1. 1 Travel Costs Scott Matthews Courses: 12-706 and 73-359 Lecture 15 - 10/25/2004

2. 12-706 and 73-3592 Admin Issues  Midterm Review  Mean ~40, stdev ~ 5.2  Recall how midterm letter grades assigned  Recap - Schedule of Project Presentations  Miss anyone?

3. 12-706 and 73-3593 Social Discount Rate  Discounting rooted in consumer preference  We tend to prefer current, rather than future, consumption  Marginal rate of time preference (MRTP)  Face opportunity cost (of foregone interest) when we spend not save  Marginal rate of investment return

4. 12-706 and 73-3594 Travel Costs  Time is a valuable commodity (time is $)  Most major transportation/infrastructure projects built to ‘save travel costs’  Need to tradeoff project costs with benefits  Ex: new highway that shortens commutes  Differences between ‘travel’ and ‘waiting’  Waiting time disutility might be orders of magnitude higher than just ‘travel disutility’  Why? Travelling itself might be fun

5. 12-706 and 73-3595 Valuation: Travel Cost Method  Estimate economic use values associated with ecosystems or sites that are used for recreation  changes in access costs for a recreational site  elimination of an existing recreational site  addition of a new recreational site  changes in environmental quality  www.ecosystemvaluation.org/travel_costs.htm

6. 12-706 and 73-3596 Travel Cost Method  Basic premise - time and travel cost expenses incurred to visit a site represent the “price” of access to the site.  Thus, peoples’ WTP to visit the site can be estimated based on the number of trips that they make at different travel costs.  This is analogous to estimating peoples’ WTP for a marketed good based on the quantity demanded at different prices.

7. 12-706 and 73-3597 Example Case  A site used mainly for recreational fishing is threatened by development.  Pollution and other impacts from this development could destroy the fish habitat  Resulting in a serious decline in, or total loss of, the site’s ability to provide recreational fishing services.  Resource agency staff want to determine the value of programs or actions to protect fish habitat at the site.

8. 12-706 and 73-3598 Why Use Travel Cost?  Site is primarily valuable to people as a recreational site. There are no endangered species or other highly unique qualities that would make non-use values for the site significant.  The expenditures for projects to protect the site are relatively low. Thus, using a relatively inexpensive method like travel cost makes the most sense.  Relatively simple compared to other methods

9. 12-706 and 73-3599 Options for Method  A simple zonal travel cost approach, using mostly secondary data, with some simple data collected from visitors.  An individual travel cost approach, using a more detailed survey of visitors.  A random utility approach using survey and other data, and more complicated statistical techniques.

10. 12-706 and 73-35910 Zonal Method  Simplest approach, estimates a value for recreational services of the site as a whole. Cannot easily be used to value a change in quality of recreation for a site  Collect info. on number of visits to site from different distances. Calculate number of visits “purchased” at different “prices.”  Used to construct demand function for site, estimate consumer surplus for recreational services of the site.

11. 12-706 and 73-35911 Zonal Method Steps  1. define set of zones around site. May be defined by concentric circles around the site, or by geographic divisions, such as metropolitan areas or counties surrounding the site  2. collect info. on number of visitors from each zone, and the number of visits made in the last year.  3. calculate the visitation rates per 1000 population in each zone. This is simply the total visits per year from the zone, divided by the zone’s population in thousands.

12. 12-706 and 73-35912 Sample Data

13. 12-706 and 73-35913 Estimating Costs z 4. calculate average round-trip travel distance and travel time to site for each zone. Assume Zone 0 has zero travel distance and time. Use average cost per mile and per hour of travel time, to calculate travel cost per trip. Standard cost per mile is $0.30. The cost of time is from average hourly wage. Assume that it is $9/hour, or $.15/minute, for all zones, although in practice it is likely to differ by zone.

14. 12-706 and 73-35914 Data 5. Use regression to find relationship between visits and travel costs, e.g. Visits/1000 = 330 – 7.755*(Travel Cost)

15. 12-706 and 73-35915 Final steps  6. construct demand for visits with regression. First point on demand curve is total visitors to site at current costs (with no entry fee), which is 1600 visits. Other points by estimating number of visitors with different hypothetical entrance fees (assuming that an entrance fee is valued same as travel costs). Start with $10 entrance fee. Plugging this into the estimated regression equation, V = 330 – 7.755C:

16. 12-706 and 73-35916 Demand curve zThis gives the second point on the demand curve—954 visits at an entry fee of $10. In the same way, the number of visits for increasing entry fees can be calculated:

17. 12-706 and 73-35917 Graph Consumer surplus = area under demand curve = benefits from recreational uses of site around $23,000 per year, or around $14.38 per visit ($23,000/1,600). Agency’s objective was to decide feasibility to spend money to protect this site. If actions cost less than $23,000 per year, the cost will be less than the benefits provided by the site.

18. 12-706 and 73-35918 Value - travel time savings  Many studies seek to estimate VTTS  Can then be used easily in CBAs  Book reminds us of Waters 1993 (56 studies)  Many different methods used in studies  Route, speed, mode, location choices  Results as % of hourly wages not a $ amount  Mean value of 48% of wage rate (median 40)  North America: 59%/42%

19. 12-706 and 73-35919 Government Analyses  DOT (1997): Use % of wage rates for local/intercity and personal/business travel  Personal: 50% for local, 70% intercity  Business: 100% for all trips  These are the values we will use in class  Income levels are important themselves  VTTS not purely proportional to income  Waters suggests ‘square root’ relation  E.g. if income increases factor 4, VTTS by 2 Office of Secretary of Transportation, “Guidance for the Valuation of Travel Time in Economic Analysis”, US DOT, April 1997.

20. 12-706 and 73-35920 Recreation Benefits  Value of recreation studies  ‘Values per trip’ -> ‘value per activity day’  Activity day results (Sorg and Loomis 84)  Sport fishing: $25-$100, hunting $20-$130  Camping $5-$25, Skiing $25, Boating $6-$40  Wilderness recreation $13-$75  Are there issues behind these results?