Instream Flow Council Instream flow and stream ecology literature OctoberApril 104, 2016 hb



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Hudson, P.F., and R.H. Kesel. 2000. Channel migration and meander-bend curvature in the lower Mississippi River prior to major human modification. Geology 28: 531-534.
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Huey, R.B. 1991. Physiological consequences of habitat selection. American Naturalist 130 (supplement): 90-115.
Hughes, D.A., and P. Hannart. 2003. A desktop model used to provide an initial estimate of the ecological instream flow requirements of rivers in South Africa. Journal of Hydrology 270: 167-181.
Hughes, F.M.R. 1994. Environmental change, disturbance and regeneration in semi-arid floodplain forests. Pp. 321-345 in: A.C. Millington and K. Pye, eds. Environmental change in drylands: biogeographical and geomorphological perspectives. Wiley, London.
Hughes, F.M.R., T. Harris, K. Richards, G. Pautau, A.F.L. Hames, N. Barsoum, J. Girel, J.L. Peiry, and R. Foussadier. 1997. Woody riparian species response to different soil moisture conditions: laboratory experiments on Alnus incana (L.) Moench. Global Ecology and Biogeography Letters 6: 247-256.
Hughes, F.M.R., and S.B. Rood. 2003. Allocation of river flows for restoration of floodplain forest ecosystems: A review of approaches and their applicability to Europe. Environmental Management 32: 12-33.

Hughes, N.F. 1992. Ranking of feeding positions by driftfeeding Arctic grayling (Thymallus arcticus). Canadian Journal of Fisheries and Aquatic Sciences 49 (10): 19941998.


