Health impact of light rail systems

The health impact of light rail systems has both positive and negative effects.

Reduction in obesity

Research shows that using light rail increases walking. Frank et al. (2004)[1] report that obesity around Atlanta, as measured by body mass index (BMI), is associated positively with time spent in cars and negatively with mixed land-use (such as incorporating Light Rail transit) and with walking. There is also research, which suggests that utilizing Light Rail transit increases physical activity, even compared to riding the bus. Users of public transit who do not use trains or light rail walk an additional six minutes compared with non-users, whereas those who use trains or light rail walk an additional 4.5 minutes, for a total of 10.5 extra minutes per day.[2] Additionally, MacDonald, et al. (2010)[3] used data collected pre and post light rail development in Charlotte, North Carolina to determine that residents who commuted via light rail had 81% reduced odds of becoming obese.

Moreover, bicycle access to light rail transit can increase physical activity, as people will generally bicycle three to five miles to transit, as opposed the one‐half mile distance the average person is willing to walk. Research also shows that less time spent driving results in a reduced stress level, resulting in a higher quality of life.

Though there are significant potential public health benefits due to light rail, some studies have indicated the discrepancy between the enormous costs of building and operating light rail and its significant, but certainly smaller potential benefit to public health costs (estimated at $12.6 million savings over 9 years).[4]

As such costs and benefits are being weighed it is also essential to recognize the potentially negative health impacts, including injury hazards that accompany light rail. It is equally if not more important that such hazards be closely monitored and mitigated to ensure public health and safety.

Air quality

One electric light rail train produces nearly 99 percent less carbon monoxide and hydrocarbon emissions per mile than one automobile does. A report from the American Public Transit Association (APTA) presents evidence that each person riding light rail transit versus driving an automobile for one year reduces hydrocarbon emission by nine pounds, nitrogen oxide emissions by five pounds and carbon monoxide emissions by 62.5 pounds.[5] Furthermore, bicycle access on light rail and bicycle lockers at park and rides remain a priority for RTD, which further contributes to cleaner air. A large proportion of air pollution is generated in the first few miles of an auto trip when the engine is cold. From an air quality standpoint, biking to stations at the start or end of a workday trip eliminates "cold‐start" vehicle emissions associated with driving to a park and ride.

Negative consequences

Some negative consequences are increases in noise levels, loss of wetlands, adverse impacts to historic sites, gentrification and risk of displacement.[6] A 2011 study done by Human Impact Partners in Minnesota showed that light rail and RTD expansion in their communities had at least one if not all of these negative outcomes: higher rate of residential and business displacement, increase in housing values causing fewer vacancies and a decrease in affordable housing, and displacement of existing residents—especially low income residents.[7] The study showed that there was a disproportionate impact on people of color and people with lower socio-economic status compared to white people and people with high socio-economic status. Moreover, the risk of displacement can also lead to negative health outcomes such as infectious disease, chronic disease, stress, and impeded child development due to lack of sense of belonging and association to a particular community.

Injury hazards

Automobile injury hazards arise due to existing light rails. Coifman et al. (1997)[8] concluded that drivers engage in undesirable behaviors or actions, which are not considered hazardous, are rather legal to do. Driver's actions such as disobedience to traffic rules and signs, as well as failure to perceive due to poor stimulus observability are factors of hazard causation. Such factors include the misinterpretation of a light rail vehicle horn as another automobile's horn, and the driver's expectation of a normal intersection when in actuality the intersection includes a light rail crossing.

Pedestrians are also at risk of being injured by light rail vehicles, either by crossing rail tracks or ignoring traffic signs, especially where there is limited walkability to safely access the rail stop area. Currently, there is minimal literature available for pedestrian and automobile safety measures and traffic safety concerns (Brown et al., 2011).[9] Further investigation and data collection is needed to prevent these injury hazards.

Access and mobility

Chronic diseases are highly prevalent among individuals who do not have convenient food access. Many residents of food deserts rely on convenience stores, liquor stores, gas stations and drug stores to provide food items (Colorado Health Foundation, 2009).[10] Light rail could contribute to lower rates of obesity and other nutrition-related chronic diseases, such as hypertension and diabetes, by increasing the likelihood that residents in food deserts can easily travel to neighborhoods with cheaper and healthier food options. Research also indicates improved access contributes to improved health outcomes. Similarly, having convenient and affordable light rail access could enable residents with little access to healthcare facilities the opportunity to travel to other neighborhoods with more healthcare providers.

According to the Centers for Disease Control, individuals from low socioeconomic status are more likely than average to use transit as their principle mode for commuting. However, they are often displaced disproportionately with light rail expansion. The most effective predictors of health, according to the National Institutes of Health, are income, poverty, population density, access to public transportation, access to affordable housing, environmental pollution (air and water). While public transportation is a necessary component of improving health of individuals of low socioeconomic status, policies must be changed to make the benefits equal with the challenges.

