SEARCH

SEARCH BY CITATION

References

  • Agostinho C.S., Agostinho A.A., Pelicice F., Almeida D.A.A. & Marques E.E. (2007). Selectivity of fish ladders: a bottleneck in neotropical fish movement. Neotrop. Ichthyol., 5, 205213.
  • Blackwell B., Gries G., Juanes F., Friedland K., Stolte L. & McKeon J. (1998). Simulating migration mortality of Atlantic salmon smolts in the Merrimack River. North Am. J. Fish. Manage., 18, 3145.
  • Blackwell B.F. & Juanes F. (1998). Predation on Atlantic salmon smolts by striped bass after dam passage. North Am. J. Fish. Manage., 18, 936939.
  • Castro-Santos T. & Letcher B.H. (2010). Modeling migratory energetics of Connecticut River American shad (Alosa sapidissima): implications for the conservation of an iteroparous anadromous fish. Canad. J. Fish. Aquat. Sci., 67, 806830.
  • Committee on Water Resources Management, Instream Flows, Salmon Survival in the Columbia River Basin, National Research Council. (2004). Managing the Columbia River: Instream Flows, Water Withdrawals, and Salmon Survival. The National Academies Press.
  • Crane J. (2009). “Setting the river free”: The removal of the Edwards dam and the restoration of the Kennebec River. Water Hist., 1, 131148.
  • Ferguson J.W., Healey M., Dugan P. & Barlow C. (2011). Potential effects of dams on migratory fish in the Mekong River: lessons from salmon in the Fraser and Columbia Rivers. Environ. Manage., 47, 141159.
  • Ferguson J.W., Ploskey G.R., Leonardsson K., Zabel R.W. & Lundqvist H. (2008). Combining turbine blade-strike and life cycle models to assess mitigation strategies for fish passing dams. Canad. J. Fish. Aquat. Sci., 65, 15681585.
  • Finer M. & Jenkins C.N. (2012). Proliferation of hydroelectric dams in the Andean Amazon and implications for Andes-Amazon connectivity. PloS ONE, 7, e35126. doi: 35110.31371/journal.pone.0035126.
  • Frazer N.B. (1992). Sea turtle conservation and halfway technology. Conserv. Biol., 6, 179184.
  • Gephard S. & McMenemy J. (2004). An overview of the program to restore Atlantic salmon and other diadromous fishes to the Connecticut River with notes on the current status of these species in the river. Am. Fish. Soc. Monogr., 9, 287317.
  • Gowan C., Stephenson K. & Shabman L. (2006). The role of ecosystem valuation in environmental decision making: hydropower relicensing and dam removal on the Elwha River. Ecol. Econ., 56, 508523.
  • Grumbine R.E. & Xu J. (2011). Mekong hydropower development. Science, 332, 178179.
  • Hall C.J., Jordaan A. & Frisk M.G. (2011). The historic influence of dams on diadromous fish habitat with a focus on river herring and hydrologic longitudinal connectivity. Landsc. Ecol., 26, 95107.
  • Hall C.J., Jordaan A. & Frisk M.G. (2012). Centuries of anadromous forage fish loss: consequences for ecosystem connectivity and productivity. BioScience, 62, 723731.
  • Hart D.D., Johnson T.E., Bushaw-Newton K.L., et al. (2002). Dam removal: challenges and opportunities for ecological research and river restoration. BioScience, 52, 669682.
  • Hilborn R. (1992a). Can fisheries agencies learn from experience? Fisheries, 17, 614.
  • Hilborn R. (1992b). Hatcheries and the future of salmon in the Northwest. Fisheries, 17, 58.
  • Hilborn R. (1999). Confessions of a reformed hatchery basher. Fisheries, 24, 3031.
  • Hitt N.P., Eyler S. & Wofford J.E.B. (2012). Dam removal increases American eel abundance in distant headwater streams. Trans. Am. Fish. Soc., 141, 11711179.
  • Kauffman G.J., Homsey A.R., Belden A.C. & Sanchez J.R. (2011). Water quality trends in the Delaware River Basin (USA) from 1980 to 2005. Environ. Monitor. Assess., 177, 193225.
  • Kemp P. & O'Hanley J. (2010). Procedures for evaluating and prioritising the removal of fish passage barriers: a synthesis. Fish. Manage. Ecol., 17, 297322.
  • Kostecki P.T., Clifford P., Gloss S.P. & Carlisle J.C. (1987). Scale loss and survival in smolts of Atlantic salmon (Salmo Salar) after turbine passage. Canad. J. Fish. Aquat. Sci., 44, 210214.
  • Kuby M.J., Fagan W.F., ReVelle C.S. & Graf W.L. (2005). A multiobjective optimization model for dam removal: an example trading off salmon passage with hydropower and water storage in the Willamette basin. Adv. Water Resour., 28, 845855.
  • Lage C. & Kornfield I. (2006). Reduced genetic diversity and effective population size in an endangered Atlantic salmon (Salmo salar) population from Maine, USA. Conserv. Genet., 7, 91104.
  • Larinier M. & Travade F. (2002). The design of fishways for shad. Bull. Francais de la Peche et de la Piscicult., 364, 135146.
