HomeMy WebLinkAboutBakersfield BTP Ch 6 BenefitsBenefits
Alta Planning + Design |6-1
6. Benefits
6.1. Why Bicycling is Important
Bicycling is important to Bakersfield’s future due to its potential to address the interrelated challenges of
traffic, air quality, creating a sense of community, and public health. Non-motorized transportation
infrastructure can also provide economic benefits to the community. By becoming a more bicycle-friendly city,
Bakersfield can affect all of these elements and can collectively influence the existing and future quality of life.
Fostering conditions where bicycling is accepted and encouraged increases a community’s livability from a
number of different criteria that are often difficult to measure, but nevertheless important. In areas where
people ride a bicycle, there are more opportunities for chance meetings than where people generally travel by
vehicle. People bicycling are also more likely to talk and interact on a more human level. More activity at a
slower rate also provides more “eyes on the street”, or the effect of people looking out for one another. All of
these quality of life benefits can enhance Bakersfield’s sense of place.
This chapter outlines estimated future bicycling activity and the benefits of bicycling including traffic,
economic, air quality and health benefits.
6.2. Future Usage and Benefits
Alta has developed a Caltrans approved bicycle model that estimates bicycle network usage and benefits
associated with increased bicycling. Table 6-1 quantifies the estimated reduction in vehicle miles traveled in
Bakersfield following implementation of the bikeway network, as well as an increase of bicycle mode share
from 1.35 percent to 2.6 percent.
6.2.1 Traffic Benefits
Each time residents in Bakersfield choose to bicycle for utilitarian purposes, automobile trips are removed
from the road. As Bakersfield’s downtown, other retail and employment districts become more inviting to
bicycles, more work, school, shopping, and recreational trips will be made on bicycle. Cumulatively, this
pattern may reduce traffic in some areas and, subsequently, improve air quality.
Table 6-1 presents estimated future bicycling trips that would result from implementation of this plan. As
estimated, bicycle mode share would increase to 2.6 percent - from 5,564 existing trips to 11,195 with the
built-out bikeway network.
City of Bakersfield | Bicycle Transportation Plan
6-2| Alta Planning + Design
Table 6-1: Projected Year 2030 Bicycling Demand
Data Source and Assumptions
Future Commute Statistics
Future study area population 433,253
CA Department of Finance State and County Population Projections applied to
2007-2011 American Community Survey, B01003 5-Year Estimates
Future employed population 175,497
CA Department of Finance State and County Population Projections applied to
2007-2011 American Community Survey, B08301 5-Year Estimates
Future bike-to-work mode share 0.7%
Assumes the number of bicycle to work commuters will double after full bikeway
network buildout (based on 2007-2011 American Community Survey, B08301 5-
Year Estimates)
Future number of bike-to-work
commuters 1,299Future employed persons multiplied by bike-to-work mode share
Future work-at-home mode share 3.5%
Assumes the number of work-at-home employees will increase by 25% (based
on 2007-2011 American Community Survey, B08301 5-Year Estimates)
Future number of work-at-home
bike commuters 612
Assumes 10% of population working at home makes at least one daily bicycle
trip
Future transit-to-work mode share 1.5%
Assumes the number of transit-to-work commuters will increase by 25% (based
on 2007-2011 American Community Survey, B08301 5-Year Estimates)
Future transit bicycle commuters 642
Employed persons multiplied by transit mode share. Assumes 25% of transit
riders access transit by bicycle
Future school children, ages 6-14
(grades K-8) 15,830
CA Department of Finance State and County Population Projections applied to
2007-2011 American Community Survey, B01003 5-Year Estimates
Future school children bicycling
mode share 4.0%
Assumes school children bicycling mode share will double (based on National
Safe Routes to School surveys, 2003)
Future school children bike
commuters 633School children population multiplied by children bike mode share
Future number of college students
in study area 48,238
CA Department of Finance State and County Population Projections applied to
2007-2011 American Community Survey, B01003 5-Year Estimates
Future estimated college bicycling
mode share 5.0%
National Bicycling & Walking Study, FHWA, Case Study No. 1, 1995 [Review of
bicycle commute share in seven university communities (5%), adjusted to
consider site-specific topographic constraints (1%)]
Future college bike commuters 2,412College population multiplied by college bike mode share
Future total number of bike
commuters 5,598
Total of bike-to-work, transit, school, college and utilitarian bicycle commuters
(Does not include recreation)
Total daily bicycling trips 11,195Total bicycle commuters x 2 (for round trips)
Estimated Adjusted Mode Share 2.6%Estimated bicycle commuters divided by population
Future Vehicle Trips and Miles Reduction
Reduced Vehicle Trips per
Weekday 3,491
Assumes 73% of bicycle trips replace vehicle trips for adults/college students
and 53% for school children
Reduced Vehicle Trips per Year 911,184Reduced number of weekday vehicle trips multiplied by 261 (weekdays in a year)
Reduced Vehicle Miles per
Weekday 25,580
Assumes average round trip travel length of 8 miles for adults/college students
and 1 mile for schoolchildren
Reduced Vehicle Miles per Year 6,676,326
Reduced number of weekday vehicle miles multiplied by 261 (weekdays in a
year)
Benefits
Alta Planning + Design |6-3
6.2.2 Economic Benefits
An inviting bicycle network and supportive programs have potential to improve the following economic
factors:
Studies suggest that home prices near trails are higher than home prices farther away from trails.1
Bicycle and pedestrian facilities can lead to increased spending. A 1991 National Park Service study
found that long rural trails generated more revenue per person than shorter urban trails. The study
estimated average expenditures of rail-trail users at $1.90 per person to $14.88 per person.2
A high-quality bicycling environment can bring bicycle-related businesses to the region. Portland,
Oregon’s bicycle industry was worth approximately $90 million in 2008,3 and a study of the economic
impact of bicycling in Wisconsin found that manufacturing contributes $426 million and retail sales
and service contribute up to $100 million.4
While data are not available to quantitatively estimate the economic impacts of constructing a high-quality
network in Bakersfield, this Plan’s implementation may contribute to increased property values, tourism,
retail sales and bicycle-related businesses.
