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This page provides a list of references in the field of turbidity research, current to April 2006. This list is by no means complete, if you have any additions to make or suggestions, please email me: justin.meager@bio.uib.no
Abou-Seedo, F., Clayton, D. A. and Wright, J. M. (1990). Tidal and turbidity effects on the shallow-water fish assemblages of Kuwait Bay. Marine Ecology Progress Series 65: 213-223. Abrahams, M. and Kattenfeld, M. (1997). The role of turbidity as a constraint on predator-prey interactions in aquatic environments. Behavioral Ecology and Sociobiology 40(3): 169-174. Abrahams, M. V. (1994). Of predation and its influence on the relative competitive abilities of 2 species of fresh-water fishes. Canadian Journal of Fisheries and Aquatic Sciences 51(7): 1629-1633. Aksnes, D. L. and Giske, J. (1993). A theoretical model of aquatic visual feeding. Ecological Modelling 67: 233-250. Aksnes, D. L., Nejstgaard, J., Soedberg, E. and Sornes, T. (2004). Optical control of fish and zooplankton populations. Limnology and Oceanography 49(1): 233-238. Aksnes, D. L. and Utne, A. C. W. (1997). A revised model of visual range in fish. Sarsia 82(2): 137-147. Alexander Jr, J. E., Thorp, J. H. and Fell, R. D. (1994). Turbidity and temperature effects on oxygen consumption in the zebra mussel (Dreissena polymorpha). Canadian Journal of Fisheries and Aquatic Sciences 51: 179-184. Ali, M. A., Ryder, R. A. and Anctil, M. (1977). Photoreceptors and visual pigments as related to behavioural responses and preferred habitats of perches (Perca spp.) and pikeperches (Stizostedion spp.). Journal of the Fisheries Research Board of Canada 34. Asaeda, T., Kyung Park, B. and Manatunge, J. (2002). Charateristics of reaction field and the reactive distance of a planktivore Pseudorasbora parva (Cyprinidae) in various environmental conditions. Hydrobiologia 489: 29-43. Baker, C. F. (2003). Effect of adult pheromones on the avoidance of suspended sediment by migratory banded kokopu juveniles. Journal of Fish Biology 62(2): 386-394. Bardonnet, A., Bolliet, V. and Belon, V. (2005). Recruitment abundance estimation: role of glass eel (Anguilla Anguilla L.) response to light. Journal of Experimental Marine Biology and Ecology 321(2): 181-190. Barefield, R. L. and Ziebell, C. D. (1986). Comparative feeding ability of small white and black crappie in turbid water. Iowa State Journal of Research 61(1): 143-146. Barrett J.C., Grossman, G. D. and Rosenfeld, J. (1992). Turbidity induced changes in reactive distance of rainbow trout. Transaction of the American Fisheries Society 121: 437-443. Barry, M. (1978). Behavioral response of yellowfin tuna, Thunnus albacares, and kawakawa, Euthynnus affinis , to turbidity. Seattle, WA (USA): NOAA/ERL(DOMES). Bash, J., Berman, C. and Bolton, S. (2001). Effects of turbidity and suspended solids on salmonids . (Report No. WA-RD 526.1). Seattle: Washington State Transportation Centre. Beauchamp, D. A., Baldwin, C. M., Vogel, J. L. and Gubala, C. P. (1999). Estimating diel, depth-specific foraging opportunities with a visual encounter rate model for pelagic piscivores . Canadian Journal of Fisheries and Aquatic Sciences 56: 128-. Benfield, M. C. and Minello, T. J. (1996). Relative effects of turbidity and light intensity on reactive distance and feeding of an estuarine fish. Environmental Biology of Fishes 46(2): 211-216. Berg, L. (1982). The effect of exposure to short-term pulses of suspended sediment on the behavior of juvenile salmonids. (Report No. Department of Fisheries and Oceans, Pacific Biological Station, ). Nanaimo, Canada.: