Today Michael Wyetzner of Michielli + Wyetzner Architects joins AD for an in-depth look at how bridges transformed New York City into the thriving metropolis we know today. Once upon a time, ferries were the only way to travel between New York’s five boroughs but thanks to the construction of major bridges, like the Brooklyn Bridge and George Washington Bridge, the city became connected. Join Michael for a closer look at how five bridges helped shape NYC into the bustling city we know today.
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00:00 Other than the Bronx, the other four boroughs
00:02 of New York City are all on islands.
00:04 Originally, the only way to get between different parts
00:07 of New York City was to use a ferry,
00:08 and it became a danger as well as an inconvenience.
00:11 So bridges were conceived and built across some
00:15 of the rivers that separate the five boroughs
00:17 of New York City.
00:18 Hi, I'm Michael Weitzner, and I've been an architect
00:20 in New York for over 35 years.
00:21 And today we're gonna talk about some of the architectural
00:24 and engineering marvels that are the bridges
00:26 that connect all five boroughs of New York and New Jersey.
00:30 As recently as the 1850s, the technology did not exist
00:35 to span the East River,
00:37 let alone the much wider Hudson River.
00:39 And the first to do it is one
00:41 of the great technological marvels of any age,
00:44 and that's the Brooklyn Bridge.
00:45 So a few things about building this bridge.
00:47 First of all, shipping traffic could not be interrupted.
00:50 So the height of the bridge was made
00:52 to be 135 feet above high tide.
00:55 And to this day, Navy ships,
00:57 that is the maximum height they can be
00:59 in order to get underneath the Brooklyn Bridge.
01:01 So all these bridges are measured above high tide
01:04 because really all the rivers that surround New York
01:07 are subject to the tides
01:09 because they're so close to the ocean.
01:11 The towers themselves are 278 feet tall.
01:14 By the time that these were built,
01:15 these towers were actually the tallest structures
01:19 in all of Manhattan and Brooklyn.
01:20 So Brooklyn wasn't always a borough.
01:22 In fact, at the time the bridge was conceived and built,
01:25 it was the third largest city in America
01:27 and separate from New York.
01:29 And New York City became the five boroughs
01:30 with consolidation in 1898.
01:33 So this photograph is actually looking towards Brooklyn
01:36 from the Manhattan side,
01:37 and you could see what a great span it was
01:40 to go across the East River.
01:42 In fact, it's 1,595 feet from tower to tower.
01:46 So to achieve this took monumental effort
01:48 and some really ingenious engineering from John Roebling.
01:51 Not only did he have to engineer the entire bridge,
01:54 but he also had to manufacture the cable
01:57 that was his own invention.
01:59 So a suspension bridge basically is,
02:01 you build these two towers, which you see here,
02:04 and then you suspend this long cable from those towers,
02:08 and then you drop cables down from that suspended catenary
02:12 that supports the roadway.
02:13 The Brooklyn Bridge is known as a great suspension bridge,
02:17 but it's actually also a cable stay bridge.
02:20 It's two in one.
02:22 A cable stay bridge takes two towers,
02:25 and instead of suspending a catenary,
02:28 it anchors the roadway with direct cables.
02:31 So the crossing of these cables forms this lacy finery
02:35 in contrast to these massive stone towers.
02:38 And the completed towers weigh 140 million pounds each.
02:42 So what people don't realize is actually
02:45 these great granite towers actually sit
02:48 on a foundation of wood.
02:50 These towers sit on caissons,
02:52 which is just a French word for chest, like treasure chest.
02:55 And these caissons are actually like a huge trapezoidal dome
03:00 made out of wood that was floated
03:02 into the middle of the river,
03:03 and they dropped them to the bottom of the river,
03:06 at which point they pumped in compressed air
03:09 and pumped out water so that men could work
03:12 in the space underneath this sort of wooden roof,
03:15 and they can dig down with pick and shovel
03:17 until they hit bedrock.
03:19 And when they finally did hit bedrock,
03:20 they pumped the inner space with concrete,
03:24 and that is what these towers sit on.
03:26 So as they were digging down into the riverbed,
03:29 they were piling stones on top of the caisson.
03:32 So little by little, it sunk as they dug,
03:35 and they added more stone,
03:36 and it sunk to the bottom of the river
03:38 until they hit bedrock, and then the tower began.
03:41 This was such a great idea in theory,
03:43 but they didn't know a lot about hydraulics,
03:45 and certainly they didn't know a lot
03:46 about how it affected the human body.