6.2.3 Air Quality Benefits
Increased bicycle commute trips would have the additional benefit of improving air quality levels over levels
projected without improvements to the bicycle network. Analysis conducted for this Plan found that
implementation of the bicycle network could result in approximately 11,195 daily commute and utilitarian
bicycle trips. The corresponding reduction in vehicle miles driven would reduce air pollution emissions.
Measuring environmental improvements by reduction in greenhouse gases allow easy measurement and
tracking of real benefits.
Table 6-2: Projected Year 2030 Bicycling Air Quality Impact
Data Source and Assumptions
Future Air Quality Benefits
Reduced Hydrocarbons (pounds/weekday) 77Daily mileage reduction multiplied by 1.36 grams per reduced mile
Reduced PM10 (pounds/weekday) 0.3Daily mileage reduction multiplied by 0.0052 grams per reduced mile
Reduced PM2.5 (pounds/weekday) 0.3Daily mileage reduction multiplied by 0.0049 grams per reduced mile
Reduced NOX (pounds/weekday) 54Daily mileage reduction multiplied by 0.95 grams per reduced mile
Reduced CO (pounds/weekday) 699Daily mileage reduction multiplied by 12.4 grams per reduced mile
Reduced C02 (pounds/weekday) 20,809Yearly mileage reduction multiplied by 369 grams per reduced mile
Reduced Hydrocarbons (pounds/year) 20,018Yearly mileage reduction multiplied by 1.36 grams per reduced mile
Reduced PM10 (pounds/year) 77Yearly mileage reduction multiplied by 0.0052 grams per reduced mile
Reduced PM2.5 (pounds/year) 72Yearly mileage reduction multiplied by 0.0049 grams per reduced mile
Reduced NOX (pounds/year) 13,983Yearly mileage reduction multiplied by 0.95 grams per reduced mile
Reduced CO (pounds/year) 182,513Yearly mileage reduction multiplied by 12.4 grams per reduced mile
Reduced C02 (pounds/year) 5,431,229Yearly mileage reduction multiplied by 369 grams per reduced mile
Emissions rates from EPA report 420-F-05-022 "Emission Facts: Average Annual Emissions and Fuel Consumption for Gasoline-Fueled Passenger
Cars and Light Trucks." 2005.)
1 Racca, D., & Dhanju, A. (2006). Property Value/Desirability Effects of Bike Paths Adjacent to Residential Areas. Delaware Center for
Transportation.
2 Center for International Public Management, Inc. for the Florida Dept. of Environmental Protection, Office of Greenways and Trails. (1998).
Thinking Green: A Guide to the Benefits and Costs of Greenways and Trails.
3 Alta Planning+Design. (2009). The Value of the Bicycle-Related Industry in Portland.
4 Wisconsin Department of Transportation. The Economic Impact of Bicycling in Wisconsin.
City of Bakersfield | Bicycle Transportation Plan
6-4| Alta Planning + Design
6.2.4 Health Benefits
Bicycling can improve public health through increased physical activity. In recent years public health
professionals and urban planners have become increasingly aware that the impacts of vehicles on public
health extend far beyond asthma and other respiratory conditions caused by air pollution. Dependency on
vehicles has decreased physical activity, which in turn is linked to cardiovascular disease, stroke,
hypertension, Type-2 diabetes and osteoporosis. In comparison to European countries and Canada (Figure
6-15), the U.S. has a higher rate of obesity and lower rate of walking, bicycling, and public transportation use.
Improving non-motorized facilities may help alleviate these disorders and reduce obesity.
Figure 6-1: Transportation and Obesity Rates
The Centers for Disease Control recommend that all healthy adults aged 18 to 65 need moderate-intensity
physical activity at least three days each week. Community design, including bicycle facilities, influences the
ability of Bakersfield residents to attain these levels of exercise through daily activities such as commuting to
work, school or for recreation.
5 Pucher, J., & Dijkstra, L. (September 2003). Promoting Safe Walking and Cycling to Improve Public Health. American Journal of Public Health.