Parbat, the “Naked Mountain” -- and movie star at this year’s Convention
Theater. CLICK TO
Visit the Tobin Theater at AAPG’s
annual meeting in Salt Lake City to see a rare triple-play:
A film made by a geologist about geologists working
in one of the world’s most geologically fascinating places.
Geologist and filmmaker Doug Prose created the 57-minute
documentary “Nanga Parbat: Naked Mountain,” working with his wife,
The film tells the story of geologists trying to
understand the dynamics of Nanga Parbat, a fast-growing mountain
in northern Pakistan.
In fact, Nanga Parbat might be the world’s fastest-growing
mountain. It stands at the end of the Himalayan chain, in Pakistan’s
Its name means Naked Mountain, from the fact that
snow cannot completely cover its steep sides.
Nanga Parbat rises above a valley carved by the Indus
River -- which proved to be a key fact for geologic investigators.
“We really loved being there. It’s very challenging,”
“In most of these places, you go out in Jeeps on
dirt roads that are hanging off the edge of these incredible mountains,
with this enormous, raging river far below you.”
Prose said work on the Nanga Parbat documentary began
in 1996. Most of the filming took place over two years, including
two trips to Pakistan during an eight to nine week period.
In addition to the remote location, Prose had to
cope with dust storms and temperatures that reached 100 degrees.
He also filmed in the French Alps and at various
labs and universities in the United States. The documentary couldn’t
be completed until 2001, when scientists completed their study of
One of those geologists was Peter Zeitler, professor
of Earth and Environmental Sciences at Lehigh University in Pennsylvania.
At the time, Zeitler served as director of the university’s
Nanga Parbat Continental Dynamics Project, funded by the National
The project “looked at how the crust was reworked,
or overprinted, during this orogeny,” Zeitler said. “Some people
question that terminology, but Nanga Parbat definitely had this
overprinting happen to it.”
At 26,658 feet (8,125 meters), Nanga Parbat is usually
listed as the world’s ninth tallest mountain. Zeitler estimated
its growth at 4-5 millimeters per year, or 4-5 kilometers per million
That doesn’t mean it will get taller. Zeitler put
the mountain’s rate of erosion at about five millimeters per year.
“From a fixed point of reference on the surface,
rock is passing through that point,” he said. “At the same time,
erosion is happening.”
With rapid growth and rapid erosion, perplexing petrology
and the puzzling presence of much younger rock, geologists faced
a truly towering mystery.
What was going on at Nanga Parbat?
From Rock to Film
Prose came to science documentary work from a natural
but oblique direction.
He earned his degree in geology at the University
of California-Santa Cruz, then spent 10 years with the U.S. Geological
Survey in Menlo Park, Calif.
At the same time, Prose said, he played in bands
when music videos became a popular extension of performing.
He wasn’t directly involved in production, but he
paid attention “and picked up a few things,” he said. “It dawned
on me that this was a way to tell a bigger story, to get more in.”
Prose also liked communicating with a broad public
audience instead of writing and presenting papers for a few dozen
specialists at meetings.
He worked on a USGS film project, then branched out.
One of his assignments introduced him to his future wife, who now
writes the scripts for their documentaries.
Their production company, Earth Images Foundation
in Oakland, Calif., has made several public television science documentaries,
broadcast around the world.
Prose said he especially enjoys making nature films
that will be seen by young people.
“We hope they’ll get excited about what geologists
do, and possibly consider that as a career,” he explained.
The Nanga Parbat documentary began as a way “to show
how geologists become involved in these big projects,” according
Those scientists include Qasim Jan, a Pakistani geologist
who began exploring and interpreting the geology of the Nanga Parbat
region more than 30 years ago.
While the geologists provide a focus for the movie,
and Nanga Parbat provides the mystery, Prose said they were all
upstaged in the completed work.
“The Indus River was actually the big star of the
movie,” he said. “It’s like one big rapid all around the base of
Zeitler and a Lehigh faculty colleague, Anne Meltzer,
conducted seismic work at Nanga Parbat to examine the root cause
of the mountain’s growth.
“The seismic results tend to indicate that the mountain
is underlain by warmer and fairly weak rock,” he said.
From seismic data and field studies, the project’s
team of geologists formed a working hypothesis.
Zeitler described the Nanga Parbat model as a “tectonic
aneurism” in Proterozoic basement, with advection of deep crustal
material into a relatively weak crustal zone.
“What we think happened is that the Indus River rapidly
carved a deep valley, a couple of kilometers deep, into crust already
warmed by orogenic events,” Zeitler said.
“Models show that if you cut a notch of that sort,
this will be a place where the crust will tend to fail.”
Once the crust fails, “you get rapid rock uplift,
and rapid erosion facilitated by the presence of the large river.
This erosion steeps the shallow thermal gradient in the crust, further
weakening it, encouraging continued crustal failure,” he added
At the surface, he likened the phenomenon to blowing
up a balloon. Once the balloon begins to expand, it gets easier
to blow up.
Zeitler also sees the phenomenon as a positive feedback
loop, in which the rapid uplift leads to continued rapid erosion,
which helps produce ongoing uplift.
Today, Zeitler works on a similar project in the
Himalayas’ western syntaxis, in southwest Tibet.
He thinks the same kind of processes may be at work,
where the Tsangpo River cuts a gorge near Namche Barwa.
“What they share is the big river,” he said. “It
seems like an interesting coincidence that this is happening at
both ends of the chain.”
Prose sees the Nanga Parbat documentary as compelling
narrative, in addition to a story of the geologists who took on
an unusually challenging riddle.
“It took a couple of years for them to complete the
studies, to solve the mystery,” he said. “Now I guess everybody
is out there rewriting the textbooks.”