Transportation is the largest source of greenhouse gas emissions in California. In order to achieve the state鈥檚 goals of carbon neutrality by 2045 and avoid the worst impacts of climate change, decarbonizing this sector is essential. But such a transition is unlikely to occur rapidly without key policy intervention.
A team of transportation and policy experts from the University of California released today to the California Environmental Protection Agency (CalEPA) outlining policy options to significantly reduce transportation-related fossil fuel demand and emissions. Those policy options, when combined, could lead to a zero-carbon transportation system by 2045, while also improving equity, health and the economy. led by UC Santa Barbara was released simultaneously. It identifies strategies to reduce in-state petroleum production in parallel with reductions in demand.
The state funded the two studies through the 2019 Budget Act. The studies are designed to identify paths to slash transportation-related fossil fuel demand and emissions while also managing a strategic, responsible decline in transportation-related fossil fuel supply.
The University of California demand study was conducted by researchers from the , a network with branches at 不良研究所, UC Berkeley, UC Irvine, and UCLA. The coordinated the report鈥檚 policy management, and the led the study鈥檚 equity and environmental justice research.
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Bringing about a zero-carbon transportation future will be challenging, but not impossible, the report states. Doing so requires urgent actions and a long-term perspective. Importantly, a major upfront investment in clean transportation through incentives and new charging and hydrogen infrastructure will soon pay off in net economic savings to the California economy, with net savings within a decade growing to tens of billions of dollars per year by 2045.
The report recommends flexible policy approaches that can be adjusted over time as technologies evolve and more knowledge is gained.
鈥淭his report is the first to comprehensively evaluate a path to a carbon neutral transportation system for California by 2045,鈥 said Dan Sperling, director of the 不良研究所 Institute of Transportation Studies. 鈥淲e find that such pathways are possible but will rely on extensive changes to existing policies as well as introduction of some new policies. The study also prioritizes equity, health and workforce impacts of the transition to zero-carbon transportation.鈥
Researchers from 不良研究所 led the scenarios, equity, light-duty vehicles and fuels portions of the report. The scenarios chapter estimates that a transition to low-carbon transportation will net billions of dollars in savings by 2045.
The equity aspects of the study identified policy options to ensure that the benefits from low-carbon options go first to the communities most in need. The light-duty vehicle and fuels sections identified specific technology and policy pathways to contribute to a zero-carbon transportation system while also supporting improved mobility.
Key policy strategies
Zero emission vehicles: Many of the report鈥檚 policy options are centered on a rapid transition to zero-emission vehicles, or ZEVs, which is expected to dramatically reduce GHG emissions and improve local air pollution as the state鈥檚 electric grid is also decarbonized.
Light-duty and heavy-duty vehicles are responsible for 70 percent and 20 percent of the state鈥檚 transportation GHG emissions, respectively. The report suggests a combination of enhanced mandates, incentives, and public charging and hydrogen infrastructure investments to speed the adoption of ZEVs. For medium and heavy-duty vehicles, key policy priorities include increasing the availability of charging stations for long-haul freights, electricity pricing reform to make depot charging more affordable, and priority lanes and curb access for zero-emission trucks, among other possibilities.
Vehicle miles traveled: Even with widespread ZEV use, reducing overall vehicle miles traveled is necessary to reduce traffic congestion and emissions from vehicle manufacturing, and to enhance quality-of-life and land-use benefits related to traffic. The report suggests policies that encourage active, shared and micromobility transportation; telecommuting; and land-use changes that reduce people鈥檚 reliance on automobiles and enhance community connectivity.
Fuels: About 86 percent of transportation fuel is petroleum. Shifting toward low-carbon clean energy requires major investments in electricity and hydrogen. Low-carbon liquid fuels compatible with internal combustion engines will be needed to reduce emissions while the transition to ZEVs progresses, as well as in some specialized applications, like aviation. California can support the needed investments in clean fuels with mandated blending levels and new incentives and credits to stimulate investment in very low-carbon liquid fuels for aviation, shipping and legacy combustion engine vehicles.
Getting to zero: Some residual emissions remain in every scenario examined. The report states that at least 4-5 million metric tons per year of negative emissions capacity (equal to 2.5 percent of current transportation emissions) is needed by 2045 to counteract those residual emissions. These could come from carbon capture and sequestration projects that pull carbon from the air to store it underground, as well as sequestration by natural or working lands.
Benefits
In addition to direct economic benefits beginning around 2030, the transportation decarbonization policies could also lead to health, equity and environmental justice, and workforce and labor benefits.
Health: Transportation is a major cause of local air pollution, as well as climate change. Particulate matter harms lungs and hearts, while nitrogen oxide compounds contribute to ozone pollution and other health impacts. The report found that cleaner heavy-duty vehicles would significantly reduce pollution in many of the state鈥檚 most vulnerable communities. The health benefits of reducing local pollution will grow with the deployment of clean transportation technologies and could translate to more than $5 billion in savings in 2030 and up to $35 billion in 2045.
Equity and environmental justice: Transportation in California carries a legacy of inequity and damage to . These communities often lack quality public transportation or viable transportation choices. Highways have been built with little consideration for displacement, and many communities of color have been divided by freeways, perpetuating historic segregation policies like redlining. The report identifies options that prioritize equity in transportation investments and policies.
These include:
- Continue to support electric vehicle incentives targeted to lower-income buyers and underserved communities, including used vehicles.
- Prioritize deploying electric heavy-duty vehicles in disadvantaged communities and magnet facilities such as commercial warehouses in those communities.
- Support transit and zero-emission services and charging stations in disadvantaged communities. This can help reduce vehicle miles traveled and increase accessibility while avoiding displacement.
- Avoid siting nonrenewable fuel production facilities in disadvantaged communities, engage communities disproportionately affected by transportation sector emissions in decision making concerning the siting of new infrastructure and investments associated with achieving carbon neutrality, and continue to carefully monitor and control local pollutants.
鈥淲e must confront the legacy of the lack of public and private investment where Black, Indigenous, and People of Color (BIPOC) live and work,鈥 said Bernadette Austin, acting director of the 不良研究所 Center for Regional Change. 鈥淭his report identifies ways to strategically invest in sustainable infrastructure while intentionally avoiding disruptive and damaging infrastructure in our most vulnerable and disadvantaged communities.鈥
Workforce: The transition to a carbon-neutral transportation system will disrupt jobs in some sectors while creating new jobs in others, like clean vehicle manufacturing and electric and hydrogen fueling infrastructure. The report suggests that California prioritize the needs of impacted workers. In addition, wherever ZEV-related industry expansion creates quality jobs, state policy should focus on creating broadly accessible career pathways.
Economy: The transition to ZEVs is expected to generate savings for consumers and the economy well before 2045. Within this decade, the costs of owning and operating ZEVs are projected to drop below that of a conventional (gasoline and diesel fueled) vehicle. That is because battery, fuel cell and hydrogen costs will continue to decline; electricity costs will be much less than petroleum fuel costs; and maintenance costs of ZEVs will be less. These savings can be invested elsewhere by households and businesses.
Media Resources
Media Contacts:
- Kat Kerlin, 不良研究所 News and Media Relations, 530-750-9195, kekerlin@ucdavis.edu
- Samuel Chiu, 不良研究所 Institute of Transportation Studies, 530-752-2039, sachiu@ucdavis.edu
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