Fish Dis 11:23鈥?3
  Gorczyca W, Traganos F, Jesionowska H, Darzynkiewicz Z (1993) Presence of DNA strand breaks and increased sensitivity of DNA in situ to denaturation in abnormal human sperm cells: analogy to apoptosis of somatic cells. Exp Cell Res 207:202鈥?05
  Gos谩lvez J, L贸pez-Fern谩ndez C, Hermoso A, Fern谩ndez JL, Kjelland ME (2014) Sperm DNA fragmentation in zebrafish (Danio rerio) and its impact on fertility and embryo viability鈥攊mplications for fisheries and aquaculture. Aquaculture 433:173鈥?82
  Gray MA, Teather KL, Metcalfe CD (1999) Reproductive success and behaviour of Japanese medaka, Oryzias latipes exposed to 4-tert-octylphenol. Environ Toxicol Chem 18:2587鈥?594
  Gregory RS (1993) Effect of turbidity on the predator avoidance behavior of juvenile chinook salmon (Oncorhynchus tshawytscha). Can J Fish Aquat Sci 50:241鈥?46
  Gregory RS (1988) Effects of turbidity on benthic foraging and predation risk in juvenile chinook salmon. In: Simenstad CA (ed) Effects of dredging on anadromous Pacific coast fishes. Workshop proceedings, September 8鈥?, 1988. Washington Sea Grant Program, University of Washington, Seattle
  Gregory RS, Northcote TG (1993) Surface, planktonic, and benthic foraging by juvenile chinook salmon (Oncorhynchus tshawytscha) in turbid laboratory conditions. Can J Fish Aquat Sci 50:233鈥?40
  Gregory RS, Servizi JA, Martens DW (1993) Comment: utility of the stress index for predicting suspended sediment effects. N Am J Fish Manag 13:868鈥?73
  Griffin FJ, Smith EH, Vines CA, Cherr GN (2009) Impacts of suspended sediments on fertilization, embryonic development, and early larval life stages of the Pacific herring, Clupea pallasi. Biol Bull 216:175鈥?87
  Groenendijk D, Zeinstra LWM, Postma JF (1998) Fluctuating asymmetry and mentum gaps in populations of midge Chironomus riparius (Diptera: Chironomidae) from a metal contaminated river. Environ Toxicol Chem 17:1999鈥?005
  Halse SA, Scanlon MD, Cocking JS, Smith MJ, Kay WR (2007) Factors affecting river health and its assessment over broad geographic ranges: the Western Australian experience. Environ Monit Assess 134:161鈥?75
  Hazelton PD, Grossman GD (2009) Turbidity, velocity and interspecific interactions affect foraging behaviour of rosyside dace (Clinostomus funduloides) and yellowfin shiners (Notropis lutippinis). Ecol Freshw Fish 18:427鈥?36
  Herbert DWM, Merkens JC (1961) The effect of suspended mineral solids on the survival of trout. Int J Air Water Pollut 5:46鈥?5
  Hillman TW, Griffith JS, Platts WS (1987) Summer and winter habitat selection by juvenile chinook salmon in a highly sedimented Idaho stream. Trans Am Fish Soc 116:185鈥?95
  Horppila J, Liljendahl-Nurminen A, Malinen T (2004) Effects of clay turbidity and light on the predator鈥損rey interaction between smelts and chaoborids. Can J Fish Aquat Sci 61(10):1862鈥?870
  Humborstad O-B, J酶rgensen T, Grotmol S (2006) Exposure of cod Gadus morhua to resuspended sediment: an experimental study of the impact of bottom trawling. Mar Ecol Prog Ser 309:247鈥?54
  Hynes HBN (1973) The effects of sediment on the biota in running water. In: Fluvial processes and sedimentation: proceedings of a hydrology symposium. National Research Council, Ottawa, Canada, pp 653鈥?63
  Kefford BJ, Zalizniak L, Dunlop JE, Nugegoda D, Choy SC (2010) How are macroinvertebrates of slow flowing lotic systems directly affected by suspended and deposited sediments. Environ Pollut 158:543鈥?50