Berg, L. and Northcote, T. G. (1985). Changes in territorial, gill-flaring, and feeding-behaviour in juvenile coho salmon (Oncorhynchus kisutch) following short-term pulses of suspended sediment. Canadian Journal of Fisheries and Aquatic Sciences 42(8): 1410-1417. Berger, R., Bergstrom, L., Graneli, E. and Kautsky, L. (2004). How does eutrophication affect different life stages of Fucus vesiculosus in the Baltic Sea? A conceptual model. Hydrobiologia 514(1-3): 243-248. Beyst, B., Hostens, K. and Mees., J. (2002). Factors influencing the spatial variation in fish and macrocrustacean communities in the surf zone of sandy beaches in Belgium. Journal of the Marine Biological Association of the United Kingdom 82: 181-187. Bisson, P. A. and Bilby, R. E. (1982). Avoidance of suspended sediment by juvenile coho salmon. North American Journal of Fisheries Management 4: 371-374. Blaber, S. J. M. (1980). Fish of the Trinity Inlet system of north Queensland with notes on the ecology of fish faunas of tropical Indo-Pacific estuaries. Australian Journal of Marine and Freshwater Research 31: 137-146. Blaber, S. J. M. (1981). The zoogeographical affinities of estuarine fishes in south-east Africa. South African Journal of Science 77: 305-307. Blaber, S. J. M. and Blaber, T. G. (1980). Factors affecting the distribution of juvenile estuarine and inshore fish. Journal of Fish Biology 17: 143-162. Blaber, S. J. M., Brewer, D. T and Salini, J. P. (1989). Species composition and biomass of fishes in different habitats of a tropical northern Australian Estuary: their occurrence in the adjoining sea and estuarine dependence. Estuarine, Coastal and Shelf Science 29: 509-531. Blaber, S. J. M., Brewer, D. T. and Salini, J. P. (1995). Fish communities and the nursery role of shallow inshore waters of a tropical bay in the Gulf of Carpentaria, Australia. Estuarine Coastal and Shelf Science 40: 177-193. Blaber, S. J. M., Young, J. W. and Dunning, M. C. (1985). Community structure and zoogeographic affinities of the coastal fishes of the Dampier region of North-western Australia. Australian Journal of Marine and Freshwater Research 36: 247-266. Boehlert, G. W. and Morgan , J. B. (1985). Turbidity enhances feeding of larval Pacific herring, Clupea harengus pallasi. Hydrobiologia 123: 161-170. Boisclair, D. and Rasmussen, J. B. (1996). Empirical analysis of the influence of environmental variables associated with lake eutrophication on perch growth, consumption, and activity rates. Annales Zoologici Fennici 33(3-4): 507-515. Bonner, T. H. and Wilde, G. R. (2002 Nov). Effects of Turbidity on Prey Consumption by Prairie Stream Fishes. Transactions of the American Fisheries Society 131(6): 1203-1208. Boubee, J. A T. Dean T. L., West, D. W. and Barrier, R. F. G. (1997). Avoidance of suspended sediment by the juvenile migratory stage of six New Zealand native fish species. New Zealand Journal of Marine and Freshwater Research 31: 61-69. Bowmaker, J. K. (1995). The visual pigments of fish . Progress in Retinal and Eye Research 15(1): 1-31. Breitburg, D. L. (1988). Effects of turbidity on prey consumption by striped bass larvae. Transaction of the American Fisheries Society. 117: 72-77. Bristow, B. T., Summerfelt, R. C. and Clayton, R. D. (Jan 1996). Comparative Performance of Intensively Cultured Larval Walleye in Clear, Turbid, and Colored Water. Progressive Fish-Culturist 58(1): 1-10. Cezilly, F. (1992). Turbidity as an ecological solution to reduce the impact of fish-eating colonial waterbirds on fish farms. Colonial Waterbirds 15(2): 249-252. Chesney, E. J. (1989). Estimating the food requirement of striped bass larvae Morone saxatilis: effects of light, turbidity and turbulence. Marine Ecology Progress Series 53: 191-200. Chong, V. C. (1995). The prawn-mangrove connection - fact or fallacy? Seminar on the Productivity and Sustainable Utilization of Brackish Water Mangrove Ecosystem. Japan International Research Centre for Agricultural Sciences (JIRCAS). 