Earlier this year, I slowly stumbled across something that I don’t think is well-known in comparative public transportation: European cities have much higher public transport ridership than someone experienced with American patterns would guess from their modal splits. From another direction, Europe has much lower mode share than one would guess from ridership. The key here is that the mode share I’m comparing is for work trips, and overall ridership includes all trip purposes. This strongly suggests that non-work public transportation usage is much higher in European than in American cities even when the usage level for work trips is comparable. Moreover, the reason ought to be better off-peak service in Europe, rather than other factors like land use or culture, since the comparison holds for New York and not only for truly auto-oriented American cities.
Modal shares and ridership levels
My previous post brings up statistics for work trip mode share in England and France. For the purposes of this post, I am going to ignore England and focus on France and wherever I can find data out of Germany and Austria; the reason is that in the secondary cities of England, public transport is dominated by buses, which are hard to find any ridership data for, let alone data that doesn’t have severe double-counting artifacts for transfer passengers. For the same reason, I am not going to look at Canada – too many transfer artifacts.
In contrast, French and German-speaking metro areas with rail-dominated public transport make it relatively convenient to count rail trips per capita, as do the more rail-oriented American metro areas, namely Boston, New York, and Washington. A secondary check involving both bus and rail can be obtained from The Transport Politic, comparing the US with France.
|Boston||4,900,000||Subway, commuter rail||204,000,000||42||12%|
|New York||20,000,000||Subway, PATH, LIRR, MN, NJT Rail||2,050,000,000||103||31%|
|Washington||6,200,000||Metro, MARC (daily*280), VRE (daily*250)||245,000,000||40||12%|
|Vienna||3,700,000||U-Bahn, trams, S-Bahn (PDF-p. 44)||822,000,000||222||40%|
|Berlin||5,000,000||U-Bahn, trams, S-Bahn||1,238,000,000||248||35%|
|Stuttgart||2,400,000||Stadtbahn, S-Bahn, Regionalbahn||223,000,000||93||26%|
|Lyon||2,300,000||Métro, trams, funiculars, 0.5*TER||325,000,000||141||20%|
|Marseille||1,800,000||Métro, trams (daily*280), 0.5*TER||139,000,000||77||16%|
Note that New York, with a 31% mode share, has not much more rail ridership per capita than French metro areas with mode shares in the teens, and is a quarter below Lyon, whose mode share is only 20%. This is not an artifact of transfers: just as the subway dominates ridership in New York, so does the metro dominate Lyon, Toulouse, and Lille, and so does the tram dominate Bordeaux. If anything, it’s Stuttgart, the only European city on this list with comparable ridership per unit of mode share to the US, that should have the most overcounting due to transfers.
Also note that French rail ridership nosedives in the summer, when people go on their 5-week vacations, and I presume that this equally happens in Germany and Austria. The ratio of annual to weekday ridership in France where it is available is fairly low, not because weekend ridership is weak, but because the weekday chosen to represent daily ridership is never in the summer vacation season.
Off-peak public transportation in the United States is quite bad. In New York, 10-minute frequency on most lettered routes is the norm. In Washington, the off-peak frequency is 12 minutes. In Boston, it varies by line; on the Red Line each branch is supposed to come every 12-13 minutes off-peak, but in practice trains don’t run reliably and often leave the terminal bunched, alternating between 3- and 10-minute gaps.
Moreover, commuter trains are so useless except for peak-hour commutes to city center that they might as well not exist. Hourly gaps and even worse are routine, and even the busiest New York commuter lines have at best half-hourly off-peak frequency. These lines are only about 15% of rail ridership in New York and Boston and 6% of rail ridership in Washington, but they contribute a decent volume of commuters who drive for all non-work purposes.
In Berlin, the off-peak frequency on the U-Bahn is a train every 5 minutes most of the day on weekdays. On Sundays it drops to a train every 8 minutes, and in the evening it drops to a train every 10 minutes far too early, leading to overcrowding on the first train after the cut in frequency around 9 pm. The S-Bahn trunks run frequently all day, but the branches in the suburbs only get 10-minute frequency, and the Ring has a 2-hour midday period with 10-minute gaps. The suburban areas with only S-Bahn service get comparable service to neighborhoods on New York subway branches, while closer-in areas get better service. No wonder people use it for more than just work – the train is useful for shopping and socializing at all hours of the day.
The people who manage public transportation in the United States do not have the same profile as most riders. They work traditional hours, that is 9 to 5 on weekdays only, at an office located in city center. Many senior managers do not use their own system. That NYCT President Andy Byford does not own a car or know how to drive and takes the subway and buses to events is unusual for such a senior person, and early media reports noted that some managers looked askance at his not driving.
Growing segments of the American middle class commute by public transportation. In Boston and Washington, transit commuters slightly outearn solo drivers, and in New York they do not but it is close. But those segments have different travel behavior from public-sector planners. For example, lawyers work long hours and depend on the subway at 8 or 9 pm, and programmers work shifted hours and both show up to and leave work hours after the traditional times. But public transportation agencies still work 9 to 5, and thus the middle-class transit-using behavior they are most familiar with is that of the denizen of the segregated suburb, who drives to all destinations but city center.
In such an environment, off-peak service is treated as a luxury. When there is a deficit, agencies cut there first, leading to frequency-ridership spirals in which lower frequency deters riders, justifying further cuts in service until little is left. In New York, there are guidelines for frequency that explicitly state it is to be adjusted based on ridership at the most crowded point of the route, without regard for whether cuts depress ridership further. There is a minimum acceptable frequency in New York, but it is set at 10 minutes on weekdays and 12 on weekends. For a similar reason, the planners tend to split buses between local and limited routes if each can support 10-12 minute headways, at which point the buses are not useful for short trips.
In contrast, in Germany and France, there is a mixture of drivers and public transportation users among managers. German planning stresses consistent schedules throughout the day, so the midday off-peak often gets the same frequency as the peak. French planning does vary frequency, but maintains a higher base frequency even late into the night. The Paris Métro runs every 5 to 7 minutes at 11 pm. The idea of running a big city metro line every 12 minutes is unthinkable.