  Kemp P, Sear D, Collins A, Naden P, Jones I (2011) The impacts of fine sediment on riverine fish. Hydrol Process 25:1800鈥?821
  Kime DE, Nash JP (1999) Gamete viability as an indicator of reproductive endocrine disruption in fish. Sci Total Environ 223:123鈥?29
  Ki酶rboe T, Frantsen E, Jensen C, S酶rensen G (1981) Effects of suspended sediment on development and hatching of herring (Clupea harengus) eggs. Estuar Coast Shelf Sci 13:107鈥?11
  Krebs RA, Loeschcke V (1994) Costs and benefits of activation of the heat-shock response in Drosophila melanogaster. Funct Ecol 8:730鈥?37
  Kundell J, Rasmussen T (1995) Recommendations of the georgia board of regents scientific panel on evaluating the erosion measurement standard defined by the georgia erosion and sedimentation act. Proceedings 1995 georgia water resources conference. University of Georgia, Athens, Georgia, pp 211鈥?17
  Lake RG, Hinch SG (1999) Acute effects of suspended sediment angularity on juvenile coho salmon (Oncorhynchus kisutch). Can J Fish Aquat Sci 56:862鈥?67
  Lambert Y, Dutil J-D (2000) Energetic consequences of reproduction in Atlantic cod (Gadus morhua) in relation to spawning level of somatic energy reserves. Can J Fish Aquat Sci 57:815鈥?25
  Lambert Y, Dutil J-D, Ouellet P (2000) Nutritional condition and reproductive success in wild fish populations. In: Norberg B, Kjesbu OS, Taranger GL, Andersson E, Stefansson SO (eds) Proceeding of the 6th international symposium on the reproductive physiology of fish. Bergen, Norway, pp 77鈥?4
  Lewis SEM, Aitken RJ (2005) DNA damage to spermatozoa has impacts on fertilization and pregnancy. Cell Tissue Res 322:33鈥?1
  Liu Y, Yuan C, Chen S, Zheng Y, Zhang Y, Gao J, Wang Z (2014) Global and cyp19a1a gene specific DNA methylation in gonads of adult rare minnow Gobiocypris rarus under bisphenol a exposure. Aquat Toxicol 156C:10鈥?6
  Loeschcke V, Krebs RA, Dahlgaard J, Michalak P (2013) High-temperature stress and the evolution of thermal resistance in Drosophila. In: Bijlsma K, Loeschcke V (eds) Environmental stress, adaptation and evolution. Birkh盲user Verlag, 326 pp
  Lotspeich FE, Everest FH (1981) A new method for reporting and interpreting textural composition of spawning gravel. U.S. Forest Service Research Note PNW-369
  Madej MA, Wilzbach M, Cummins K, Ellis C, Hadden S (2007) The significance of suspended organic sediments to turbidity, sediment flux, and fish-feeding behavior. USDA Forest Service General Technical Report PSW鈥揋TR鈥?94, Albany, California, pp 383鈥?85
  Magner JA, Brooks KN (2008) Integrating sentinel watershed-systems into the monitoring and assessment of Minnesota鈥檚 (USA) waters quality. Environ Monit Assess 138:149鈥?58
  Manning LM, Peterson CH, Fegley SR (2013) Degradation of surf-fish foraging habitat driven by persistent sedimentological modification caused by beach nourishment. Bull Mar Sci 89:83鈥?06
  Matta MB, Linse J, Cairncross C, Francendese L (1999) Early life stage and transgenerational effects of Aroclor 1268 and Mercury on fish: the LCP chemical site. National Oceanic and Atmospheric Administration, Seattle, WA and US EPA Region IV, Atlanta, GA, pp 80
  McCormick SD, Shrimpton JM, Carey JB, O鈥橠ea MF, Sloan KE, Moriyama S, Bj枚rnsson BTh (1998) Repeated acute stress reduces growth rate of Atlantic salmon parr and alters plasma levels of growth hormone, insulin-like growth factor I and cortisol. Aquaculture 168:221鈥?35
