In case of confusion: this is what I am calculating here. |
How did I do this? I took the CTPS train count data and calculated, for each line, the number of passengers arriving during the single peak hour of service (generally 7:30 to 8:30). For each highway or major road leading in to the city, I looked at MassDOT traffic data and calculated the number of cars coming in to the city for the same peak hour. The I grouped these together in to corridors and compared the results. (It turns out that Alon took a quite different methodology, and came up with similar results.)
What are the results? Well, before I took the results, I took a poll on Twitter to see what people think the results would be. The poll is kind of braindead and only allowed for four options, so I put in a range from 10 to 70% in increments of 15% (the answer falls somewhere in this range). If you haven't seen this poll already, go ahead and vote: [note 1]
The correct answer? From my data, and supported by Alon's, it's about 42%. [note 2] So about 80% of people are underestimating it. I can see how this happens. Good infrastructure looks empty. The Providence Line north of Hyde Park may only have a train every nine minutes, yet it carries more people than a jam-packed, four-lane highway. [note 3] If you sit on the Turnpike in traffic for half an hour you may only see one train roll by (never mind the fact that train is carrying several miles worth of traffic [note 4]).During peak hour, what % of commuters going in to Boston are on Commuter Rail vs highways? (Take poll or reply w/ guess) @universalhub— Ari Ofsevit (@ofsevit) March 1, 2017
Now, 42% is low. Mode share is much higher in New York and Chicago. [note 5] This means that Boston's lines have room to grow with better investment, which is why we need a long-term vision for the rail network and need to make sure that projects like Auburndale don't go awry and permanently crimp capacity.
Corridor | Road | Rail | Highways | CR Lines |
Northeast | 5956 | 2936 | 1, 1A | Newburyport, Rockport |
North | 4647 | 3937 | 93 | Haverhill, Lowell |
Northwest | 3966 | 1792 | 2 | Fitchburg |
West | 8385 | 6646 | 90, 9, VFW | Worcester, Needham, Franklin |
South | 12025 | 8498 | 95, 28, 138, 3A, Granite Ave | Providence/ Stoughton, Old Colony |
Or, graphically:
So, why does this matter?
First, it shows that Commuter Rail passengers account for nearly half of the commuters in some sectors, especially since these data don't account that many of the drivers on these highways aren't headed downtown but nearly all Commuter Rail riders are. (For instance, some drivers on I-93 in Quincy are probably headed to Peabody or Woburn, but few if any Commuter Rail riders are, at least until we build the North-South Rail Link.) Second, it shows that the Commuter Rail system is under-appreciated: 80% of respondents undervalue its need.
Most of all? The Commuter Rail system has room to grow. Highways most certainly do not. Here's what the throughput on I-93 looks like at rush hour (data from a week in May in 2016):
Note the dip after 7 a.m. As traffic increases and speeds decrease, both in this segment and downstream, congestion actually decreases the throughput of the roadway. There's no more room to put cars. And this occurs on most major highways in the region. If we were to drop Commuter Rail passengers on to the highways, it would be cataclysmic. Maybe in 1969—when highway volumes were a third of what they are today—Commuter Rail seemed like an antiquated concept. Even with the old, tired infrastructure the MBTA operates, that's not the case today.
We're not about to build wider highways (it's expensive and doesn't work anyway). But the region is growing: for the first time in a century the population of the Boston area is increasing at a rate faster than the country as a whole:
The highways are full. The subway is close. The railroads have capacity, and they link downtown to many regional centers with more available housing. They're over-utilized compared with our perceptions but under-utilized compared with their potential, and other Commuter Rail lines in other cities. From the lows of the 1970s, the lines were upgraded in the 1980s, and ridership responded. Since then both planning and ridership have stagnated. As the region grows we need a better plan for our rail assets now, and for the future.
Note:
General note on data: This is counting only people on highways and other major roads and Commuter Rail. Think of it as anyone coming from outside 128 (or outside the reach of the Rapid Transit system) to the Downtown area. There are certainly some people who take back roads that whole way, but they are probably a relatively small number in comparison. There are about 412,000 jobs based in Downtown Boston plus Seaport, Back Bay and Fenway, and maybe another 50,000 in Cambridge. This is only during peak hour; off-peak travel—when train schedules are limited and roads clearer—are likely much more car-dependent.
Note 1: As of the posting of this blog, the votes broke down as follows and have been stable in this range for several hours:
Note 2: This is a coarse, broad measurement. For certain towns with relatively good rail service and poor road connections—Attleboro/Mansfield/Sharon, Acton and Salem come to mind—the Commuter Rail mode share is likely much higher.