12-13 December, 1995. Kuala Lumpur, Malaysia. pp. 56-61. Cobcroft, J. M., Pankhurst, P. M., Hart, P. R. and Battaglene, S. C. (2001). The effects of light intensity and algae-induced turbidity on feeding behaviour of larval striped trumpeter. Journal of Fish Biology 59(5): 1181-1197. Copp, G. H. (1993). The upper river Rhone revisited - an empirical-model of microhabitat use by 0+ juvenile fishes. Folia Zoologica 42(4): 329-340. Craig, J. F. and Babaluk, J. A. (1989). Relationship of condition of walleye (Stizostedion vitreum) and northern Pike (Esox lucius) to water clarity, with special reference to Dauphin Lake, Manitoba. Canadian Journal of Fisheries and Aquatic Sciences 46(9): 1581-1586. Crouse, M. R., Callahan, C. A., Malueg, K. W. and Dominguez, S. E. (1981). Effects of fine sediments on growth of juvenile coho salmon in laboratory streams. Transaction of the American Fisheries Society 110: 281-286. Crowl, T. A. (1989). Effects of crayfish size, orientation, and movement on the reactive distance of largemouth bass foraging in clear and turbid water. Hydrobiologia 183: 133-140. Currie, D. R. and Small, K. J. (2005). Macrobenthic community responses to long-term environmental change in an east Australian sub-tropical estuary. Estuarine Coastal and Shelf Science 63(1-2): 315-331. Cyrus, D. P and Blaber, S. J M. (1982). Species identification, distribution and abundance of gerreidae (teleostei) in the estuaries of natal, south africa. South African Journal of Zoology 17(3): 105-116. Cyrus, D. P. and Blaber, S. J. M. (1987a). The influence of turbidity on juvenile marine fishes in estuaries. Part 1. Field studies at Lake St. Lucia on the south east coast of Africa. Journal of Experimental Marine Biology and Ecology 109: 53-70. Cyrus, D. P. and Blaber, S. J. M. (1987b). The influence of turbidity on juvenile marine fishes in estuaries. Part 2. Laboratory studies, comparisons with field data and conclusions. Journal of Experimental Marine Biology and Ecology 109: 71-91. Cyrus, D. P and Blaber, S. J M. (1988). The potential effects of dredging activities and increased silt load on the st. Lucia system south africa with special reference to turbidity and the estuarine fauna. Water S a (Pretoria) 14(1): 43-48. Cyrus, D. P. and Blaber, S. J. M. (1992). Turbidity and salinity in a tropical northern Australian estuary and their influence on fish distribution. Estuarine Coastal and Shelf Science 35(6): 545-563. Davies-Colley, R. J. (1988). Measuring water clarity with a black disk. Limnology and Oceanography 33(4): 616-623. Davies-Colley, R. J. and Smith, D. G. (2001 ). Turbidity, suspended sediment, and water clarity: a review. Journal of the American Water Resources Association 37(5): 1085-1101. De La Moriniere, E. C., Nagelkerken, I., Van Der Meij, H. and Van Der Velde, G. (2004). What attracts juvenile coral reef fish to mangroves: habitat complexity or shade? Marine Biology 144(1): 139-145. de Robertis, A., Ryer, C. H., Veloza, A. and Brodeur, R. D. (2003). Differential effects of turbidity on prey consumption of piscivorous and planktivorous fish. Canadian Journal of Fisheries and Aquatic Sciences 60(12): 1517-1526. Devries, D. R. (1990). Habitat use by bluegill in laboratory pools where is the refuge when macrophytes are sparse and alternative prey are