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IT TAKES ALL KINDS: The overhaul
includes additions to academic buildings such as
the Center for Integrated Systems (above), construction
of graduate residences such as Lyman
(below) and refurbishment of historic structures
such as Green Library West, now known as the Bing Wing
(right).
© Timothy Hursley
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A FEW YEARS AGO, when
Gerhard Casper was stepping down as Stanford’s
ninth president, the Robert and Ruth Halperin Foundation
decided to honor him with a new outdoor sculpture. Stone
River, by British environmental artist Andy Goldsworthy,
is a meandering drystone wall that seems to rise magically
from a broad trough in the earth near the Cantor Arts
Center. What really sets the piece apart, though, is
its heritage.
All 6,500 of its sandstone blocks were salvaged from
Stanford buildings damaged or destroyed in the earthquakes
of 1906
and 1989.
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Courtesy Architect Planning
Office
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The symbolism hardly could have been more appropriate.
Boosted by the twin engines of needed repairs and a
thriving economy, construction crews during Casper’s
presidency hauled more dirt, stones and steel, retrofitted
more
old buildings and erected more new ones than at any
other time
in Stanford’s history. “By the year 2001, we
will have completed a five-year cycle of about double
our normal level of construction activity,” Casper
predicted in his 1996 State of the University address. “As
measured by expenditures, even adjusted for inflation,
we are in the
most intense period of construction in the history
of Stanford University, including its founding.” Between
1992 and 2002, the University spent approximately $1.6
billion on
new and improved buildings.
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Courtesy Architect Planning
Office
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Since then, as the economy has slowed, so have the
backhoes and cranes. The University faces a $19 million
deficit this
year, and in June, Provost John Etchemendy, PhD ’82,
warned the Faculty Senate that future projects in the
still-ambitious capital plan—which calls for $837
million in construction over the next six years—may
have to be delayed. (In its 2000 General Use Permit
with Santa Clara County, Stanford
agreed to limit development in the core campus to 2
million square feet over 10 years, but now it does
not expect to
reach that figure in that time period.) Among the “good
dreams” that need additional funding: 400 units of
law student housing, replacements for the outdated
Hansen Experimental Physics Lab and Terman Engineering
Center, a
new biological sciences building, new education facilities
at the Medical School, and a renovation of the old
anatomy building near the Cantor Center for the department
of art.
As University architect David Neuman observes, “At
the moment, we’re not digging any large holes.” Although
there is still work to be done, the efforts of the
past decade have resulted in nothing less than
a campus transformed. Ten years ago, wooden braces
held up quake-damaged
arches on the Quad, and many buildings were shrouded
in scaffolding and cyclone fencing. The 7.1-magnitude
Loma Prieta earthquake
of October 1989 had damaged more than 200 Stanford
buildings, 20 of which were closed immediately. After
the temblor, Santa
Clara County passed an ordinance requiring retrofitting
of unreinforced masonry buildings. Of the 50 such structures
in the county, Stanford owned 45.
Even without the scars
of Loma Prieta, many campus buildings in the late 1980s
were showing signs of obsolescence.
Few
classrooms were wired for up-to-date audiovisual
technology, and many did not meet federal standards for
disability access. Older student residences hadn’t
been upgraded in decades, and their heating, fire safety,
plumbing and
electrical systems
were basically shot.
Scientists and engineers on campus
had their own concerns. For years they had been scattered
throughout
a dingy
group of postwar buildings west of the Quad, known
not so affectionately
as Stanford’s Industrial Slum. Interaction between
faculty of different disciplines—crucial for
today’s
scientific research—was challenging. What’s
more, many of the buildings lacked basics like
fume hoods, adequate
power supplies and properly ventilated space for
powerful computers. “We realized that we needed
a modern home for the many existing researchers
as well as new faculty
that we hoped to recruit in the next decade,” says
vice provost for undergraduate education John Bravman, ’79,
MS ’81, PhD ’85, who chaired the materials
science and engineering department from 1996 to
1999.
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GRAD STUDENT HEAVEN: Schwab,
which houses mostly first-year MBA students, boasts
private baths and a fitness facility.