Hughes, N.F. 1992. Selection of positions by driftfeeding salmonids in dominance hierarchies: model and test for Arctic grayling (Thymallus arcticus). Canadian Journal of Fisheries and Aquatic Sciences 49 (10): 19992008. Doi:10.1139/f92-223.
Hughes, N.F. 1998. A model of habitat selection by drift-feeding salmonids at different scales. Ecology 79: 1097-1129. Doi: 10.1890/0012-9658(1998)079[0281:AMOHSB]2.0.CO;2.
Hughes, N.F. 2000. Testing the ability of habitat selection theory to predict interannual movement patterns of a drift-feeding salmonid. Ecol. Freshw. Fish. 9: 4-8.
Hughes, N.F., and L.M. Dill. 1990. Position choice by drift-feeding salmonids: model and test for Arctic grayling (Thymallus arcticus) in subarctic mountain streams, interior Alaska. Canadian Journal of Fisheries and Aquatic Sciences 47 (10): 20392048. Doi:10.1139/f90-228.
Hughes, N.F., and T.C. Grand. 2000. Physiological ecology meets the ideal-free distribution: predicting the distribution of size structured fish populations across temperature gradients. Environmental Biology of Fishes 59 (3): 285-298.
Hughes, N.F., J.W. Hayes, K.A. Shearer, and R.G. Young. 2003. Testing a model of drift-feeding using three-dimensional videography of wild brown trout, Salmo trutta, in a New Zealand river. Canadian Journal of Fisheries and Aquatic Sciences 60 (12): 1462-1476. Doi: 10.1139/f90-228.
Hughes, N.F., and L.H. Kelly. 1996. A hydrodynamic model for estimating the energetic cost of swimming maneuvers from a description of their geometry and dynamics. Canadian Journal of Fisheries and Aquatic Sciences 53: 2484-2493.
Hughes, R.M., S. Howlin, and P.R. Kaufmann. 2004. A biointegrity index (IBI) for coldwater streams of western Oregon and Washington. Transactions of the American Fisheries Society 133: 1497-1515.
Hughes, R.M., P.R. Kaufmann, and M.H. Weber. 2011. National and regional comparisons between Strahler order and stream size. J. N. Am. Benthol. Soc. 30: 103-121. Doi: 10.1899/09-174.1.
Hughes, R.M., L. Wang, and P.W. Seelbach, editors. 2006. Landscape influences on stream habitats and biological assemblages. American Fisheries Society Symposium 48, Bethesda, Maryland.
Hughes, T.C. 2002. Population characteristics, habitats, and movements of lake sturgeon (Acipenser fulvescens) in the lower Niagara River. Master’s thesis, State University of New York at Brockport, Brockport.
Hugueny, B. 1989. West African rivers as biogeographic islands: species richness of fish communities. Oecologia 79: 236-243.
Hugueny, B., T. Oberdorff, and P.A. Tedescco. 2010. Community ecology of river fishes: a large-scale perspective. In: D. Jackson and K. Gido (editors), Community ecology of stream fishes: concepts, approaches, and techniques. American Fisheries Society, Bethesda, MD.
Humborg, C., V. Ittekkot, A. Cocasiu, and B.V. Bodungen. 1997. Effects of Danube River dam on Black Sea biogeochemistry and ecosystem structure. Nature 386: 385-388.
Humphrey, S., Y. Zhao, and D. Higgs. 2012. The effects of water currents on walleye (Sander vitreus) eggs and larvae and implications for the early survival of walleye in Lake Erie. Canadian Journal of Fisheries and Aquatic Sciences 69 (12): 1959-1967. Doi: 10.1139/f2012-116.
Humphries, P. 1996. Aquatic macrophytes, macroinvertebrate associations and water levels in a lowland Tasmanian river. Hydrobiologia 321: 219-233.
Humphries, P., and D.S. Baldwin. 2003. Drought and aquatic ecosystems: an introduction. Freshwater Biology 48: 1141-1146. Doi: 10.1046/j.1365-2427.2003.01092.x.
Humphries, P., P. Brown, J. Douglas, A. Pickworth, R. Strongman, K. Hall, and L. Serafini. 2008. Flow related patterns in abundance and composition of the fish fauna of a degraded Australian lowland river. Freshwater Biology 53: 789-813.
Humphries, P., R.A. Cook, A.J. Richardson, and L.G. Serafini. 2006. Creating a disturbance: manipulating slackwaters in a lowland river. River Research and Applications 22: 525-542.
Humphries, P., H. Keckeis, and B. Finlayson. 2014. The river wave concept: integrating river ecosystem models. BioScience 64: 870-882. Doi: 10.1093/biosci/biu130.
Humphries, P., A.J. King, and J.D. Koehn. 1999. Fish, flows and flood plains: links between freshwater fishes and their environment in the Murray-Darling River system, Australia. Environmental Biology of Fishes 56: 129-151. Doi:10.1023/A:1007536009916.
Humphries, P., and P. Lake. 2000. Fish larvae and the management of regulated rivers. Regulated Rivers: Research & Management 16: 421-432.
Humphries, P., G.S. Luciano, and A.J. King. 2002. River regulation and fish larvae: variation through space and time. Freshwater Biology 47: 1307-1331.
Humphries, P., L. Serafini, and A.J. King. 2002. River regulation and fish larvae: variations through space and time. Freshwater Biology 47: 1307-1331. Doi:10.1046/j.1365-2427.2002.00871.x.
Humphries, R., J.G. Venditti, L.S. Sklar, and J.K. Wooster. 2012. Experimental evidence for the effect of hydrographs on sediment pulse dynamics in gravel-bedded rivers. Water Resources Research 48. Doi: 10.1029/2011WR010419.
Hunt, B. 1999. Unsteady stream depletion from ground water pumping. Ground Water 37 (1): 98-102.
Hunt, R.L. 1969. Overwinter survival of wild fingerling brook trout in Lawrence Creek, Wisconsin. Journal of the Fisheries Research Board of Canada 26: 1473-1483.
Hunter, J.G. 1959. Survival and production of pink and chum salmon in a coastal stream. J. Fish. Res. Bd. Can. 16 (6): 835886.
Hunter, J.W. 1973. A discussion of game fish in the state of Washington as related to water requirements. Washington State Department of Game, Olympia.