present. Environmental Biology of Fishes 29(1): 27-34. Dieterman, D. J. and Galat, D. L. (2004). Large-scale factors associated with sicklefin chub distribution in the missouri and lower Yellowstone Rivers. Transactions of the American Fisheries Society 133(3): 577-587. Dieterman, D. J. and Galat, D. L. (2005). Variation in body form, taste buds, and brain patterns of the sicklefin chub, Macrhybopsis meeki, in the Missouri River and lower Yellowstone river, Usa. Journal of Freshwater Ecology 20(3): 561-573. Eiane, K., Aksnes, D., Bagøien, E. and Kaartvedt, S. (1999). Fish or jellies - a question of visability? Limnology and Oceanography 44(5): 1352-1357. Fabricius, K. E. (2005). Effects of terrestrial runoff on the ecology of corals and coral reefs: review and synthesis. Marine Pollution Bulletin 50(2): 125-146. Fiksen, O. and Folkvord, A. (1999). Modelling growth and ingestion processes in herring Clupea harengus larvae. Marine Ecology-Progress Series 184: 273-289. Fiksen, Ø Aksnes D. L., Flyum, M. H. and Giske, J. (2002). The influence of turbidity on growth and survival of fish larvae: a numerical analysis. Hydrobiologia 484(1-3): 49-59. Fox, C. J., Harrop, R. and Wimpenny, A. (1999). Feeding Ecology of Herring (Clupea Harengus) Larvae in the Turbid Blackwater Estuary. Marine Biology 134(2): 353-365. Francis, M. P., Morrison, M. A., Leathwick, J., Walsh, C. and Middleton, C. (2005). Predictive Models of Small Fish Presence and Abundance in Northern New Zealand Harbours. Estuarine Coastal and Shelf Science 64(2-3): 419-435. Gadomski, D. M. and Parsley, M. J. (Mar 2005). Effects of Turbidity, Light Level, and Cover on Predation of White Sturgeon Larvae by Prickly Sculpins. Transactions of the American Fisheries Society 134(2): 369-374. Gallegos, C. L., Correll, D. L. and Pierce, J. W. (1990). Modelling spectral diffuse attenuation, absorption, and scattering coefficients in a turbid estuary. Limnology and Oceanography 35(7): 1486-1502. Gardner, M. B. (1981). Effects of turbidity on feeding rates and selectivity of Bluegills. Transaction of the American Fisheries Society. 110: 446-450. Giske, J, Aksnes, DL and Fiksen, O. (1994). Visual predators, environmental variables and zooplankton mortality risk. Vie Millieu (Paris) 44(1): 1-9. Goldsborough, W. J. and Kemp, W. M. (1988 Dec). Light Responses of a Submersed Macrophyte - Implications for Survival in Turbid Tidal Waters. Ecology 69(6): 1775-1786. Gradall, K. S. and Swenson. W.A. (1982). Responses of brook trout and creek cubs to turbidity. Transactions of the American Fisheries Society 111: 392-395. Gradall, K. S. and Swenson, W. A. (1982). Responses of brook trout (Salmo gairdneri) predation on migrant fry of sockeye salmon Oncorhynchus nerka). Transaction of the American Fisheries Society 111: 392-395. Granqvist, M. and Mattila, J. (2004). The effects turbidity and light intensity on the consumption of mysids by juvenile perch (Perca fluviatilis L.) . Hydobiologia 514: 93-101. Grecay, P. A. (1989). An apparatus for monitoring and controlling turbidity in biological experiments. Marine Biololgy 103: 421-426. Grecay, P. A. (1990). Factors affecting spatial patterns of feeding success and condition of juvenile weakfish (Cynoscion regalis) in Delaware Bay: field and laboratory assessment. Ph.D Thesis. University of Delaware. 