  McLeay DJ, Birtwell IK, Hartman GF, Ennis GL (1987) Responses of arctic grayling (Thymallus arcticus) to acute and prolonged exposure to Yukon placer mining sediment. Can J Fish Aquat Sci 44:658鈥?73
  McVicar CM, McClure N, Williamson K, Dalzell LH, Lewis SEM (2004) Incidence of Fas positivity and deoxyribonucleic acid double-stranded breaks in human ejaculated sperm. Fertil Steril 81:767鈥?74
  Mileva G, Baker SL, Konkle AT, Bielajew C (2014) Bisphenol-A: epigenetic reprogramming and effects on reproduction and behavior. Int J Environ Res Public Health 11(7):7537鈥?561
  Miner JG, Stein RA (1996) Detection of predators and habitat choice by small bluegills: effects of turbidity and alternative prey. Trans Am Fish Soc 125:97鈥?03
  Missios P, Zhou Y, Guachalla LM, von Figura G, Wegner A, Chakkarappan SR, Binz T, Gompf A, Hartleben G, Burkhalter MD, Wulff V, G眉nes C, Sattler RW, Song Z, Illig T, Klaus S, B枚hm BO, Wenz T, Hiller K, Rudolph KL (2014) Glucose substitution prolongs maintenance of energy homeostasis and lifespan of telomere dysfunctional mice. Nat Commun 5:4924. doi:10.鈥?038/鈥媙comms5924
  Montana Bull Trout Scientific Group (MBTSG) (1998) The relationship between land management activities and habitat requirements of bull trout. The Montana Bull Trout Restoration Team, Helena, p 92
  Muck J (2010) Biological effects of sediment on bull trout and their habitat鈥攇uidance for evaluating effects. Fish and Wildlife Service, Lacey, p 57
  Newcombe CP (2003) Impact assessment model for clear water fishes exposed to excessively cloudy water. J Am Water Resour Assoc 39:529鈥?44
  Newcombe CP, Jensen JOT (1996) Channel suspended sediment and fisheries: a synthesis for quantitative assessment of risk and impact. N Am J Fish Manag 16:693鈥?27
  Newcombe CP, MacDonald DD (1991) Effects of suspended sediment on aquatic ecosystems. N Am J Fish Manag 11:72鈥?2
  Newcombe CP, MacDonald DD (1993) Utility of the stress index for predicting suspended sediment effects: response to comment. N Am J Fish Manag 13:873鈥?76
  Nichols G (1999) Sedimentology and stratigraphy. Blackwell Science, Oxford, pp 355
  Nietch CT, Borst M, Schubauer-Berigan JP (2005) Risk management of sediment stress: a framework for sediment risk management research. Environ Manag 36:175鈥?94
  Nightingale B, Simenstad CA (2001) Dredging activities: marine issues. Washington State Transportation Center (TRAC) No. WA-RD 507.1, Olympia, Washington, pp 182
  Nisbet RM, Muller EB, Lika K, Kooijman SALM (2000) From molecules to ecosystems through dynamic energy budget models. J Anim Ecol 69:913鈥?26
  Noggle CC (1978) Behavioral, physiological and lethal effects of suspended sediment on juvenile salmonids. MS Thesis, University of Washington, Seattle, Washington
  Noonburg EG, Nisbet RM, McCauley E, Gurney WSC, Murdoch WW, de Roos AM (1998) Experimental testing of dynamic energy budget models. Funct Ecol 12:211鈥?22
  Novotny V, Chesters G (1989) Delivery of sediment and pollutants from nonpoint sources: a water quality perspective. J Soil Water Conserv 44:568鈥?76
  NRC (2001) A process for setting, managing, and monitoring environmental windows for dredging projects. Marine Board, Transportation Research Board, Special Report 262. National Research Council, National Academy Press, Washington, D.C., USA, pp 96
