Typhoons a boon for ocean life, observations from satellites show
Saturday December 07, 2002
By ANDREW BRIDGES
AP Science Writer
SAN FRANCISCO (AP) Typhoons, the violent storms that are the
bane of life across much of Asia, are a boon for life at sea, where
the cyclones stir up the nutrients that microscopic algae crave,
scientists said Saturday.
Scientists in Taiwan and the United States recently used a trio
of NASA satellites to observe how the passage of even moderate
typhoons over the South China Sea can generate upwellings of
nutrient-rich water from deeper in the ocean and spark massive
blooms of phytoplankton.
``It's a natural hazard, it destroys life, but what I am showing
is it also enhances life,'' said Timothy Liu, a senior research
scientist at the National Aeronautics and Space Administration's
Jet Propulsion Laboratory in Pasadena.
Through photosynthesis, the algae absorb carbon dioxide from the
atmosphere and convert it to oxygen, offsetting emissions of carbon
dioxide from the burning of fossil fuels. The algae are also an
important food source for marine life.
Liu, working with research scientist I-I Lin of Taiwan's
National Center for Ocean Research in Taipei, combined data culled
from three satellites to show the positive effects of storms on
marine life. They presented their results Saturday at the fall
meeting of the American Geophysical Union.
``Typhoons were completely neglected before, because it was
impossible to quantify'' their effect on the algae, Lin said.
Typhoon Kai-Tak passed over the South China Sea on July 5, 2000,
lingering for four days before traveling northward over Taiwan,
data acquired from NASA's Quikscat, a satellite that measures wind
speeds over water, showed.
In its aftermath, sea surface temperature measurements made by
the joint U.S.-Japanese Tropical Rainfall Measuring Mission
satellite showed a 16-degree Fahrenheit drop in the area where the
counterclockwise-spinning storm had been parked. Colder water,
drawn upward by the typhoon, caused the drop, Lin said.
By July 12, 2000, four days after the typhoon had moved on, a
third satellite, the Sea Viewing Wide-Field-of-View Sensor, began
to measure a dramatic change in the ocean color that matched in
extent the previously observed cold spot. A 300-fold increase in
ocean chlorophyll, contained in the algae, accounted for the color
change, Liu said.
The bloom persisted for a month.
Liu and Lin said they tracked about 20 typhoons that swept the
South China Sea over the course of 2000 using the novel
three-satellite method.
``The hypothesis was there, but there was no evidence to tie it
together,'' Liu said of the typhoon-phytoplankton connection.
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On the Net:
http://trmm.gsfc.nasa.gov/
http://seawifs.gsfc.nasa.gov/SEAWIFS.html
http://www.jpl.nasa.gov/missions/current/quikscat.html
(Copyright 2002 by The Associated Press. All Rights Reserved.)