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Tytuł artykułu

Przegląd doświadczeń związanych z rozbiórką zapór wodnych na świecie oraz z usuwaniem i utylizacją osadów zgromadzonych w czaszach likwidowanych zbiorników zaporowych. Artykuł dyskusyjny Część II

Identyfikatory
Warianty tytułu
EN
Review of experiences related to dismantling of dams in different parts of the world and concerning the removal and disposal of deposits accumulated in the basins of the liquidated reservoirs
Języki publikacji
PL
Abstrakty
PL
Artykuł powstał na bazie przeglądu światowej literatury naukowej dotyczącej starzenia się i zamulania zbiorników zaporowych i problemów z tym związanych. W artykule skoncentrowano się na metodach usuwania i utylizacji osadów dennych na podstawie licznych dotychczasowych doświadczeń, głównie z te renu USA. Przedstawiono również korzyści i zagrożenia dla ludzi i środowiska, które powstają w efekcie likwidowania zbiorników zaporowych.
EN
The article was written based on a review of the international scientific literature regarding the ageing and siltation of dam reservoirs and the resulting problems. The article focuses mainly on the methods of elimination and disposal of bottom deposits, referring to various hitherto experiences, mainly on the territory of the United States. It also presents the benefits and threats for people and the environment resulting from the dam reservoirs liquidation.
Czasopismo
Rocznik
Tom
Strony
9--13
Opis fizyczny
Bibliogr. 49 poz.
Twórcy
  • Pracownia Ekspertyz i Badań Ichtiologicznych PEBI
  • Fundacja WWF Polska
Bibliografia
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  • [16] Grant G.E., S.L. Lewis. 2015. In Engineering Geology for Society and Territory. Vol. 3, G. Lollino et al. Eds. (Springer, Switzerland, 2015). pp 31-35.
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  • [20] Hickey H. 2013. Tracking sediments’ fate in largest-ever dam removal. http://depts.washington.edu/coenv/freshwater/2013/03/tracking-sediments-fate-in-largest-ever-dam-removal/
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  • [22] Kibler K.M., D.D. Tullos, G.M. Kondolf. 2010. Learning from dam removal monitoring; challenges to selecting experimental design and establishing significance of autcomes. River Research and Applications, 2010. DOI: 10.1002/rra.1415.
  • [23] Kondolf G.M. 1997. Hungry water: Effects of dams and gravel mining on river channels. Environmental Management 21, 533-551.
  • [24] Major A.R., J.P Warner. 2008. Contaminant sampling to facilitate dam removal/habitat restoration in new England, USFWS Spec. Rep. 53 pp., US Fish and Wildlife Serv., Washington, D.C.
  • [25] Major J.J., J.E. O’Connor, C.J. Podolak, M.K. Keith, G.E. Grant, K.R. Spicer, S. Pittman, H.M. Bragg, J.R. Wallick, D.Q. Tanner, A. Rhode, P.R. Wilcock. 2012. Geomorphic-response of the Sandy River, Oregon, to removal of Marmot Dam. U. S. Geol. Surv. Prof Pap. 1792 (64 pp.).
  • [26] MacBroom J., Loehmann E. 2008. Sediment management during low dam removal. In Proceedings World Enwironmental and Water Resources Congress. Ahupua’a pp. 1-10.
  • [27] Magirl C.S., R.C. Hilldale, C.A. Curran, J.J. Duda, T.D. Straub, M. Domanski, J.R. Foreman. 2015. Large-scale dam removal on the Elwha River, Washington, USA: Fluvial sediment load. Geomorphology 246, 669-686.
  • [28] Malarz R. 2005. Geomorfologiczne skutki działania zapór wodnych w okresach powodziowych w dolinie Soły. Folia Geographica 35/36, 53-64.
  • [29] Marks J.C. 2007. Gdy tamy runą. Świat Nauki (Scientific American). Nr 4(188), 70-75.
  • [30] McClain S., L. Craig. 2015. Dam removal in the Mid-Atlantic: Regional trends in removal and science. Mid-Atlantic Stream Restoration Conference. September 2015.
