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REDWOOD CITY <br />benefit optimization of GI project opportunities was included to build upon <br />the preliminary C/CAG SRP planning efforts above, and to properly inform and <br />set meaningful goals for GI Plans. For each optimized combination of GI <br />projects, SUSTAIN provides an estimate of the resulting pollutant load <br />reduction and implementation costs, allowing for the comparison of GI <br />implementation scenarios and the selection of the most cost-effective <br />implementation plan to address pollutant reduction goals, whether at the <br />scale of an individual jurisdiction or across municipal boundaries. <br />2.6 Goals for GI Implementation <br />As discussed in Section 2.2, depending on the perspective of the regulators, <br />stakeholders, or Permittees, the purpose and expectations of the RAA can vary <br />in terms of how reasonable assurance is demonstrated. As a result, the output <br />from the RAA must consider multiple perspectives and strike the right balance <br />between detail and specificity while still leaving ample opportunity to allow <br />for future adaptive management. The following are key considerations for the <br />RAA output: <br />• Demonstrate PCBs and Mercury Load Reductions — The primary <br />goal of the RAA is to quantitatively demonstrate that GI Plans and <br />Control Measure Implementation Plans will result in load reductions <br />of PCBs and mercury sufficient to attain their respective TMDL WLAs <br />and the component stormwater improvement goals to be achieved <br />with GI. Based on the baseline hydrology and water quality model <br />(Appendix C), the RAA determined that a 17.6% reduction in PCB <br />loads is needed to meet the GI implementation goals established by <br />the MRP. Zero reduction in mercury loads was determined to be <br />needed from MRP areas because baseline loads were predicted to <br />be below the TMDL WLA for San Mateo County. As a result, a 17.6% <br />reduction in PCB loads is established as the primary pollutant <br />reduction goal for the GI Plan. However, there is some uncertainty in <br />terms of how PCB source areas are represented in the model, which <br />will require more monitoring and analysis in the future to gain an <br />improved understanding of PCB source areas and the ability to target <br />these areas with GI. Since PCBs are generally understood to be <br />transported with cohesive sediment (e.g., silt and clay), cohesive <br />sediment load can serve as a surrogate on which to base a load <br />reduction target. The RAA considers a 17.6% reduction of cohesive <br />sediment load as a more conservative surrogate until a better <br />understanding is reached in terms of specific PCB source areas within <br />the County. If additional PCB source areas are confirmed, these areas <br />could be targeted for source control measures or additional GI <br />implementation, likely resulting in greater effectiveness for GI to <br />reduce PCB loads in those areas, and thus redistributing or reducing <br />RWC GREEN INFRASTRUCTURE PLAN <br />GREEN INFRASTRUCTURE PLAN <br />16 JUNE 2019 <br />ATTY/RESO.0075/CC RESO APPROVING THE GREEN INFRASTRUCTURE PLAN — EXHIBITA RESO. NO. 15780 <br />REV: 06-20-19 PR MUFF NO. 802 <br />