  Olson WH, Chase DL, Hanson JN (1973) Preliminary studies using synthetic polymer to reduce turbidity in a hatchery water supply. Prog Fish Cult 35:66鈥?3
  Osmundson DB, Ryel RJ, Lamarra VL, Pitlick J (2002) Flow-sediment-biota relations: implications for river regulation effects on native fish abundance. Ecol Appl 12:1719鈥?739
  Parsely MJ, Popoff ND, Romine JG (2011) Short-term response of subadult white sturgeon to hopper dredge disposal operations. N Am J Fish Manag 31:1鈥?1
  Peddicord RK, McFarland VA, Belfiori DP, Byrd TE (1975) Effects of suspended solids on San Francisco Bay organisms. Physical impact study, appendix G, dredged disposal study, San Francisco Bay and Estuary, San Francisco District, US Army Corps of Engineers, San Francisco, July, pp. 158
  Rabeni CF, Doisy KE, Zweig LD (2005) Stream invertebrate community functional responses to deposited sediment. Aquat Sci 67:395鈥?02
  Rashleigh B (2004) Relation of environmental characteristics to fish assemblages in the Upper French Broad River Basin, North Carolina. Environ Monit Assess 93:139鈥?56
  Ray PD, Yosim A, Fry RC (2014) Incorporating epigenetic data into the risk assessment process for the toxic metals arsenic, cadmium, chromium, lead, and mercury: strategies and challenges. Front Genet 5:201. doi:10.鈥?389/鈥媐gene.鈥?014.鈥?0201
  Redding JM, Schreck CB, Everest FH (1987) Physiological effects on coho salmon and steelhead of exposure to suspended solids. Trans Am Fish Soc 116:737鈥?44
  Reid GK (1961) Ecology of inland waters and estuaries. Reinhold Publishing Corporation, New York, p 375
  Reis PA (1969) Effects of inorganic limestone sediment and suspension on the eggs and fry of Branchydanio rerio. MA Thesis, DePauw University, Greencastle, Indiana
  Rich AA (2010) Potential impacts of re鈥搒uspended sediments associated with dredging and dredged material placement on fishes in San Francisco Bay, California鈥擫iterature review and identification of data gaps. Army Corps of Engineers, San Francisco, California, p 259
  Rieman BE, McIntyre JD (1993) Demographic and habitat requirements for conservation of bull trout. United Stated Forest Service General Technical Report INT鈥?02, Ogden, Utah, pp 42
  Rogers BA (1969) Tolerance levels of four species of estuarine fishes to suspended mineral solids. MS Thesis, University of Rhode Island, Kingston, Rhode Island
  Rowe DK, Dean TL, Williams E, Smith JP (2003) Effects of turbidity on the ability of juvenile rainbow trout, Oncorhynchus mykiss, to feed on limnetic and benthic prey in laboratory tanks. N Z J Mar Freshw Res 37:45鈥?2
  Ryder RA, Pesendorfer J (1989) Large rivers are more than flowing lakes: a comparative review. In: Dodge DP (ed) Proceedings of the international large river symposium. Canadian Special Publication of Fisheries and Aquatic Science,vol 106, pp 65鈥?5
  Sawyer DE, Roman SD, Aitken RJ (2001) Relative susceptibilities of mitochondrial and nuclear DNA to damage induced by hydrogen peroxide in two mouse germ cell lines. Redox Rep 6:182鈥?84
  Sawyer DE, Mercer BG, Wiklendt AM, Aitken RJ (2003) Quantitative analysis of gene鈥搒pecific DNA damage in human spermatozoa. Mutat Res Fundam Mol Mech 529:21鈥?4
  Schreck CB (2010) Stress and fish reproduction: the roles of allostasis and hormesis. Gen Comp Endocr 165:549鈥?56