03:48 In a sense, this was really low-tech.
03:49 They were building these foundations
03:51 with picks and shovels in these horrible conditions.
03:54 It was over 100 degrees under there.
03:56 The ceiling height was only 9 1/2 feet.
03:58 It was really heavy, heavy air, and a lot of people died.
04:02 It turned out to be what's known as the bends,
04:05 which is essentially just nitrogen bubbles
04:07 in the bloodstream.
04:08 And years later, it was figured out
04:11 that if as long as you came up slowly,
04:13 you would not be affected by this.
04:14 So the chief engineer, John Roebling,
04:16 he didn't really believe in modern medicine,
04:18 and when his foot was crushed by a boat
04:21 against one of the piers, he refused medical attention,
04:25 which would have saved his life.
04:27 And subsequently, in a matter of weeks,
04:29 he came down with tetanus and died.
04:32 The engineering fell to his son, Washington,
04:34 who had researched a lot of the caisson technology,
04:37 and he became the chief engineer
04:39 and oversaw the building of the bridge
04:41 until he got a terrible case of the bends
04:44 and was incapacitated.
04:45 And then the rest of the bridge was left to his wife, Emily.
04:49 And what a lot of people don't realize is
04:51 Emily Roebling essentially got the Brooklyn Bridge built,
04:54 one of the great unsung women in history.
04:57 And in 1883, when the bridge was finally complete,
04:59 Emily was the first to cross the bridge
05:01 with a rooster to symbolize victory.
05:05 Next up, the bridge over troubled water,
05:07 the Hellgate Bridge.
05:08 So what I love about this bridge,
05:10 a lot like the Brooklyn Bridge,
05:11 is the contrast between the steel work of the span
05:14 and the stonework of the towers.
05:16 But in this case, the towers are really just decorative
05:20 and are there for show only.
05:21 They're not actually supporting the arch.
05:24 The arch is being supported at the base of those towers,
05:26 but you didn't need a tower above that base.
05:29 So the bridge was begun in 1912 and completed in 1916
05:32 in the middle of World War I.
05:33 And it spans across one portion of the East River
05:37 from Astoria, Queens to Ward's Island.
05:40 It's 970 feet, of which this arch spans.
05:43 And this steel arch was using sort of a new kind of steel,
05:47 which was carbon steel, and which was extremely strong.
05:50 It was designed to hold 60, 200 ton locomotives all at once.
05:55 So it's called the Hellgate Bridge
05:56 because ever since the Dutch were here,
05:59 the confluence of the East River and the Harlem River,
06:01 right around Randalls and Ward's Island,
06:03 were really dangerous waters.
06:05 By the 1850s, about a thousand ships a year
06:08 would smash onto the rocks and the straits,
06:10 hence the name Hellgate.
06:12 So to move goods and people across this waterway,
06:15 the most efficient way to do it was with a bridge.
06:18 And so they hired Gustav Lindenthal,
06:20 a great German engineer, to accomplish that.
06:23 Again, in order not to interrupt shipping traffic,
06:26 the arch had to be built from either side
06:29 and then connected at the end in the middle.
06:32 And this bridge was built so precisely
06:35 that it was only 5/16 of an inch
06:38 that had to be accounted for at the end when the two met,
06:41 which is exactly the width of the end of this pen,
06:44 which is an amazing feat.
06:46 So this bridge is just for trains.
06:48 It was built by the Pennsylvania Railroad Company,
06:50 who also built Penn Station.
06:52 The Pennsylvania Railroad Company
06:53 had bought the Long Island Railroad
06:55 and they brought trains underneath the East River
06:57 through tunnels to Penn Station.
06:59 But to get to New England,
07:00 they needed a bridge to span across to Queens and the Bronx,
07:05 and so they built the Hellgate Bridge.
07:07 So it essentially connected Long Island
07:10 to the mainland in the Bronx,
07:12 which made it a very high-value bridge,
07:14 so high, in fact, that it was targeted
07:16 by the Nazis during World War II.
07:18 Let's take a closer look at the towers.
07:20 This is a beautiful photograph.
07:22 I love this tower in contrast to this steel arch.
07:26 Again, like the Brooklyn Bridge,
07:28 it's the contrast of this fine metal work
07:30 against this heavy stonework.
