BI132 - Environmental Science 2

Barringer, F. (2004, December 1). U.S. rules out dam removal to aid salmon. 
      New York Times, p. A1. Retrieved January 27, 2010, from Proquest Central 

Beeman, J.W. & Adams, N.S. (Eds.). (2015). In-reservoir behavior, dam passage, and 
      downstream migration of juvenile Chinook salmon and juvenile steelhead from Detroit 
      Reservoir and Dam to Portland, Oregon, February 2013-February 2014 (Open-File Report 
      2015-1090). Reston, VA: U.S. Geological Survey. doi: 10.3133/ofr20151090

Beeman, J.W., Hansen, A.C., Evans, S.D., Haner, P.V. Hansel, H.C., & Smith, C.D. (2012). 
      Passage probabilities of juvenile Chinook salmon through the powerhouse and 
      regulating outlet at Cougar Dam, Oregon, 2011. (Open-File Report 2012-1250). U.S. 
      Geological Survey. Reston, VA: The Survey. Retrieved 12 December 2013 from 
      http://pubs.usgs.gov/of/2012/1250/pdf/ofr20121250.pdf

Budy, P., Thiede, G.P., Bouwes, N., Petrosky, C.E. &  Schaller, H. (2000). Evidence 
      linking delayed mortality of Snake River salmon to their earlier hydrosystem 
      experience. North American Journal of Fisheries Management 22, 35-51. 
     DOI:10.1577/1548-8675(2002)022<0035:ELDMOS>2.0.CO;2

Collie, J. & Saila, S. (2000, November 3). Of salmon and dams. Science 240, 933.
      Retrieved January 13, 2003, from General OneFile Database
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Deng, Z. D., Duncan, J. P., Arnold, J. L., Fu, T., Martinez, J., Lu, J., ... & Mueller, R. P. 
      (2017). Evaluation of Boundary Dam spillway using an Autonomous Sensor Fish device. 
      Journal of Hydro-environment Research, 14, 85-92. doi: 10.1016/j.jher.2016.10.004

Dietrich, J., Eder, K., Thompson, D., Buchanan, R., Skalski, J., McMichael, G., ... & Loge, F. 
      (2016). Survival and transit of in-river and transported yearling Chinook salmon in the lower 
      Columbia River and estuary. Fisheries Research, 183, 435-446.  doi: 
      10.1016/j.fishres.2016.07.005

Eiler, J.H., Evans, A.N. & Schreck, C.B. (2015). Migratory patterns of wild Chinook salmon 
      Oncorhynchus tshawytscha returning to a large, free-flowing river basin. PLOS One, 10 ,
      e0134191. DOI: 10.1371/journal.pone.0123127

Elder, T., Woodley, C. M., Weiland, M. A., & Strecker, A. L. (2016). Factors influencing the 
      survival of outmigrating juvenile salmonids through multiple dam passages: 
      An individual‐based approach. Ecology and Evolution, 6, 
      5881-5892. doi:  10.1002/ece3.2326

Faulkner, J.R., Smith, S.G., Muir, W.D., Marsh, D.M., & Zabel, R.W. (2012). Survival 
      estimates for the passage of spring-migrating juvenile salmonids through 
      Snake and Columbia River dams and reservoirs, 2005-2006. Seattle, WA: 
      National Marine Fisheries Service, Northwest Fisheries Science Center. 
      Retrieved November 6, 2012, from http://www.salmonrecovery.gov/Files/
      RME/Spring%20Survival%202011.pdf

Geist, D. R., Colotelo, A. H., Linley, T. J., Wagner, K. A., & Miracle, A. L. (2016). Effects of a novel 
      fish transport system on the health of adult fall Chinook salmon. Journal of Fish and Wildlife 
      Management, 7, 347-358. doi: 10.3996/102015-JFWM-108

Geist, D. R., Liss, S. A., Harnish, R. A., Deters, K. A., Brown, R. S., Deng, Z. D., ... 
      & Stephenson, J. R. (2018). Juvenile Chinook salmon survival when exposed to 
      simulated dam passage after being implanted with a new microacoustic transmitter. 
      North American Journal of Fisheries Management, 38(4), 940-952. doi:
      10.1002/nafm.10198

Gregory, S. (2002, August). The conceptual basis for ecological responses 
      to dam removal: resource managers face enormous challenges in assessing 
      the consequences of removing large dams from rivers and evaluating 
      management options. Bioscience 52, 11 p.  Retrieved October 
      23, 2002, from General OneFile database (Article number 7112341)

He, L. M., & Marcinkevage, C. (2017). Incorporating thermal requirements into flow 
      regime development for multiple Pacific salmonid species in regulated rivers. 
      Ecological Engineering, 99, 141-158. doi: 10.1016/j.ecoleng.2016.11.009

Hurst, C.N., Holt, R.A., & Bartholomew, J.L. (2012). Dam removal and 
      implications for fish health: Ceratomyxa shasta in the Williamson 
      River, Oregon, USA. North American Journal of Fisheries Management, 
      32, 14–23. doi: 10.1080/02755947.2012.655843

Jager, H. I., King, A. W., Gangrade, S., Haines, A., DeRolph, C., Naz, B. S., & Ashfaq, M. 
      (2018). Will future climate change increase the risk of violating minimum flow and 
      maximum temperature thresholds below dams in the Pacific Northwest?. Climate Risk 
      Management, 21, 69-84. doi:10.1016/j.crm.2018.07.001

Johnson, G.E., et al. (2006, May). Hydroacoustic evaluation of juvenile salmonid 
      passage at The Dalles Dam sluiceway, 2005: Final report. (Report PNNL-15540). 
      Richland, WA: Pacific Northwest National Laboratory. Retrieved January 10, 2007, 
      from http://www.pnl.gov/main/publications/external/technical_reports/PNNL-15540.pdf

Kareiva, Peter. (2000, November 3). Recovery and management options for spring/summer
      Chinook salmon in the Columbia River basin. Science 290, 3p.  Retrieved 
      June 13, 2002 from General OneFile database (Article 
      number 4014712).

