The Big Five: Dam Removal Planning in the California Coast Ranges clare O’reilly [email protected] uc Berkeley, mLa-eP, spring 2010 executive summary Dam removal is an increasingly common phenomenon throughout coast the united states, especially in california where reservoirs are ranges rendered obsolete by infilling with sediment from high yield reservoirs catchments. this condition is found in the california coast ranges, with <50% where the mediterranean climate and active faults contribute to remaining capacity reservoir infilling.t his thesis examines five case studies of dams in the california coast ranges, which are being considered for removal because they impound infilled reservoirs and prevent threatened steelhead from accessing potential upstream spawning habitat. the objective is to discern lessons about the dam removal planning process for application to future dam removals. case study analysis focuses on actors involved, the process followed, and an evaluation of risks associated with the proposed removal strategy. a set of recommendations is provided for consideration in development of reservoir sediment modeling results dam removal planning policies. indicating high sedimentation rates in coast ranges. (minear & Kondolf, 2009) Dam Impacts and Reasons for Removal Dams and reservoirs are constructed on rivers to store water for future use, or for hydroelectric power generation (Palmieri et al, 2001). rivers convey water and sediment from surrounding uplands. When a river is impounded by a dam, water flowing from upstream slows down, leading to sediment deposition in a reservoir (morris & Fan, 1998). common engineering practice was to design reservoirs to allow them to fill with sediment slowly, resulting in a finite lifetime for reservoirs and their impounding structures as storage capacity decreased with increasing siltation (Palmieri et al, 2001). Downstream channel morphology is affected by the loss of sediment transport from upstream reaches (morris & Fan, 1998). Dams prevent transport of organic material, which is a food source for sediment transported from upstream the downstream ecosystem, and migration of anadromous fish to watershed and deposited in reservoir. upstream spawning habitat (Gasith & resh, 1999; morris & Fan, 1998; american rivers et al, 1999).the gradual accumulation of sediment behind a dam can lead to structural safety and flooding issues (morris & Fan, 1998). reservoir sediment management techniques either attempt to prevent sediment from entering the reservoir, create conditions within the reservoir to prevent deposition, or remove sediment that is already deposited in the reservoir (morris & Fan, 1998). Fish transport impact of dams. (Wildman, 2006) ladders are installed on dams to increase fish passage, although these structures are found to be only partially effective (american rivers et al, 1999). Dam decommissioning and reservoir retirement may be proposed if these options are found to be ineffective or too costly, or if a dam poses an immediate safety threat. executive summary 1 Dam Removal in California Of the 748 dams removed nationwide, over 70 have been removed in california, leading the nation in dam removals by state (american rivers, 2008; Pohl, 2002). environmental benefits, such as increased fish passage, and reduction of safety concerns are the leading motivations for dam removal both nationally and in california (Pohl, 2002). Like most environmental issues, decision making in dam repair or removal is a complex and contentious process. management decisions regarding dam removal are difficult to achieve because policies which guide these decisions often require a higher degree of certainty than currently employed scientific methods are able to provide (Wilcock et al, 2003). However, there are several relevant federal and state policies which can instigate the removal process, such as the Federal energy regulatory commission (Ferc) relicensing process, the endangered species act (esa), or annual dam safety inspections performed by the california Department of Water resources Division of safety of Dams (DsOD). there is no legal mechanism that mandates consideration of removing obsolete dams impounding substantial amounts of reservoir sediment, except where dam safety inspections identified the dam to be structurally unsound.t he remainder of this thesis will examine five case studies in an effort to develop recommendations for future policies to guide removal of dams rendered obsolete by reservoir sediment. Methods and Conceptual Framework the five case studies selected are all in the california coast ranges and are currently planned for or being considered for removal: upper york creek Dam on york creek, searsville Dam in san Francisquito creek watershed, san clemente Dam on carmel river, matilija Dam on ventura river, and Upper York rindge Dam on malibu creek. case study data was collected by reviewing Searsville planning literature, and conducting site visits and interviews with key project San Clemente personnel. this information was used to conduct a comparative analysis of dam removal planning. Diagrams were developed for each case study to illustrate actors’ roles and interactions, and how these factors changed over Matilija time and influenced the planning process.a conceptual process model was Rindge developed based on a review of precedent planning models, and applied to each case study. case study evaluation included an assessment of the likelihood of achieving desired project benefits and undesired consequences, case study locations. forming a set of common risks and case study specific tradeoffs. Monitoring Implementation Construction Permitting Alternative selection Public consultation Public Feasibility/ consultation Design Monitoring Monitoring studies plan development studies Alternatives Develop Funding Development alternatives Joint fact finding/ Oversight data collection group creation Public Alternative consultation approval Coalition Appraisal building Collect & assess Removal baseline data decision Identify problem & issues of concern No action/ leave in place Define goals & objectives 0-2 years 2-6 years 2-6 years Ongoing (min 10 years) conceptual dam removal planning process model. 2 executive summary Upper York Creek Dam upper york creek Dam impounds york creek, a tributary to the Napa river. the upper watershed is sparsely populated in contrast to the downstream watershed, which includes the city of st. Helena (the dam owner) and several vineyards. the reservoir was originally constructed for drinking water storage for area residents, and is now filled with approximately 28,100 upper york creek Dam and infilled cubic yards of sediment (Prunuske chatham, inc., 2007). the dam prevents reservoir. threatened steelhead passage to the well protected upstream watershed. Napa River toxic sediment from behind the dam was accidentally released in 1992, leading to legal action by the california Department of Fish and Game (cDFG) and the Napa county District attorney which led to the city of st. St. Helena Helena (the city) agreeing to removing the dam. significant permitting delays 0 0.25 0.5 1 Miles during the 1990s contributed to the city seeking technical assistance from Downstream of dam state and federal government agencies. the city joined with the california upstream of dam Department of Water resources (DWr) to remove a downstream barrier, and signed a cost-share agreement with the united states army corps of engineers (the corps) to notch the dam, allowing fish passage while maintaining structural integrity of the adjacent road. a strength of the planning process was addressing downstream barriers early on to achieve maximum fish passage benefits. DWr’s Fish Passage improvement Program was able to provide technical assistance in meeting federal permitting requirements, and joined with the city in removing a conceptual sections of dam removal smaller downstream diversion barrier that would have prevented meeting alternatives. objectives identified in planning for removing upper york creek Dam (FPiP, 2002). additional information on fish populations and potential for increasing Desired Benefits Undesired Consequences Tradeoffshabitat access was provided by the Napa resource conservation District, Fish habitat access Sensitive species impacts Futurewhich ecological benefits helped vs. short termthe construction corps impacts make a strong case for congressional authorization Sediment transport Compromised water quality Toxic sedimentof funding removal vs. impactsto support of disposal the preferred alternative of notching the dam. Downstream habitat restored Upstream habitat loss Reduced failure threat Flooding Downstream landowners have expressed concerns about the potential Recreation opportunities Water supply loss increased flood risk posed by dam removal, and the city commissioned Likelihood studies that found removing the dam will not increase the timing or severity low high low high of floods. Watershed residents and community groups appear to have limited risks. involvement in or knowledge of project planning efforts. Lack of community interest has contributed to limited progress over the past few years on the part of the city in developing a sediment removal plan. Construction permit delays Permitting Dam notching National Marine Fisheries Service preferred alternative Public consultation on design Public comment Design studies, monitoring plan, monitoring Draft EIR WRDA 2007 Additional WRDA & City funding Sediment transport & Lower
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