07:32 But what I really find interesting about the towers
07:35 is that the architect, who was Henry Hornbostel,
07:38 who worked with Lyndon Thaw on a number of bridges,
07:41 made these look like triumphal arches,
07:43 like something you'd see in Rome or Paris.
07:45 And so there's the central arch in the middle
07:48 that the trains run through,
07:50 but then there's smaller arches at the ends
07:52 for people to go through.
07:54 So in the 1990s, Congress allocated $55 million
07:57 to repaint the bridge,
07:58 and they chose this new color called Hellgate Red.
08:02 Unfortunately, that paint didn't have
08:04 the proper UV protection, and it quickly faded,
08:08 and it had to be repainted,
08:09 and each subsequent repainting
08:11 also did not have the proper UV protection.
08:14 And subsequently, this bridge always looks faded and worn.
08:18 One New York City politician said,
08:20 "It should be the jewel of the city,
08:22 "but instead it's eight shades of lavender."
08:24 Next up, the oldest moving bridge in New York,
08:27 McComb's Dam Bridge.
08:29 So the McComb's Dam Bridge spans the Harlem River,
08:31 between the Bronx and Upper Manhattan,
08:34 essentially connecting Yankee Stadium
08:36 to what was the Polo Grounds,
08:37 and now Rucker Park, the famous basketball court,
08:40 is at the foot of that bridge in Manhattan.
08:42 This bridge is only 25 feet above high tide,
08:44 which boats can't get under.
08:46 So to counteract that,
08:48 they created what's known as a swing bridge.
08:51 And what this bridge does
08:52 is it actually pivots on this drum,
08:55 and so the entire bridge from tower to tower
08:58 disconnects and actually pivots 90 degrees
09:02 to let boat traffic come in on either side.
09:04 So to build this bridge,
09:06 they had to create a man-made island
09:08 in the middle of the river,
09:09 which leaves 150 feet on either side,
09:12 so that this bridge can have this drum,
09:14 this central support.
09:16 So swing bridges are much longer lasting
09:18 than other kinds of movable bridges,
09:20 like draw bridges or lift bridges,
09:23 or even retractable bridges,
09:25 because the machinery is unstressed
09:27 in its closed position,
09:28 because they break the span in half, essentially.
09:31 The others have to deal with the span,
09:33 and then the span as it's moving,
09:35 which puts a lot of live load on it.
09:36 The bridge is essentially just a prat truss.
09:39 Prat truss is essentially a truss
09:41 that's taller in the middle and angles down at the ends,
09:44 and each vertical bay is divided by a single diagonal.
09:47 That's a prat truss.
09:49 So the McCombs is basically a prat truss,
09:51 but typically, prat trusses are not supported
09:54 in the center like this one is.
09:55 And what I find interesting about the design,
09:57 which was done by A.P. Bowler, Alfred Pankost Bowler,
10:01 is that he expresses that central support
10:05 with this double vertical here in the middle
10:07 with those little finials at the top,
10:09 and then with these very strong diagonals here
10:11 where he almost creates another plane,
10:14 and it almost looks like it's opening out.
10:16 And at the ends of the bridges
10:18 are these somewhat diminutive towers
10:20 that almost look like little fairy tale towers,
10:22 out of something the Grimm brothers would write.
10:24 So not as famous as the Brooklyn Bridge, obviously,
10:26 but it was memorialized by Edward Hopper
10:29 in some of his paintings early in the 20th century.
10:32 In fact, Bowler designed a number of these sorts of bridges,
10:34 and they sort of stitch across the Harlem River
10:38 and connect Manhattan with the Bronx.
10:40 So let's talk about how the McCombs Dam Bridge got its name.
10:44 So going all the way back to the early 1800s,
10:47 Alexander McComb ran a ferry service
10:49 across at this very spot.
10:51 Later, his son took this over,
10:52 and his son built a dam across the Harlem River
10:56 to the chagrin of many other people along the riverway,
10:59 especially those who needed to navigate it.
11:01 And he only left a seven-foot-wide lock, as it were.
11:04 And so basically, only one boat at a time could go through.
11:08 In fact, it was such a nuisance that at some point,
11:10 a bunch of concerned citizens punched a hole in that bridge.
11:13 And actually, the New York State Supreme Court
11:15 sided with the people who breached and destroyed the bridge.
11:17 Now let's talk about the oldest surviving bridge
11:19 in all of New York City, the High Bridge.
11:21 So the High Bridge crosses the Harlem River
11:24 at 174th Street in Manhattan.