  • Leggett W.C., Savoy T.F. & Tomichek C.A. (2004). The impact of enhancement initiatives on the structure and dynamics of the Connecticut River population of American shad. Am. Fish. Soc. Monogr., 4, 391405.
  • Levin P.S., Zabel R.W. & Williams J.G. (2001). The road to extinction is paved with good intentions: negative association of fish hatcheries with threatened salmon. Proc. R. Soc. Lond. Ser. B: Biol. Sci., 268, 11531158.
  • Liermann C.R., Nilsson C., Robertson J. & Ng R.Y. (2012). Implications of dam obstruction for global freshwater fish diversity. BioScience, 62, 539548.
  • Limburg K.E. & Waldman J.R. (2009). Dramatic declines in North Atlantic diadromous fishes. BioScience, 59, 955965.
  • Lyman T.R. (1866) The Report of the Commissioners appointed under the Resolve of May 3, 1865, ‘concerning the obstructions to the passage of fish in the Connecticut and Merrimack Rivers.
  • Mallen-Cooper M. & Brand D. (2007). Non-salmonids in a salmonid fishway: what do 50 years of data tell us about past and future fish passage? Fish. Manage. Ecol., 14, 319332.
  • Mansueti R. & Kolb C.H. (1953) A historical review of the shad fisheries of North America. Chesapeake Biological Laboratory.
  • Mathur D., Heisey P.G. & Robinson D.A. (1994). Notes: Turbine-passage mortality of juvenile American shad at a low-head hydroelectric dam. Trans. Am. Fish. Soc., 123, 108111.
  • MDMR. (2004). Status of the Kennebec River Watershed Anadromous Fish Restoration Program. The Maine Department of Marine Resources, Augusta, Maine.
  • Novak J., Loar J. & Cada G. (2003). Evaluation of mitigation effectiveness at hydropower projects: fish passage, draft report. Division of Hydropower Administration and Compliance Office of Energy Projects Federal Energy Regulatory Commission. Technical report. 64 p.
  • Nunn A.D. & Cowx I.G. (2012). Restoring river connectivity: prioritizing passage improvements for diadromous fishes and lampreys. Ambio, 14, 402408.
  • Oldani N.O. & Baigún C.R.M. (2002). Performance of a fishway system in a major South American dam on the Paraná River (Argentina-Paraguay). River Res. Appl., 18, 171183.
  • Oldani N.O., Baigún C.R.M., Nestler J.M. & Goodwin R.A. (2007). Is fish passage technology saving fish resources in the lower La Plata River basin? Neotrop. Ichthyol., 5, 89102.
  • Pelicice F. & Agostinho A.A. (2008). Fish-passage facilities as ecological traps in large neotropical rivers. Conserv. Biol., 22, 180188.
  • Poff N.L.R., Allan J.D., Bain M.B., et al. (1997). The natural flow regime. BioScience, 47, 769784.
  • Pompeu P., Agostinho A. & Pelicice F. (2012). Existing and future challenges: the concept of successful fish passage in South America. River Res. Appl., 28, 504512.
  • Schroeder W.C., Collette B.B., Klein-MacPhee G. & Bigelow H.B. (2002) Bigelow and Schroeder's Fishes of the Gulf of Maine. Smithsonian Institution Press.
  • Service R.F. (2011a). Rejected salmon plan could bring changes to US dams. Science, 333, 811.
  • Service R.F. (2011b). Will busting dams boost salmon? Science, 334, 888892.
  • Smith H.M. (1899) Notes on the extent and condition of the alewife fisheries of the United States in 1896. US Government Printing Office.
  • Stephenson K. (2000). Taking nature into account: observations about the changing rule of analysis and negotiation in hydropower re-licensing. William Mary Environ. Law Pol. Rev., 25, 473498.
  • Stevenson C.H. (1899). The shad fisheries of the Atlantic coast of the United States. US Comm. Fish Fish., Part XXIV Report of the Commissioner for the year ending June, 30, 101269.
  • Stier D.J. & Kynard B. (1986). Use of radio telemetry to determine the mortality of Atlantic salmon smolts passed through a 17-MW Kaplan turbine at a low-head hydroelectric dam. Trans. Am. Fish. Soc., 115, 771775.
  • Stolte L. (1981) The forgotten salmon of the Merrimack. Department of the Interior, Northeast Region.
  • Taylor R.E. & Kynard B. (1985). Mortality of juvenile American shad and blueback herring passed through a low-head Kaplan hydroelectric turbine. Trans. Am. Fish. Soc., 114, 430435.
  • Thomas L. (1974) The lives of a cell. Viking Press, New York.
  • Warner W.K. & Havens A.E. (1968). Goal displacement and the intangibility of organizational goals. Admin. Sci. Q., 12, 539555.
  • Ziv G., Baran E., Nam S., Rodríguez-Iturbe I. & Levin S.A. (2012). Trading-off fish biodiversity, food security, and hydropower in the Mekong River Basin. Proc. Nat. Acad. Sci., 109, 56095614.