Economic growth and development

According to RTD (2012),[11] when new development occurs near stations, it increases the likelihood that residents and workers will choose transit as their transportation mode. This reduces the growth in vehicle miles traveled (VMT) and auto trips on a constrained roadway system while, at the same time, accommodating new growth.

Furthermore according to The Housing + Transportation Affordability Index (2012),[12] housing near transit provides residents with an opportunity to decrease their combined household and transportation costs. Residents in locations with close proximity to transit, shorter distances to major employment, and lower vehicle ownership have lower monthly transportation costs.

The effect of displacement on communities, especially low socioeconomic communities (SES), cannot be underestimated. Public transportation is an important resource for low SES communities. However, with light rail developments, there is national precedent for the displacement and tremendous negative impacts upon low SES communities. Both residential and business displacement can have significant negative impacts on health of already vulnerable communities. As housing values rise and fewer vacancies exist, the displacement of existing residents, especially low income residents, begins to happen. This places a disproportionate impact on people of color compared with white. This displacement can have multiple negative impacts, including negative health outcomes including infectious disease, chronic disease, stress and impeded child development.

RTD would be wise to look to Minnesota to find how their Transit Oriented Development addressed the economic and public health needs of the communities affected by the placement of light rail.[7] For example, using restorative investment to ensure that low SES communities are not unduly burdened and pushed aside as light rail tends to gentrify neighborhoods beyond the reach of the poor; opening access to opportunity by rethinking zoning policies, de-concentrating subsidized housing, re-thinking school boundaries; and growing a community together to ensure there are healthy environments for all –not just those who are passing through on light rail or moving to newly renovated areas.[13]

Health Impact Assessments

The CDC,[14] WHO[15] and American Public Health Association (APHA)<http://www.apha.org/> all advocate that "Health Impact Assessments can help ensure health is considered when shaping future transportation policy" (American Public Health Association, 2011).[16] Yet despite these recommendations and a growing body of research on Health Impact Assessment Best Practices,[17][18][19][20][21][22][23] FasTracks has not conducted health impact assessments for the vast majority of its proposed stops. From a public health perspective, having independent, 3rd party health impact assessments conducted would be a wise investment for the long-term economic and public health considerations of the affected communities and would provide the data necessary for the public to assess the value of such infrastructure investments.

RTD does recognize the public health value it provides and its RTD Strategic Plan for Transit Oriented Development indicates its goal to "develop safe, reliable and economical transportation choices to decrease household transportation costs, reduce our nation's dependence on foreign oil, improve air quality, reduce greenhouse gas emissions and promote public health" (Section 2-3)[24]

Yet FasTracks RTD:

In sum, this indicates a lack of committed follow through in measuring public health indicators and developing appropriate studies to indicate causal relationships between light rail development and public health impacts.

RTD has conducted a Quality of Life (QoL) study for the neighborhoods' impacted by FasTracks with baseline data collection starting in 2006 and continuing bi-annually to the present.[28] The QoL study tracks a number of economic and community development indicators; however, the study has no direct measures of public health impacts. Integrating such measures into the QoL study would be an appropriate and timely indication of RTD and FasTracks' stated commitment to improving public health.

