>People engineer cities and development around transit. If you provide massive amounts of transit to a desirable location people will saturate it.
well yes, that is the objective of building transit[0]: to get people where they would like to go. That people 'induce demand' by moving to a place where they can go where they would like to go with (initially) less friction is the system reequilibrating - from places where demand was not adequately sated[0].
Consider the opposite situation: we remove one lane from all highways, and drop the speed limits on all surface streets by 25 percent, and reduce the departures of all trains and planes by 25%. If adding capacity is bad, then reducing it must be good [for the economy and people's quality of life].
[0]If demand was adequately sated, where was it induced from? Adequately sated here might also be read as 'optimally sated' or even just 'less well sated'. Obviously there is a point where cost exceeds the marginal benefit, e.g. adding 10 new bay bridges would surely reduce mean transit times across the bay, but at a patently unreasonable cost-benefit ratio.
[1]Unless you like to argue that we are at the local or global optimum for transit capacity?
It's not that adding capacity is bad, that it can be ineffective.
Given that personal transport is such a large percentage of the nations' carbon footprint, adding more cars detracts from that goal. From that perpsective, or a localized pollution perspective, or people wasting time in traffic jams (because NO alternative exists) - those are bad things.
I've generally lived in places in the US where driving is the ONLY viable option. By adding lanes, an ineffective tactic, instead of investing in more scalable (ie: effective) solutions - therein lies a problem.
> well yes, that is the objective of building transit
The US traffic engineer currently tries to optimize for throughput as defined by vehicles per minute, rather than passengers per minute. Therein lies the rub. Take a 2 lane road, dedicate one for buses, and it turns out the passenger throughput per minute goes way up, a single bus can be equivalent to 50+ cars.
Which is all to say, build more lanes of road for single occupancy cars has a limiting factor for when that is no longer an effective solution to the transit problem. Yet, adding more lanes is often still the only solution applied in many jurisdictions.
in some cities where traffic was reduced in specific areas (usually the center), business went up, because, as more people were forced to walk, they also were more spontaneously entering shops and buying more.
well yes, that is the objective of building transit[0]: to get people where they would like to go. That people 'induce demand' by moving to a place where they can go where they would like to go with (initially) less friction is the system reequilibrating - from places where demand was not adequately sated[0].
Consider the opposite situation: we remove one lane from all highways, and drop the speed limits on all surface streets by 25 percent, and reduce the departures of all trains and planes by 25%. If adding capacity is bad, then reducing it must be good [for the economy and people's quality of life].
[0]If demand was adequately sated, where was it induced from? Adequately sated here might also be read as 'optimally sated' or even just 'less well sated'. Obviously there is a point where cost exceeds the marginal benefit, e.g. adding 10 new bay bridges would surely reduce mean transit times across the bay, but at a patently unreasonable cost-benefit ratio.
[1]Unless you like to argue that we are at the local or global optimum for transit capacity?