  Schreck CB, Olla BL, Davis MW (1997) Behavioural responses to stress. In: Iwama OK, Pickering AD, Sumpter JP, Schreck CB (eds) Fish stress and health in aquaculture. Society for Experimental Biology, Cambridge, pp 145鈥?70
  Schreck CB, Contreras-Sanchez W, Fitzpatrick MS (2001) Effects of stress on fish reproduction, gamete quality, and progeny. Aquaculture 197:3鈥?4
  Schwartz JS, Simon A, Klimetz L (2011) Use of fish functional traits to associate in-stream suspended sediment transport metrics with biological impairment. Environ Monit Assess 179:347鈥?69
  Servizi JA, Gordon RW (1990) Acute lethal toxicity of ammonia and SS mixtures to chinook salmon (Oncorhynchus tshawytscha). Bull Environ Contam Toxicol 44:650鈥?56
  Servizi JA, Martens DW (1991) Effect of temperature, season, and fish size on acute lethality of suspended sediments on coho salmon (Oncorhynchus kisutch). Can J Fish Manag Aquat Sci 48:493鈥?97
  Servizi JA, Martens DW (1992) Sublethal responses of coho salmon (Oncorhynchus kisutch) to suspended sediments. Can J Fish Manag Aquat Sci 49:1389鈥?395
  Shaw EA, Richardson JS (2001) Direct and indirect effects of sediment pulse duration on stream invertebrate assemblages and rainbow trout (Oncorhynchus mykiss) growth and survival. Can J Fish Aquat Sci 58:2213鈥?221
  Shepard BB, Leathe SA, Waver TM, Enk DM (1984) Monitoring levels of fine sediment within tributaries to Flathead Lake, and impacts of fine sediment on bull trout recruitment. In: Richardson F, Hamre RH (eds) Wild trout III. Federation of Fly Fishers and Trout Unlimited, Vienna, pp 146鈥?56
  Sherk JA, O鈥機onnor JM, Neumann DA, Prince RD, Wood KV (1974) Effects of suspended and deposited sediments on estuarine organisms鈥攑hase II. Final report, September 17, 1970鈥揇ecember 31, 1973. Natural Resources Institute University, Maryland, College Park, Maryland, pp 299
  Shoup DE, Wahl DH (2009) The effects of turbidity on prey selection by piscivorous largemouth bass. Trans Am Fish Soc 138(5):1018鈥?027
  Sigler JW, Bjornn TC, Everest FH (1984) Effects of chronic turbidity on density and growth of steelheads and coho salmon. Trans Am Fish Soc 113:142鈥?50
  Smith DW (1978) Tolerance of juvenile chum salmon (Oncorhynchus keta) to suspended sediments. MS Thesis, University of Washington, Seattle, Washington
  Sopinka NM (2010) Impact of environmental contaminants on sperm. MS Thesis. McMaster University, Hamilton, Canada
  Sopinka NM, Fitzpatrick JL, Taves JE, Ikonomou MG, Marsh-Rollo SE, Balshine S (2012) Does exposure to aquatic pollution impact reproductive traits in a wild-caught intertidal fish? J Fish Biol 80:2374鈥?383
  Sopinka NM, Hinch SG, Middleton CT, Hills JA, Patterson DA (2014) Mother knows best, even when stressed? Effects of maternal exposure to a stressor on offspring performance at different life stages in a wild semelparous fish. Oecologia 175:493鈥?00
  Stuber RJ, Gebhart G, Maughan OE (1982) Habitat suitability index models: Largemouth bass. US Fish and Wildlife Service, FWS/OBS鈥?2鈥?0鈥?6, Washington DC, p 32
  Sturve J, Berglund A, Balk L, Broeg K, B枚hmert B, Massey S, Savva D, Parkkonen J, Stephensen E, Koehler A, F枚rlin L (2005) Effects of dredging in Goteborg Harbor, Sweden, assessed by biomarkers in eelpout (Zoarces viviparus). Environ Toxicol Chem 24:1951鈥?961