Hunter, M.A. 1992. Hydropower flow fluctuations and salmonids: a review of the biological effects, mechanical causes, and options for mitigation. State of Washington Department of Fisheries Technical Report No. 119. Olympia. 46 pp.
Hunter, M.A., and T. Quinn. 2009. Summer water temperatures in alluvial and bedrock channels of the Olympic Peninsula. West. J. Appl. For. 24 (2): 103-108.
Hunter, M.A., T. Quinn, and M.P. Hayes. 2005. Low flow spatial characteristics in forested headwater channels of Southwest Washington. Journal of American Water Resources Association 41: 503-516.
Huntingford, F.A., D. Aird, P. Joiner, K.E. Thorpe, V.A. Braithwaite, and J.D. Armstrong. 1999. How juvenile Atlantic salmon, Salmo salar L., respond to falling water levels: experiments in an artificial stream. Fisheries Management and Ecology 6: 357-364.
Huntingford, F.A., and C. Garcia de Leaniz. 1997. Social dominance, prior residence and the acquisition of profitable feeding sites in juvenile Atlantic salmon. Journal of Fish Biology 51: 1009-1014.
Huntingford, F.A., N.B. Metcalfe, and J.E. Thorpe. 1988. Choice of feeding station in Atlantic salmon, Salmo salar, parr: effects of predation risk, season, and life history strategy. Journal of Fish Biology 33: 917-924.
Huntington, J.L., and R.G. Niswonger. 2012. Role of surface-water and ground-water interactions on summertime streamflow in snow dominated regions: an integrated modeling approach. Water Resour. Res. 48: W11524. Doi: 10.1029/2012WR012319.2012.
Huntsman, A.G. 1945. Freshets and fish. Transactions of the American Fisheries Society 75: 257-266.
Hupp. C.R. 1992. Riparian vegetation recovery patterns following stream channelization: a geomorphic perspective. Ecology 25 (5): 463-475.
Hupp, C.R. 2000. Hydrology, geomorphology, and vegetation of coastal plain rivers in the southeastern U.S.A. Hydrological Processes 14 (16-17): 2991-3010.
Hupp, C.R., and G. Bornette. 2003. Vegetation as a tool in the interpretation of fluvial geomorphic processes and landforms in humid temperate areas. Pp. 269-288 in: G.M. Kondolf and H. Piegay, editors. Tools in fluvial geomorphology. Wiley, Chichester, UK.
Hupp, C.R., and W.R. Osterkamp. 1985. Bottomland vegetation distribution along Passage Creek, Virginia, in relation to fluvial landforms. Ecology 66: 670-681.
Hupp, C.R., and W.R. Osterkamp. 1996. Riparian vegetation and fluvial geomorphic processes. Geomorphology 14: 277-295.
Hurley, K.L., R.J. Sheehan, R.C. Heidinger, P.S. Willis, and B. Clevenstine. 2004. Habitat use by middle Mississippi River pallid sturgeon. Transactions of the American Fisheries Society 133: 1033-1041.
Hurley, S.T., W.A. Hubert, and J.G. Nickum. 1987. Habitats and movements of shovelnose sturgeon in the upper Mississippi River. Transactions of the American Fisheries Society 116: 655-662.
Hurst, .P. 2007. Causes and consequences of winter mortality in fishes. Journal of Fish Biology 71: 315-3435.
Huusko, A., L. Greenberg, M. Stickler, T. Linnansaari, M. Nyykanen, T. Vehanen, S. Koljonen, P. Louhi, and K. Alfrredsen. 2007. Life in the ice lane: the winter ecology of stream salmonids. River Res. Appl. 23: 469-491. Doi:10.1002/rra.999.
Huusko, A., and T. Yrjana. 1998. Effects of instream enhancement structures on brown trout, Salmo trutta L., habitat availability in a channelized boreal river: a PHABSIM approach. Fish. Manag. Ecol. 4: 453-466.
Hvidsten, N.A. 1985. Mortality of pre-smolt Atlantic salmon, Salmo salar L., and brown trout, Salmo trutta L., caused by fluctuating water levels in the regulated River Nidelva, central Norway. Journal of Fish Biology 1985: 711-718.
Hvidsten, N.A. 1993. High winter discharge after regulation increases production of Atlantic salmon, Salmo salar, smolts in the River Orkla, Norway. Pp. 175-177 in: R.J. Gibson and R.E. Cutting (eds.), Production of juvenile Atlantic salmon, Salmo salar, in natural waters. Canadian Special Publication of Fisheries and Aquatic Sciences. 118: 175-177.
Hvidsten, N.A., O.H. Disrud, A.J. Jensen, J.G. Jensas, Hvidsten, N.A., A.J. Jensen, B.O. Johnsen, and O. Ugedal. 2015. Water discharge affects Atlantic salmon Salmo salar smolt production: a 27 year study in the River Orkla, Norway. Journal of Fish Biology 86: 92-104. Doi: 10.1111/jfb.12542.
Hvidsten, N.A., A.J. Jensen, H. Vivas, O. Bakke, and T.G. Heggeberget. 1995. Downstream migration of Atlantic salmon smolts in relation to water flow, water temperature, moon phase and social interaction. Nordic Journal of Freshwater Research 70: 38-48.
Hvidsten, N.A., and O. Ugedal. 1991. Increased densities of Atlantic salmon smolts in the River Orkla, Norway, after regulation for hydropower production. Pages 219-225 In: J. Colt and R.J. White (eds.), Fisheries Bioengineering Symposium. American Fisheries Society Symposium 10. Bethesda, Maryland.
Hyatt, K.D., M.M. Stockwell, and D.P. Rankin. 2003. Impact and adaptation responses of Okanagan River sockeye salmon (Oncorhynchus nerka) to climate variation and change effects during freshwater migration: stock restoration and fisheries management implications. Canadian Water Resources Journal 28: 689-713.
Hynes, H.B.N. 1970. The ecology of running waters. University of Toronto Press, Toronto, Canada. 555 pp.
Hynes, H.B.N. 1983. Groundwater and stream ecology. Hydrobiologia 100:93-99.
Ikeda, S., and N. Izumi. 1990. Width and depth of self-formed straight gravel rivers with bank vegetation. Water Resources Research 26 (10): 2353-2364.