11:26 Today, it's a pedestrian bridge,
11:27 but in fact, it was built as an aqueduct.
11:29 So it starts 40 miles upstate at the Croton Reservoir
11:32 and works its way down and crosses the Harlem River
11:35 and terminates at what was this Egyptoid-looking reservoir
11:39 at 42nd and Fifth Avenue, where the main branch
11:42 of the New York Public Library today stands.
11:44 This bridge was super important when it was built
11:46 because it brought fresh water to Manhattan.
11:48 Before that, most of the water was sourced locally
11:50 and quite often was polluted.
11:52 And in fact, there were cholera outbreaks
11:53 because the water was so dirty in most of Manhattan.
11:56 So if you subscribe to the theory
11:58 that it's the water that makes the bagels
11:59 and the pizza so fantastic in New York,
12:02 then one can really appreciate the High Bridge.
12:05 So even though it's designed to look like a Roman aqueduct
12:08 where the water runs in a trough on top of the arches,
12:12 running at the top of this bridge actually are pipes
12:14 that supply water to New York City.
12:16 And those pipes are covered by five feet of earth
12:19 so that they don't freeze in the winter.
12:21 And in the distance, you can see the High Bridge Tower,
12:24 which was actually a water tower
12:25 that contained 47,000 gallons of water.
12:28 Those pipes are supported by these stone arches
12:31 that sort of walk across the river.
12:33 And there's seven of them with 80-foot spans
12:36 that actually cross the river.
12:37 And then there's eight more with 50-foot spans
12:40 that actually cross on the land.
12:42 This is the oldest surviving bridge in New York.
12:45 And when it was built, there was sort of parkland
12:47 on either side, and it was a popular recreation spot
12:49 for many New Yorkers.
12:50 Before the Brooklyn Bridge
12:51 became this great tourist attraction,
12:53 actually, it was the High Bridge
12:55 that was a tourist attraction in Upper Manhattan.
12:57 This bridge was designed by John Bloomfield Jervis,
13:00 who was the chief engineer of the Erie Canal.
13:03 The Erie Canal runs from Buffalo and Lake Erie
13:07 all the way east to Albany
13:08 and then down straight south to New York.
13:10 And it made the New York Harbor
13:12 the economic powerhouse that it is.
13:14 And it was created by D. Wick Clinton,
13:16 who was the governor of New York at the time.
13:18 And he did two great things, D. Wick Clinton.
13:20 He did the Erie Canal,
13:22 and he did the 1811 commissioners plan,
13:25 which laid out the grid for the city of New York.
13:27 So this is how the bridge looked
13:28 when it was originally built in 1848.
13:30 But during World War I,
13:32 shipping traffic on the river increased greatly,
13:34 and these arches became somewhat of a hazard to the boats.
13:39 In 1928, they eliminated the arches across the water
13:43 and put in a huge steel arch bridge.
13:45 It's unfortunate because the beauty of the high bridge
13:48 was that sort of rhythmic repetition of those arches,
13:51 and that's all been destroyed by this huge 450-foot arch,
13:55 even though one could certainly understand the reasons
13:57 why they did it, but it's still a shame.
13:59 Today, it's a pedestrian bridge,
14:00 and it's sort of returned to what it originally was
14:03 in that it's sort of just a novelty to walk across it.
14:06 Next up, the busiest bridge in the world,
14:09 the George Washington Bridge.
14:10 The less than 50 years after the Brooklyn Bridge
14:13 did the seemingly impossible job of spanning the East River,
14:16 the George Washington Bridge more than doubled the span
14:20 across the Hudson River.
14:21 And in this case, it was done as a pure suspension bridge.
14:25 So this is a view looking from the Manhattan side,
14:29 sort of northwest across to New Jersey,
14:32 and you could see the Manhattan Tower here
14:34 with the little red lighthouse
14:35 just below it at Jeffrey's Hook.
14:37 And then these towers are 570 feet tall,
14:40 and they drape a cable that's three feet in diameter
14:43 across from the towers, and from those cables,
14:47 they drop then other cables that supports the roadway,
14:51 200 feet above the water at high tide.
14:53 Builders and engineers had been dreaming
14:55 about spanning the Hudson River for over 100 years,
14:59 but the technology just wasn't there.
15:01 Finally, in 1931, that was completed by Othmar Amann,
15:05 who was a lieutenant to Gustav Lindenfall,
15:08 the designer and engineer of the Hellgate Bridge.