170pp. Grecay, P. A. and Targett, T. E. (1996). Effects of turbidity, light level and prey concentration on feeding of juvenile weakfish Cynoscion regalis. Marine Ecology Progress Series 131: 11-16. Gregg, R. E. and Bergersen, E. P. (1980). Mysis-Relicta - Effects of Turbidity and Turbulence on Short- Term Survival. Transactions of the American Fisheries Society 109(2): 207-212. Gregory, R. S. (1990). The effects of turbidity on benthic foraging and predation risk in juvenile chinook salmon . Seattle: Washington Sea Grant. Gregory, R. S. (1993). Effect of turbidity on the predator avoidance-behavior of juvenile chinook salmon (Oncorhynchus tshawytscha). Canadian Journal of Fisheries and Aquatic Sciences 50(2): 241-246. Gregory, R. S. (1994). The influence of ontogeny, perceived risk of predation, and visual ability on the foraging behaviour of juvenile chinook salmon. Theory and Application of Fish Feeding Ecology 18: 271-284. Gregory, R. S. and Levings, C. D. (1996). The effect of turbidity and vegetation on risk of juvenile salmonids, Oncorhynchus spp., to predation by adult cutthroat trout, O. clarkii. Enviromental Biology of Fishes 47: 279-288. Gregory, R. S. and Levings, C. D. (1998). Turbidity reduces predation on migrating juvenile Pacific salmon. Transactions of the American Fisheries Society 127(2): 275-285. Gregory, R. S. and Northcote, T. G. (1993). Surface, planktonic, and benthic foraging by juvenile chinook salmon (Oncorhynchus tshawytscha) in turbid laboratory conditions. Canadian Journal of Fisheries and Aquatic Sciences 50: 233-240. Gregory, R. S. and Powles, P. M. (1987). Chronology, distribution and sizes of larval fish sampled by light traps in macrophytic Chemung Lake. Canadian Journal of Fisheries and Aquatic Sciences 63: 2569-2576. Grimes, C. B. and Finucane, J. H. (1991). Spatial distribution and abundance of larval and juvenile fish, chlorophyll and macrozooplankton around the Mississippi river discharge plume, and the role of the plume in fish recruitment. Marine Ecology Progress Series 75: 109-119. Hartman, E. J. and Abrahams, M. V. (2000). Sensory compensation and the detection of predators: the interaction between chemical and visual Information. Proceedings of the Royal Society of London Series B-Biological Sciences 267(1443): 571-575. Hayes, J. W. and Rutledge, M. J. (1991). Relationship between turbidity and fish diets in lakes waahi and whangape, New Zealand. New Zealand Journal of Marine and Freshwater Research 25: 297-304. Hayes, J. W., Rutledge, M. J., Chisnall, B. L. and Ward, F. J. (1992). Effects of elevated turbidity on shallow lake fish communities. Enviromental Biology of Fishes 35: 149-168. Hecht, T and van der Lingen, C. D. (1992). Turbidity induced changes in feeding strategies of fish in estuaries. South African Journal of Zoology 27: 95-107. Helle, K. (1994). Distribution of early juvenile Arcto-Norwegian cod (Gadus morhua L.) in relation to food abundance and watermass properties. COD AND CLIMATE CHANGE. PROCEEDINGS OF A SYMPOSIUM HELD IN REYKJAVIK. 198. 23-27 AUGUST 1993. REYKJAVIK.ICES MAR. SCI. SYMP: Copenhagen . pp. 440-448. Henley, W. F., Patterson, M. A., Neves, R. J. and Lemly, A. D. (2000). Effects of sedimentation and turbidity on lotic food webs: a concise review for natural resource managers. Reviews in Fisheries Science 8: 125-139. Heubel, K. U. and Schlupp, I. (2006). Turbidity affects association behaviour in male Poecilia latipinna. Journal of Fish Biology 68(2): 555-568. Horppila, J. and Liljendahl-Nurminen, A. (2005). Clay-Turbid Interactions May Not Cascade - a Reminder for Lake Managers. Restoration Ecology 13(2): 242-246. Horppila, J., Liljendahl-Nurminen, A. and Malinen, T. (Oct 2004). Effects of Clay Turbidity and Light on the Predator-Prey Interaction Between Smelts and Chaoborids. Canadian Journal of Fisheries and Aquatic Sciences 61(10): 1862-1870. Houston, W. A. (1978). Tidal catchability, migrations and locomotory activity of Penaeus merguiensis De Man (Crustacea: Penaeidae) in the Norman River, north Queensland. Honours Thesis. University of Queensland, Brisbane. 