  Suarez MP, Rifai HS, Palachek RM, Dean KE, Koenig L (2005) Polychlorinated dibenzo鈥損鈥揹ioxins and dibenzofurans in Houston Ship Channel tissue and sediment. Environ Eng Sci 22:891鈥?06
  Suedel BC, Lutz CH, Clarke JU, Clarke DG (2012) The effects of suspended sediment on walleye (Sander vitreus) eggs. J Soils Sediments 12:995鈥?003
  Suedel BC, Clarke JU, Lutz CH, Clarke DG, Godard-Codding C, Maul J (2014) Suspended sediment effects on walleye (Sander vitreus). J Gt Lakes Res 40:141鈥?48
  Sullivan SMP, Watzin MC (2010) Towards a functional understanding of the effects of sediment aggradation on stream fish condition. River Res Appl 26:1298鈥?314
  Sullivan SMP, Watzin MC, Hession WC (2006) Influence of stream geomorphic condition on fish communities in Vermont, USA. Freshw Biol 51:1811鈥?826
  Sundberg H, Hanson M, Liewenborg B, Zebuhr Y, Broman D, Balk L (2007) Dredging associated effects: maternally transferred pollutants and DNA adducts in feral fish. Environ Sci Technol 41:2972鈥?977
  Sutherland AB (2003) Effects of excessive sedimentation on the growth and stress response of whitetail shiner (Cyprinella galactura) juveniles. In: Hatcher KJ (ed) Proceedings of the 2003 Georgia water resources conference, held April 23鈥?4. University of Georgia, Institute of Ecology, Atlanta, Georgia, pp 4. http://鈥媓dl.鈥媓andle.鈥媙et/鈥?853/鈥?8360 . Accessed 08 April 2015
  Sutherland AB (2007) Effects of increased suspended sediment on the reproductive success of an upland crevice spawning minnow. Trans Am Fish Soc 136:416鈥?22
  Sutherland AB, Meyer JL (2007) Effects of increased suspended sediment on growth rate and gill condition of two southern Appalachian minnows. Environ Biol Fish 80:389鈥?03
  Sutherland AB, Meyer JL, Gardiner EP (2002) Effects of land cover on sediment regime and fish assemblage structure in four southern Appalachian streams. Freshw Biol 47:1791鈥?805
  Sutherland AB, Maki J, Vaughan V (2008) Effects of suspended sediment on whole-body cortisol stress response of two Southern Appalachian minnows, Erimonax monachus and Cyprinella galactura. Copeia 1:234鈥?44
  Suttle KB, Power ME, Levine JM, McNeely C (2004) How fine sediment in riverbeds impairs growth and survival of juvenile salmonids. Ecol Appl 14:969鈥?74
  Taylor JJ, Wilson SM, Sopinka NM, Hinch SG, Patterson DA, Cooke SJ, Willmore WG (2015) Are there intergenerational and population-specific effects of oxidative stress in sockeye salmon (Oncorhynchus nerka)? Comp Biochem Phys A 184:97鈥?04
  Tellez-Plaza M, Tang WY, Shang Y, Umans JG, Francesconi KA, Goessler W, Ledesma M, Leon M, Laclaustra M, Pollak J, Guallar E, Cole SA, Fallin MD, Navas-Acien A (2014) Association of global DNA methylation and global DNA 6 hydroxymethylation with metals and other exposures in human blood DNA samples. Environ Health Perspect 122(9):946鈥?54
  U.S. EPA (2000) The quality of our nations waters. A summary of the national water quality inventory: 1998 report to congress. Office of Water, Washington DC. 841-S-00-001
  U.S. EPA (2003) National water quality report to congress (305(b) report). http://鈥媤ww.鈥媏pa.鈥媑ov/鈥婳WOW/鈥?05b/鈥?/span> . Accessed 08 April 2015
  U.S. EPA (2006) Framework for developing suspended and bedded sediment (SABS) water quality criteria. Office of Water, Office of Research and Development. EPA-822-R-06-001 http://鈥媍fpub.鈥媏pa.鈥媑ov/鈥媙cea/鈥媍fm/鈥媟ecordisplay.鈥媍fm?鈥媎eid=鈥?64423 Accessed 08 April 2015