References

  1. Frank, L. D.; Andersen, M. A.; and Schmid, T.L. (2004). "Obesity relationships with community design, physical activity, and time spent in cars". American Journal of Preventative Medicine. 27, 2, 87–96.
  2. Edwards, R. D. (2008). "Public transit, obesity, and medical costs: Assessing the magnitudes". Preventative Medicine, 46, 14–21.
  3. MacDonald, J. M., Stokes, R. J., Cohen, D. A., Kofner, A., and Ridgeway, G. K. (2010). "The effect of light rail transit on body mass index and physical activity". American Journal of Preventive Medicine, 39(2), 105–112.
  4. Stokes, R. J.; MacDonald, J. and Ridgeway, G. (2008). "Estimating the effects of light rail transit on health care costs". Health & Place, 14(1), 45–58.
  5. American Public Transit Association. (1993) Transit Fact Book, Washington, D.C. 104.
  6. U.S Department of Transportation. (2012). Transportation Expansion (T-REX) Multi-Modal Transportation Project. Retrieved 06 30, 2012, from Environmental Review Toolkit: http://www.environment.fhwa.dot.gov/strmlng/casestudies/co.asp
  7. 1 2 Adapted for Human Impact Partners, 2011. (2011). Healthy Corridor for All: A Community Health Impact Assessment of Transit-Oriented Development Policy in Saint Paul, Minnesota. Retrieved 06 30, 2012, from Policy Link: http://www.healthimpactproject.org/news/project/body/Healthy-Corridor-summary-FINAL.pdf
  8. Coifman, Benjamin; and Bertini, Robert L.(1997). "Median Light Rail Crossing: Accident Causation And Countermeasures". UC Berkeley: California Partners for Advanced Transit and Highways (PATH). Retrieved from: http://escholarship.org/uc/item/7438m8wc
  9. Brown, B. B. and Werner, C. M. (2011). "The residents' benefits and concerns before and after a new rail stop: Do residents get what they expect?" Environment and Behavior 43(6), 789-808.
  10. Colorado Health Foundation. (2009). Food Access in Colorado. 1-7. Retrieved from http://www.coloradohealth.org/WorkArea/linkit.aspx?LinkIdentifier=id&ItemID=4057
  11. Regional Transportation District of Denver. (2012). 2010 FasTracks Quality of Life Detailed Report. 1-86.
  12. The Housing + Transportation Affordability Index. True Affordability and Location Efficiency. Retrieved June 29th, 2012 from: http://htaindex.cnt.org/#2
  13. Daniel, M.H. (2012). Light Rail Brings Hope and Challenges to Low-income People and Communities of Color. Retrieved from http://www.policylink.org/site/apps/nlnet/content2.aspx?c=lkIXLbMNJrE&b=5156723&ct=11577583
  14. Center for Disease Control. (2012). Health Impact Assessment. Retrieved from http://www.cdc.gov/healthyplaces/hia.htm
  15. World Health Organization. (1999). Health Impact Assessment. Retrieved from http://www.who.int/hia/about/defin/en/index.html
  16. American Public Health Association. (2011). Health Impact Assessment (HIA): A tool to promote health in transportation policy. Retrieved from http://www.apha.org/NR/rdonlyres/AB3486EF-CA7F-4094-AE6E-6AE87C6C26FB/0/HIATranFACTshtfinal.pdf
  17. Bhatia, R., Branscomb, J., Farhang, L., Lee, M., Orenstein, M., & Richardson, M. (2010). "Minimum Elements and Practice Standards for Health Impact Assessment", Version 2. Retrieved from http://www.healthimpactproject.org/resources/document/NA-HIA-Practice-Stds-Wrkng-Grp-2010_Minimum-Elements-and-Practice-Standards-v2.pdf
  18. Dannenbrg, A. L.; Bhatia, R.; Cole, B. L.; Heaton, S. K.; Feldman, J. D. and Rutt, C. D. (2008). "Use of health impact assessment in the U.S: 27 case studies, 1999-2007:. American Journal of Preventative Medicine, 34(3), 241-256.
  19. Fehr, R.; Hurley, F.; Mekel, O. C. and Mackenback, J. P. (2012). "Quantitative health impact assessment: taking stock and moving forward". Journal of Epidemiology & Community Health. Retrieved from http://jech.highwire.org/content/early/2012/07/06/jech-2011-200835.full
  20. Joffe, M. and Mindell, J. "A framework for the evidence base to support Health Impact Assessment". Journal of Epidemiology & Community Health, 56(2), 132-138.
  21. Krieger, N.; Northridge, M.; Gruskin, S.; Quinn, M.; Kriebel, D.; Smith, G. D.; Bassett, M.; Rehkopf, D. H. and Miller, C. (2003). "Assessing health impact assessment: multidisciplinary and international perspectives". Journal of Epidemiology & Community Health, 57(9), 659-662
  22. Robert Wood Johnson Foundation. (2011). "Health Impact Assessment: A tool for promoting health in all policies". Retrieved from http://www.rwjf.org/files/research/sdohseries2011hia.pdf
  23. Veerman, J. L.; Mackenback, J. P. and Barendregt, J. J. (2006). "Validity of predictions in health impact assessment". Journal of Epidemiology & Community Health, 61, 362-366.
  24. Regional Transportation DIstrict FasTracks. (2010). Strategic Plan for Transit Oriented Development. Retrieved from http://www.rtd-fastracks.com/media/uploads/main/TODStrategicPlan-final_090210.pdf
  25. < Regional Transportation Distrtict. Quality of Life Study Baseline Report - 2006.(2008). Retrieved from http://www.rtd-fastracks.com/media/uploads/main/QoL_Baseline_Document_v14_Sect_I-III_only_compressed_pics.pdf
  26. Roof K. (2012). Health Impact Assessment: South Lincoln Homes. Retrieved from http://www.denverhousing.org/development/SouthLincoln/Documents/Health%20Impact%20Assessment.pdf
  27. Feine E, Guzy L, Howard N, Joeng H, Nadolny S, Sadler B. (2010). "Health Impact Assessment for the Elyria-Swansea Neighborhood". Retrieved from http://newurbanelement.com/wp-content/uploads/2010/06/HIA_NWSS_finaldoc.pdf
  28. Regional Transportation District. (2011). 2009 Quality of Life Study Now Available. Retrieved from http://www.rtd-fastracks.com/main_199


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