15:11 So the George Washington Bridge connects Fort Lee, New Jersey
15:14 to Upper Manhattan at 178th Street,
15:16 and its two towers basically stand on the land,
15:19 unlike the Brooklyn Bridge where they're in the water.
15:21 So on the Manhattan side, the tower sits on the shoreline
15:26 just above the little red lighthouse,
15:28 which we'll talk about later.
15:30 And on the New Jersey side,
15:31 they built out into the river just a bit
15:34 to accommodate the New Jersey Tower.
15:35 The towers to the George Washington Bridge
15:37 are really unique in that originally,
15:39 they were designed by Cass Gilbert,
15:41 who was a pretty famous architect.
15:42 In fact, he designed the Woolworth Building
15:44 in Lower Manhattan.
15:45 And they were originally supposed to be clad
15:47 in granite and concrete,
15:48 but it was the height of the Depression
15:50 when this bridge was being built and money was tight.
15:53 And when these towers first went up
15:54 and everyone saw this muscular and robust steel structure,
15:59 they were kind of awed by it.
16:00 And they were like, "Hey, let's just leave them as they are,
16:03 "save some money and leave this really expressive
16:06 "piece of architecture on its own."
16:08 That decision actually led to the project coming in
16:11 under budget and ahead of schedule,
16:13 something unheard of for a public infrastructure project
16:16 of this scale, even back then.
16:18 So even though these towers look super modern,
16:21 in fact, they were built at the end of the 1920s.
16:23 And that was before they had the technology
16:26 to do rolled steel.
16:27 So unlike a rolled piece of steel,
16:29 where you basically have a long I-beam
16:31 that at the end gets either welded
16:33 or bolted to the other beam,
16:35 here they'd have to build these towers
16:38 out of smaller pieces of steel.
16:40 And what that required was that those pieces
16:43 be riveted every few inches to other pieces.
16:47 And it's an incredible amount of labor.
16:49 Let's take a look at how it appeared
16:51 when it was first constructed.
16:52 And when the bridge was originally built,
16:54 it was a single roadway.
16:55 So these towers were so strong and robust looking,
16:58 but the roadway itself was super thin,
17:01 which Ammann loved,
17:02 but most people were completely unnerved by.
17:05 And were almost afraid to drive across it.
17:07 It wasn't until 30 years later
17:09 that they built the second roadway.
17:10 Traffic had increased amazingly by then.
17:13 And as soon as the bridge was open,
17:15 it was overcrowded and it needed more lanes.
17:18 So they filled in the middle
17:20 and they decided to add a second roadway
17:22 beneath the first roadway.
17:24 So when it was first built, it was just six lanes.
17:26 But having added the second roadway, the lower roadway,
17:28 it is now 14 lanes.
17:30 And it's still the world's busiest bridge.
17:32 With 108 million vehicles crossing it every year.
17:35 When it opened in 1931,
17:37 the original toll price was just 50 cents
17:39 to get into Manhattan.
17:40 By 1970s, it was $1.50.
17:42 And now it's actually $16 to cross the bridge.
17:45 And if you're a truck,
17:46 it could cause up to $100 to cross the bridge.
17:49 And what all that adds up to is a million dollars a day
17:52 in revenue for the Port Authority,
17:54 which is actually $365 million a year.
17:58 Just to put it into context,
17:59 this bridge costs $59 million to build.
18:02 So basically every two months,
18:04 it makes back what it cost.
18:06 One fun little fact about the George Washington Bridge
18:08 is that on the Manhattan side,
18:09 it actually terminates at an uptown bus station,
18:12 which was designed by Pierre Luigi Nervi,
18:15 the great Italian engineer and architect.
18:17 And what's interesting about that is
18:18 it's one of the best buildings in Manhattan
18:20 and no one's even heard of it.
18:22 So the little red lighthouse,
18:23 which you could see here in this photo,
18:25 was there before the bridge was built.
18:27 And it was there to protect ships
18:28 from what's known as Jeffrey's Hook,
18:30 which a lot of ships would crash into
18:32 because of the currents in the Hudson River.
18:34 And when they built the bridge,
18:35 originally they were gonna knock it down,
18:36 but there was a bit of an outcry and it was saved.
18:38 And to this day, the little red lighthouse remains.
18:41 And it's the subject of a famous children's book.
18:44 So those are some of the most interesting bridges
18:46 of New York City.
18:46 Tell us what other bridges you'd like to see
18:48 in the comments below.
18:49 [upbeat music]
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