Ilg, C., F. Dziock, F. Foeckler, K. Follner, M. Gerisch, J. Glaeser, A. Rink, A. Schaowski, M. Scholz, O. Deichner, and K. Henle. 2008. Long-term reactions of plant sand macroinvertebrates to extreme floods in floodplain grasslands. Ecology 89 (9): 2392-2398.


Illies, J., and L. Botosaneau. 1963. Problemes et methodes de la classification et de la zonation ecologique des eaux courantes considerees surtout du point de vue faunistique. Mitt. Int. Ver. Limnol. 12: 1-57.
Imbert, J.B., and J.A. Perry. 2000. Drift and benthic responses to stepwise and abrupt increases in non-scouring flow. Hydrobiologia 436: 191-208. Doi: 10.1023/A:1026582218786.

Imhof, J.B., J. Fitzgibbon, and W.K. Annable. 1996. A hierarchical evaluation system for characterizing watershed ecosystems for fish habitat. Canadian Journal of Fisheries and Aquatic Sciences 53 (Suppl. 1): 312-326.


Imre, I., J.W.A. Grant, and R.A. Cunjak. 2005. Density-dependent growth of young-of-the-year Atlantic salmon Salmo salar in Catamaran Brook, New Brunswick. Journal of Animal Ecology 74: 508-516. Doi: 10.1111/j.1365-2656.2005.00949
Imre, I., J.W.A. Grant, and R.A. Cunjak. 2010. Density-dependent growth of young-of-the-year Atlantic salmon (Salmo salar) revisited. Ecology of Freshwater Fish 19: 1-6.
Imre, I., J.W.A. Grant, and E.R. Keeley. 2004. The effect of food abundance on territory size and population density of juvenile steelhead trout (Oncorhynchus mykiss). Oecologia 138: 371-378. Doi: 10.1007/s00442-003-1432-z.
Imre, I., R.L. McLaughlin, and D.L.G. Noakes. 2002. Phenotypic plasticity in brook charr: changes in caudal fin induced by water flow. J. Fish Biol. 61: 1171-1181. Doi: 10.1111/j.1095-8649.2002.tb02463.x.
Infante, D.M., M.J. Wiley, and P.W. Seelbach. 2006. Relationship among channel shape, catchment characteristics, and fish in lower Michigan streams. Pp. 339-356 in: R.M. Hughes, L.Z. Wang, and P.W. Seelbach (editors). Landscape influences on stream habitats and biological assemblages. American Fisheries Society, Bethesda, Maryland.
Infante, D.M., and J.D. Allan. 2010. Response of stream fish assemblages to local-scale habitat as influenced by landscape – A mechanistic investigation of stream fish assemblages. Pages 371-397 in: K.B. Gido and D.A. Jackson (editors). American Fisheries Society Symposium 73. Ottawa, Ontario, 19-20 August 2008.
Ingram, H., and C.R. Oggins. 1992. The Public Trust Doctrine and community values in water. Natural Resources Journal 32: 515-537.
Ingram, R.G., L. Legendre, Y. Simard, and S. Leparge. 1985. Phytoplankton response to freshwater runoff: The diversion of the Eastmain River, James Bay. Canadian Journal of Fisheries and Aquatic Sciences 42: 1216-1221.
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Inoue, M., and S. Nakano. 1999. Habitat structure along channel-unit sequences for juvenile salmon: a subunit-scale habitat classification. Freshw. Biol. 42 (4): 597-608. Doi:10.1046/j.1365-2427.1999.00481.x.
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