  U.S. Army Corps of Engineers (2015) U.S. waterway system: transportation facts and information. Navigation and Civil Works Decision Support Center. http://鈥媤ww.鈥媙avigationdatace鈥媙ter.鈥媢s/鈥媐actcard/鈥媐actcard.鈥媓tm . Accessed 08 April 2015
  Utne-Palm AC (1999) The effect of prey mobility, prey contrast, turbidity and spectral composition on the reaction distance of Gobiusculus flavescens to its planktonic prey. J Fish Biol 54:1244鈥?258
  Utne-Palm AC (2002) Visual feeding of fish in a turbid environment: physical and behavioural aspects. Mar Freshw Behav Physiol 35:111鈥?28
  Vondracek B, Zimmerman JKH, Westra JV (2003) Setting an effective TMDL: sediment loading and effects of suspended sediment on fish. J Am Water Resour Assoc 39:1005鈥?015
  Wallen IE (1951) The direct effect of turbidity on fishes. Bull Okla Agric Mech Coll 48:1鈥?7
  Walling DE (1995) Suspended sediment yields in a changing environment. In: Gurnell AM, Petts GE (eds) Changing river channels. John Wiley & Sons, West Sussex, pp 149鈥?76
  Walters DM, Leigh DS, Bearden AB (2003) Urbanization, sedimentation, and the homogenization of fish assemblages in the Etowah River Basin, USA. Hydrobiologia 494:5鈥?0
  Ward N (1992) The problem of sediment in water for fish. Northwestern Ontario boreal forest management technical notes (TN鈥?1). Ministry of Natural Resources, Ontario
  Waters TF (1995) Sediment in streams: sources, biological effects, and control. American Fisheries Society Monograph 7, Bethesda, p 251
  Watts CD, Naden PS, Cooper DM, Gannon B (2003) Application of a regional procedure to assess the risk to fish from high sediment concentrations. Sci Total Environ 314鈥?16:551鈥?65
  Wedemeyer GA, McLeay JD, Goodyear CP (1984) Assessing the tolerance of fish and fish populations to environmental stress: the problems and methods of monitoring. In: Cairns WV, Hodson PV, Nriaqu JO (eds) Containment effects on fisheries. John Wiley and Sons, New York, pp 163鈥?96
  Wei Y, Schatten H, Sun QY (2015) Environmental epigenetic inheritance through gametes and implications for human reproduction. Hum Reprod Update 21(2):194鈥?08
  Weigmann K (2014) Lifestyle in the sperm: there is growing evidence that epigenetic marks can be inherited But what is the nature of the information they store and over how many generations do they prevail? EMBO Rep 15(12):1233鈥?237. doi:10.鈥?5252/鈥媏mbr.鈥?01439759
  Wichert GA, Rapport DJ (1998) Fish community structure as a measure of degradation and rehabilitation of riparian systems in an agricultural drainage basin. Environ Manag 22:425鈥?43
  Wilber D, Clarke D (2001) Biological effects of suspended sediments: a review of suspended sediment impacts on fish and shellfish with relation to dredging activities in estuaries. N Am J Fish Manag 21:855鈥?75
  Wood PJ (1997) Biological effects of fine sediments in the lotic environment. Environ Manag 21:203鈥?17
  Wood PJ, Toone J, Greenwood MT, Armitage PD (2005) The response of four lotic macroinvertebrate taxa to burial by sediments. Arch Hydrobiol 163:145鈥?62
  Yamada H, Nakamura F (2002) Effect of fine sediment deposition and channel works on periphyton biomass in the Makomanai River, northern Japan. River Res Appl 18:481鈥?93
  Yeager KM, Santschi PH, Rifai H, Suarez M, Brinkmeyer R, Hung CC, Schindler KJ, Andres M, Weaver EA (2007) Dioxin chronology and fluxes in sediments of the Houston Ship Channel, Texas: influences of non鈥搒teady state sediment transport and total organic carbon. Environ Sci Technol 41:5291鈥?298
