TEXT G It is hard to track the
blue whale, the ocean’s largest creature, which has almost been killed off by
commercial whaling and is now listed as an endangered species. Attaching radio
devices to it is difficult, and visual sightings are too unreliable to give real
insight into its behavior. So biologists were delighted early
this year when, with the help of the Navy, they were able to track a particular
blue whale for 43 days, monitoring its sounds. This was possible because of the
Navy’s formerly top-secret system of underwater listening devices spanning the
oceans. Tracking whales is but one example of an exciting new
world just opening to civilian scientists after the cold war as the Navy starts
to share and partly uncover its global network of underwater listening system
built over the decades to track the ships of potential enemies.
Earth scientists announced at a news conference recently that they had
used the system for closely monitoring a deep-sea volcanic eruption for the
first time and that they plan similar studies. Other scientists
have proposed to use the network for tracking ocean currents and measuring
changes in ocean and global temperatures. The speed of sound in
water is roughly one mile a second--slower than through land but faster than
through air. What is most important, different layers of ocean water can act as
channels for sounds, focusing them in the same way a stethoscope does when it
carries faint noise from a patient’s chest to a doctor’s ear. This focusing is
the main reason that even relatively weak sounds in the ocean, especially
Iow-frequency ones, can often travel thousands of miles. Which of the following is true about the U.S. Navy underwater listening network
A.It is now partly accessible to civilian scientists. B.It has been replaced by a more advanced system. C.It became useless to the military after the cold war. D.It is indispensable in protecting endangered species.