Khan,  F., Hughes, J.S., Johnson, G.E., Fischer, E.S., Royer, I.M., Ham, 
      K.D., . . . Ploskey, G.R. (2012). Acoustic imaging evaluation of 
      juvenile salmonid behavior in the immediate forebay of the water 
      temperature control tower at Cougar Dam, 2010: Final Report 
      (PNNL-20625). Richland, WA: Pacific Northwest National 
      Laboratory. Retrieved from http://www.pnnl.gov/main/publications/
      external/technical_reports/PNNL-20625.pdf

Landers, J. (2004, November). Plan to restore salmon calls for removable 
      spillway weirs. Civil Engineering 74, 17-18. 
      
       Note: The library subscribes to this journal.  If you are a distant student
      and cannot use the paper version of this journal, contact the librarian at 
      503-399-5231 or email reference to obtain a copy of the article.

Li, X., Deng, Z. D., Fu, T., Brown, R. S., Martinez, J. J., McMichael, G. A., . . . 
      Townsend, R. L. (2018). Three-dimensional migration behavior of juvenile salmonids
      in reservoirs and near dams. Scientific Reports (Nature Publisher Group), 8, 
      1-12. doi:10.1038/s41598-018-19208-1

Lovett, R.A. (1999, April 23). As salmon stage disappearing act, dams may too. 
      Science 284, 2p. Retrieved June 13, 2002 from General Onefile database

Mann, C.C. (2000, January 7). Army Corps seized by dam indecision. Science 287, 
      2/3p. Retrieved December 11, 2009 from General OneFile

Pelley, J. (2000, March). Breaching dams may save salmon, but the science remains an issue. 
      Environmental science & technology 34, 112, 1 p.

      Note: The library subscribes to this journal. If you are
       a distant student and cannot use the paper version of this journal, 
      contact the librarian at 503-399-5231 or reference@chemeketa.edu
      to obtain a copy of the article.

Rechisky, E.L., Welch, D.W., Porter, A.D., Hess, J.E. & Narum, S.R. (2014). 
      Testing for delayed mortality effects in the early marine life history of Columbia 
      River Basin yearling Chinook salmon.  Marine Ecology Progress 
       Series, 96, 159–180. doi: 10.3354/meps10692 

Rechisky, E.L., Welch, D.W., Porter, A.D., Jacobs, M.C., & Ladouceur, A.
      (2009, July). Experimental measurement of hydrosystem-induced delayed mortality 
      in juvenile Snake River spring Chinook salmon (Oncorhynchus tshawytscha) using a 
      large-scale acoustic array. Canadian Journal of Fisheries and Aquatic Sciences, 
      66(7), 1019-1025. doi:10.1139/F09-078

Tonra, C.M., Sager-Fradkin, K., Morley, S.A., Duda, J.J. & Marra, P.P. (2015). The 
      rapid return of marine-derived nutrients to a freshwater food web following dam 
      removal. Biological Conservation, 192, 130-134. doi:10.1016/j.biocon.2015.09.009

U.S. Army Corps of Engineers, Walla Walla District. (2002). Improving salmon 
      passage: final Lower Snake River juvenile salmon migration feasibility 
      report/environmental impact statement : summary. Walla Walla, WA: 
      Author. Retrieved January 30, 2013, from 
      http://www.nww.usace.army.mil/portals/28/docs/environmental/drew/social.pdf
      Note: The full report is available at 
      http://www.nww.usace.army.mil/lsr/final_fseis/study_kit/studypage.htm

Van Holmes, C. & Anderson, J.J. (2004). Predicted fall Chinook survival 
      and passage timing under BiOp and alternative summer spill programs 
      using the Columbia River Salmon Passage Model. [Seattle: School of 
      Aquatic and Fishery Sciences], University of Washington. Retrieved 
      November 4,2005, from 
      http://www.cbr.washington.edu/sites/default/files/papers/2004SummerSpill.pdf

Whitelaw, E., Macmullan, E. (2002, August). A framework for estimating the costs 
      and benefits of dam removal. Bioscience 52, 7 p.  Retrieved December 11, 
      2009 from General Onefile database

Williams, J. G., Smith, S. G., Zabel, R. W., Muir, W. D., Scheuerell, M. D., Sandford, 
      B. P., ... & Achord, S. (2005). Effects of the federal Columbia River power 
      system on salmon populations (NOAA Technical Memorandum, NMFS-NWFSC, 63). 
      Seattle, WA: Northwest Fisheries Science Center.

Wilson, P.H. (2003, June). Using population projection matrices to evaluate recovery 
      strategies for Snake River spring and summer Chinook salmon. Conservation 
      Biology 17, 782-794.
      
      Note: Abstract only is available online. The library subscribes to this journal. If 
      you are a distant student and cannot use the paper version of this journal, contact
      the librarian at 503-399-5231 or reference@chemeketa.edu to obtain a copy of the article.