Note 3: Of course, the Metro-North Park Avenue viaduct carries 47 inbound trains between 7:30 and 8:30 a.m., probably carrying upwards of 40,000 passengers. You'd need half a dozen eight-lane highways to carry that many people. Some New York subway lines carry nearly double that, but over shorter distances.
Note 4: The heaviest train on the Worcester Line, train P508, carried 1179 passengers in 2012; reports are that it's closer to 1500 today. A dense traffic jam may have one car every 30 feet, or 176 cars per lane per mile, or 528 cars on a three-lane highway, so two miles of traffic wouldn't even cover all of P508. A well-patronized train, in other words, carries about as many people than a traffic jam from Newton Corner to Auburndale. Highway capacity is quite finite.
Note 5: In Chicago, for example—perhaps a better comparison since parking is cheaper than in Boston and freeways provide better downtown access than New York—Metra's BNSF line carries 60,000 passengers per day. At rush hour, there are 15 trains carrying upwards of 11,000 passengers per hour, more than the parallel Eisenhower and Stevenson freeways combined (and another 6000 ride the UP-W line in the same catchment area). Metra's busiest station, the gargantuan Route 59 park-and-ride, generates as many as 1000 people per train, and there's a train every 20 minutes at peak rush express to and from the city. Note that unlike the MBTA, the park-and-ride is in addition to, not instead of, downtown stations in nearby Naperville and Aurora.
Note the dip after 7 a.m. As traffic increases and speeds decrease, both in this segment and downstream, congestion actually decreases the throughput of the roadway. There's no more room to put cars. And this occurs on most major highways in the region. If we were to drop Commuter Rail passengers on to the highways, it would be cataclysmic. Maybe in 1969—when highway volumes were a third of what they are today—Commuter Rail seemed like an antiquated concept. Even with the old, tired infrastructure the MBTA operates, that's not the case today.
We're not about to build wider highways (it's expensive and doesn't work anyway). But the region is growing: for the first time in a century the population of the Boston area is increasing at a rate faster than the country as a whole:
This chart is actually quite amazing. (no data before 1860 for the Boston MSA) |
Note:
General note on data: This is counting only people on highways and other major roads and Commuter Rail. Think of it as anyone coming from outside 128 (or outside the reach of the Rapid Transit system) to the Downtown area. There are certainly some people who take back roads that whole way, but they are probably a relatively small number in comparison. There are about 412,000 jobs based in Downtown Boston plus Seaport, Back Bay and Fenway, and maybe another 50,000 in Cambridge. This is only during peak hour; off-peak travel—when train schedules are limited and roads clearer—are likely much more car-dependent.
Note 1: As of the posting of this blog, the votes broke down as follows and have been stable in this range for several hours:
Note 2: This is a coarse, broad measurement. For certain towns with relatively good rail service and poor road connections—Attleboro/Mansfield/Sharon, Acton and Salem come to mind—the Commuter Rail mode share is likely much higher.
Note 3: Of course, the Metro-North Park Avenue viaduct carries 47 inbound trains between 7:30 and 8:30 a.m., probably carrying upwards of 40,000 passengers. You'd need half a dozen eight-lane highways to carry that many people. Some New York subway lines carry nearly double that, but over shorter distances.
Note 4: The heaviest train on the Worcester Line, train P508, carried 1179 passengers in 2012; reports are that it's closer to 1500 today. A dense traffic jam may have one car every 30 feet, or 176 cars per lane per mile, or 528 cars on a three-lane highway, so two miles of traffic wouldn't even cover all of P508. A well-patronized train, in other words, carries about as many people than a traffic jam from Newton Corner to Auburndale. Highway capacity is quite finite.
Note 5: In Chicago, for example—perhaps a better comparison since parking is cheaper than in Boston and freeways provide better downtown access than New York—Metra's BNSF line carries 60,000 passengers per day. At rush hour, there are 15 trains carrying upwards of 11,000 passengers per hour, more than the parallel Eisenhower and Stevenson freeways combined (and another 6000 ride the UP-W line in the same catchment area). Metra's busiest station, the gargantuan Route 59 park-and-ride, generates as many as 1000 people per train, and there's a train every 20 minutes at peak rush express to and from the city. Note that unlike the MBTA, the park-and-ride is in addition to, not instead of, downtown stations in nearby Naperville and Aurora.