Courtesy Architect Planning
Office
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Today, these and other problems have been
substantially solved. The campus sparkles with
new details (granite
curbs and pendant lamps along the Quad arcades),
acres of fresh
landscaping, dramatic contemporary buildings and
lovingly restored old ones. Among the accomplishments:
•
Repair and retrofitting of more than 100 seismically
unsound structures. In the process, the University discovered
the earthquake’s silver lining: the opportunity
to revitalize some architectural treasures, including
Memorial
Church, the 1893 Leland Stanford Junior Museum
building, Encina Hall, the west wing of Green Library
and large portions
of the Main Quad (see sidebar).
•
Realization of a long-held dream: a Science and Engineering
Quad to the west of the Main Quad. The University has also
added centers for cancer treatment and clinical sciences
research, the Lokey Chemistry-Biology Lab, a new mechanical
engineering research facility and the just-opened Clark Center
for Bioengineering and Biosciences.
•
A rigorous student housing capital plan under which
most residences have been upgraded and several new
ones built
(see sidebar).
Where to find the money
for all this was not immediately clear during the
recession of the early ’90s. Reserve
funds for earthquake repairs stood at just $7 million,
a fraction of the $300 million that would eventually
be spent.
The University was facing allegations that it had
overcharged the U.S. government millions of dollars
for the indirect
costs of federally sponsored research. Subsequent
congressional hearings and media reports fueled apprehension
about future
capital funding for medical research, engineering
and the basic sciences.
In 1994, the picture suddenly
brightened. The Federal Emergency Management Agency
and the State of California
agreed to pay $55 million toward earthquake repair
and retrofitting.
Another $90 million from donors began pouring
into the newly established Stanford Restoration Fund.
The indirect-cost controversy was settled with
no government claims against
Stanford for wrongdoing. And that fall, the University
received
the then-largest single donation in its history:
$77.4
million from Silicon Valley pioneers William
R. Hewlett and David
Packard toward completion of the 12-acre Science
and Engineering Quad.
It was as if the heavens
had opened. Still, administrators were determined to
be careful stewards. Casper,
in particular, was painfully aware of the importance
of architectural heritage.
He’d grown up in bomb-ravaged postwar Germany
and had seen the “mundane and uninteresting” way
many European cities had been rebuilt after
World War II. Conversely,
after 26 years in Chicago, he knew how beautiful
contemporary architecture could be, given the
right degree of care. Soon
after arriving at Stanford, he announced that
he wanted to preside over design competitions
on all major new projects. “I
wanted to be sure that we were expressing what
we were all about in a more contemporary vocabulary,” the
president emeritus recalls during an interview
in his office at the
Institute for International Studies, in the
newly refurbished Encina Hall.
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TEACHER TECH: Each of the two
lecture halls in the Teaching Center at the Science
and Engineering Quad contains a revolving stage,
allowing one instructor to prepare lab demonstrations
behind the scenes while another is finishing a
class.
Courtesy Architect Planning
Office
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The first design
to make the cut under Casper’s new
system was for a 1996 addition to the Paul
Allen Center for Integrated Systems, by New
Mexican architect Antoine Predock.
Like many newer campus buildings, Predock’s
creation is a thoroughly modern structure that
takes its cues from
Stanford’s past. On the outside, the award-winning
building has a sandstone veneer and an arched
main entry reminiscent of the Main Quad. At
night, when the center’s
lights are on, a nine-inch glass rim makes
the copper-shingled roof seem to float above
the masonry mass.
When Neuman leads campus
tours several times each year, he sometimes
hears objections to
the look of the new
buildings. “Ninety
percent sign up because they want to know more
about the architecture and are genuinely open
to understanding it,” he
says. “But there are always a few who ask
pointed questions, sometimes pretty cranky
questions. ‘Why
does that have so much glass on it? It should
have a red tile roof. It should
look like the Quad.’” The University
architect smiles. “It’s a point of
view.”
Casper, too, welcomes such diversity
of opinion. As he writes in the foreword to
Stanford University:
An
Architectural Tour, by Richard Joncas, David
Neuman and Paul Turner
(Princeton
Architectural Press, 1999), “While the Latin
proverb says there is no disputing about taste,
the Latin proverb
is wrong. Aesthetics are an appropriate subject
for debate, especially on campuses.” Overall,
though, he is confident that the University’s
latest stone age has left the campus pretty
much as founders Leland and Jane Stanford would
have wished. Still dignified. More beautiful.
And forward-looking as ever.  |
