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Utilizing Quantitative CEQA GHG Thresholds <br /> Water Service.25 Therefore,the emission inventory and forecast data underlying the thresholds is <br /> both scientific and factual. <br /> As discussed in Section 2.3, GHG Emissions Forecast, implementation of the Pleasanton CAP 2.0 will <br /> achieve a 51 percent reduction in 1990 emissions levels by 2030(to reach the CAP 2.0 target of a 70 <br /> percent per capita reduction in 1990 emissions levels, equivalent to 4.11 MT of CO2e per capita <br /> emissions in 2030). Therefore,this local target is more stringent than the State's target of a 40 <br /> percent emission reduction in 1990 levels by 2030 and makes substantial progress toward achieving <br /> the State's long-term goal of carbon neutrality by 2045.The quantitative thresholds are tied directly <br /> to the level of GHG emissions anticipated for new development in the CAP 2.0 for year 2030. As a <br /> result, because the CAP 2.0 is consistent with the State's 2030 GHG emission target,the quantitative <br /> thresholds are also consistent with the next State milestone GHG emission reduction target for <br /> 2030.The State's GHG emission reduction targets for 2030 and 2045 are set at the levels scientists <br /> say are necessary to meet the Paris Agreement goals to reduce GHG emissions and limit global <br /> temperature rise below two degrees Celsius by 2100 in order to avoid dangerous climate change <br /> (CARE 2017; EO B-55-18).Therefore,the City's emission reduction targets that inform the CAP 2.0 <br /> and the associated quantitative thresholds are based on scientific and factual data on the level of <br /> emissions reduction necessary to avoid a cumulatively considerable contribution to the cumulative <br /> impact of climate change. <br /> Reduction of Plan or Project Impacts to a Less-than-Significant Level <br /> As discussed in Section 2.3, GHG Emissions Forecast, implementation of the Pleasanton CAP 2.0 <br /> would achieve a 51 percent reduction in 1990 emissions levels by 2030.The quantitative GHG <br /> thresholds shown in Section 5.2 Thresholds and Use are tied directly to the level of GHG emissions <br /> anticipated for new development in the CAP 2.0 for year 2030. Therefore,the thresholds are <br /> consistent with the City's local emission reduction target,which is consistent with the State's GHG <br /> emission reduction targets. As mentioned in the preceding subsection,the State's GHG emission <br /> reduction targets for 2030 and 2045 are set at the levels scientists say are necessary to meet the <br /> Paris Agreement goals to reduce GHG emissions and limit global temperature rise below two <br /> degrees Celsius by 2100 in order to avoid dangerous climate change(CARB 2017; EO B-55-18). <br /> Therefore,the quantitative thresholds are set at the level necessary to ensure the City does not <br /> have a cumulatively considerable contribution to the cumulative impact of climate change. As a <br /> result, plans and projects with GHG emissions at or below the quantitative thresholds would also <br /> not have a cumulatively considerable contribution to the cumulative impacts of climate change, and <br /> plan/project impacts would be less than significant. <br /> Support of Substantial Evidence <br /> Substantial evidence regarding the calculation of the quantitative GHG emissions thresholds is <br /> provided in Section 5.1,Thresholds Calculation Methodology.The following subsections provide <br /> additional evidence of how the GHG emissions thresholds are locally appropriate and plan-or <br /> project-specific and how the thresholds distinguish between existing and new development. <br /> Use of Local Data <br /> The quantitative thresholds were developed using the City's communitywide GHG emissions <br /> forecast for year 2030 and are therefore specific to the City of Pleasanton. The thresholds are <br /> 25 Pleasanton,City of.2022.Community Greenhouse Gas Emissions Inventory and Forecast. <br /> Draft 29 <br />