  • [31] Nico L. 2011. Hypophthalmichthys molitrix. USGS Nonindigenous Aquatic Species Database, Gainesville, FL. http://nas.er.usgs.gov/queries/FactSheet. aspx?SpeciesID=549 RevisionDate: 1/11/2011.
  • [32] O’Connor J.E., J.J. Duda, G.E. Grant. 2015. 1000 dams down and counting. Science 348, 496-497.
  • [33] Pearson A.J., N.P Snyder, M. Collins. 2011. Rates and processes of channel response to dam removal with a sand-filled impoundment. Water Resour. Res. 47, W08504. http://dx.doi.org/ 10.1029/2010WR009733.
  • [34] Przedwojski B., M. Wierzbicki. 2007. Skutki działania progów stabilizujących w korycie Warty poniżej zbiornika Jeziersko. Nauka Przyroda Technologie. Tom 1, Zeszyt 2, 1-10
  • [35] Randle T.J. 2002. Dam removal and sediment management. In Dam removal research; Status and prospects. The Heinz Center. 81-104.
  • [36] Randle T.J., J.A. Bountry, A. Ritchie, K. Wille. 2015. Large-scale dam removal on the Elwha River, Washington, USA; Erosion of reservoir sediment. Geomorphology 246, 709-728.
  • [37] Rathburn S.L., E.E. Wohl. 2002. Sedimentation hazards downstream from reservoirs. In: Dam removal research; status and prospects. W.L. Graf ed. The Heinz Center
  • [38] Rogers P. 2013. California’s biggest dam removal project in history begins in Carmel valley. San Jose Mercury News, 21 June 2013.
  • [39] Sando S.K., J.H. Lambing. 2011. Estimated loads of suspended sediment and selected trace elements transported trough the Clark Fork basin, Montana, in selected periods befor and after the breach of Milltown Dam (water years 1985-2009). U.S. Geol. Surv. Sci. Invest. Rep., 2011-5030, 64 pp.
  • [40] Sawaske S.R., D.L. Freyberg. 2012. A comparison of past small dam removals in highly sediment-impacted system in the U.S. Geomorphology 151, 50-58.
  • [41] Seng P., G. White. 2004. Indiana Aquatic Nuisance Species Management Plan. 1 Oct. 2003. Indiana Department of Natural Resources. 27 May 2004. http://www.in.gov/dnr/fishwild/files/inansmana-gementplan.pdf
  • [42] Shafroth P.B., J.M. Friedman, T. Auble, M.L. Scott, J.H. Braatne. 2002. Potential response of riparian vegetation to dam removal. BioScience 52, 703-712.
  • [43] Shuman J.R. 1995. Environmental considerations for assessing dam removal alternativesfor river restoration. Regul. River 11, 249-261.
  • [44] Stanley E.H., M.W. Doyle. 2003. Trading off: the ecological effects of dam removal. Front. Ecol. Environ. 1, 15-22.
  • [45] Stanley E.H., M.A. Luebke, M.W. Doyle, D.W. Marshall. 2002. Short-term changes in channel form and macroinvertebrate communities following the low-head dam removal. J. N. Am. Benthol. Soc. 21, 172-187.
  • [46] Stroud P.L. 2012. Sediment Strategies: Choosing a Sediment Management Option for Dam Removal. HydroWorld.com.
  • [47] Task Committee on Guidelines for Retirement of Dams and Hydroelectric facilities (TCGRDHF). 1997. New York; American Society of Civil Engineers.
  • [48] Wendee N. 2012. Lessons of the Elwha River: Managing Health Hazards during Dam Rmoval. Environmental Health Perspectives. 120, 431-435. http:// ehp.niehs.nih.gov/120-a430/.
  • [49] Wilcox A.C., J.E. O’Connor, J.J. Major. 2014. Rapie reservoir erosion, hyperconcentrated flow, and downstream deposition triggered by breaching of 38 m tall Condit Dam, White Salmon River, Washington. Journal of Geophysical Research; Earth Surface, 119, 1376-1394.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0d331f00-b264-4469-bafe-296dfe702107
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