63pp. Huber, R. and Rylander, M. K. (1989). Correlation of Brain Morphology and Habitat Turbidity in Notropis (Cyprinidae, Teleostei) and Related Genera. American Zoologist 29(4): A119. Huber, R. and Rylander, M. K. (1991). Quantitative Histological Studies of the Optic Tectum in 6 Species of Notropis and Cyprinella (Cyprinidae, Teleostei). Journal Fur Hirnforschung 32(3): 309-316. Huber, R. and Rylander, M. K. (1992). Brain morphology and turbidity preference in Notropis and related genera (Cyprinidae, Teleostei). Environmental Biology of Fishes 33: 153-165. Huber, R. and Rylander, M. K. (1992). Quantitative Histological Study of the Optic-Nerve in Species of Minnows (Cyprinidae, Teleostei) Inhabiting Clear and Turbid Water. Brain Behavior and Evolution 40(5): 250-255. Huber, R., Vanstaaden, M. J., Kaufman, L. S. and Liem, K. F. (Sep 1997). Microhabitat Use, Trophic Patterns, and the Evolution of Brain Structure in African Cichlids. Brain Behavior and Evolution 50(3): 167-182. Humborstad, O. B. (2004). Impact assessment of bottom trawls and gillnets in Norwegian waters. Ph.D. Department of Biology, University of Bergen. Humborstad, OB Jørgensen T and Grotmol, S. (in press). Exposure of cod (Gadus morhua) to resuspended sediment: an experimental study of the impact of bottom trawling. Marine Ecology-Progress Series . Hunt W Grainger {a}, Jackman Ronald E, Driscoll Daniel E and Bianchi Edward W. (2002). Foraging ecology of nesting Bald Eagles in Arizona. Journal-of-Raptor-Research. [print] December 2002 2002; 36 (4): 245-255. Jacobsen, L., Berg, S., Jepsen, N. and Skov, C. (2004). Does roach behaviour differ between shallow lakes of different environmental state? Journal of Fish Biology 65(1): 135-147. James, P. L. and Heck, K. L. (1994 ). The effects of habitat complexity and light intensity on ambush predation within a simulated seagrass habitat. Journal of Experimental Marine Biology and Ecology 176(2): 187-200. Janssen, J. (1997). Comparison of Response Distance to Prey Via the Lateral Line in the Ruffe and Yellow Perch. Journal of Fish Biology 51(5): 921-930. Jarvenpaa, M. and Lindstrom, K. (2004). 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B., Stevenson, J. C. and Wilcox, D. J. (Jun 2004). Habitat Requirements for Submerged Aquatic Vegetation in Chesapeake Bay: Water Quality, Light Regime, and Physical-Chemical Factors. Estuaries 27(3): 363-377. Kils, U and Able, KW. (1995). The glassEYE, a technique to quantify distribution and behavior of benthic juvenile fish in turbid estuarine and harbor waters of Germany and New Jersey, U.S.A. TWENTY-THIRD BENTHIC ECOLOGY MEETING . (Eds. Grassle, JP, Kelsey, A, Oates, E, and Snelgrove, PV eds ). 23. Benthic Ecology Meeting. Rutgers-the State Univ. 17-19 Mar 1995. New Brunswick, NJ (USA). pp. Kirk, K. L. (1991). Suspended Clay Reduces Daphnia Feeding Rate - Behavioral Mechanisms. Freshwater Biology 25(2): 357-365. Koops, M. A., Hutchings, J. A. and Mcintyre, T. M. (Jun 2004). Testing Hypotheses About Fecundity, Body Size and Maternal Condition in Fishes. Fish and Fisheries 5(2): 120-130. Kotrschal, K., Van Staaden, M. J. and Huber, R. (Dec 1998). 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DYNAMICS OF TURBIDITY IN MARINE AND ESTUARINE ENVIRONMENTS
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This page is current until March, 2006. If there are any references that you would like added or corrections, please email me (Justin.Meager@bio.uib.no).
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