  Yeager KM, Brinkmeyer R, Rakocinski CF, Schindler KJ, Santischi PH (2010) Impacts of dredging activities on the accumulation of dioxins in surface sediments of the Houston Ship Channel, Texas. J Coast Res 26:743鈥?52
  Yi Y, Wang Z, Zhang K, Yu G, Duan X (2008) Sediment pollution and its effect on fish through food chain in the Yangtze River. Int J Sediment Res 23:338鈥?47
  Zamor RM, Grossman GD (2007) Turbidity affects foraging success of drift鈥揻eeding rosyside dace. Trans Am Fish Soc 136:167鈥?76
  Zhang Z, Hu J, Zhen H, Wu X, Huang C (2008) Reproductive inhibition and transgenerational toxicity of triphenyltin on Medaka (Oryzias latipes) at environmentally relevant levels. Environ Sci Technol 42:8133鈥?139
  Zweig LD, Rabeni CF (2001) Biomonitoring for deposited sediment using benthic invertebrates: a test on 4 Missouri streams. J N Am Benthol Soc 20:643鈥?57
  
• 作者单位：Michael E. Kjelland (1)
  Christa M. Woodley (1)
  Todd M. Swannack (1) (2)
  David L. Smith (1)
  
  1. Environmental Laboratory, U.S. Army Engineer Research and Development Center, Vicksburg, MS, 39180-6199, USA
  2. Department of Biology, Texas State University, San Marcos, TX, 78666, USA
  
• 刊物类别：Earth and Environmental Science
• 刊物主题：Environment
  Nature Conservation
  Ecology
  Economic Geology
  Environmental Management
  
• 出版者：Springer Netherlands
• ISSN：1573-2991

文摘

The long-term effects of sediment exposure on aquatic organisms are poorly understood, yet it is critical for determining threshold effects and exposure limits to mitigate potential impacts with regard to population dynamics. In this paper, we present the current state of knowledge to help consolidate the breadth of information regarding total suspended solids (TSS) thresholds for aquatic species, as well as identify areas where data are lacking. More specifically, we provide the state of the science related to TSS effects on freshwater and estuarine fish including short-term (i.e., physiology and behavior) and long-term effects. Our research indicated that little attention has been given to examining long-term effects, e.g., transgenerational effects, from suspended sediments (SS) on fish populations. Understanding transgenerational effects is paramount to developing and predicting the links between fish condition, survival, populations, and communities. Survival of a local fish population to high sediment loads often translates into short-term physiological and behavioral effects; however, the ramifications of such exposure events are rarely tracked across generations. The majority of studies involving SS effects on fish have focused on exposure and mortality rates of affected fish, deposited eggs, or larvae. We developed a conceptual model that highlighted the interactions between sediment dynamics and fish populations. The model can assist in the formulation of more quantitative-based approaches for modeling these interactions. Future research efforts should focus on developing an understanding of whether environmental disturbances, e.g., dredging, may lead to epigenetic changes that may lead to cascade population effects, and if so, under what circumstances. Keywords Suspended sediments Dredging Physiology Behavior Population dynamics Epigenetics