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WATER DEFICITS GROWING IN MANY COUNTRIES
Water Shortages May Cause Food Shortages
http://www.earth-policy.org/Updates/Update15.htm
Lester R. Brown The world is incurring a vast water deficit. It
is largely invisible, historically recent, and growing fast. Because
this impending crisis typically takes the form of aquifer overpumping
and falling water tables, it is not visible. Unlike burning forests
or invading sand dunes, falling water tables cannot be readily photographed.
They are often discovered only when wells go dry.
The world water deficit is recent-a product of the tripling of
water demand over the last half-century and the rapid worldwide
spread of powerful diesel and electrically driven pumps. The drilling
of millions of wells has pushed water withdrawals beyond the recharge
of many aquifers. The failure of governments to limit pumping to
the sustainable yield of aquifers means that water tables are now
falling in scores of countries. We are consuming water that belongs
to future generations. In some countries, the fall of water tables
is dramatic. In Yemen, a country of 19 million, the water table
under most of the country is falling by roughly 2 meters a year
as water use far exceeds the sustainable yield of aquifers. World
Bank official Christopher Ward observes that "groundwater is
being mined at such a rate that parts of the rural economy could
disappear within a generation."
In the basin where the capital, Sana'a, is located and where the
water table is falling 6 meters (nearly 20 feet) per year, the aquifer
will be depleted by the end of this decade. In the search for water,
the Yemeni government has drilled test wells in the basin that are
2 kilometers (1.2 miles) deep, depths normally associated with the
oil industry, but they have failed to find water. Yemen must soon
decide whether to bring water to Sana'a, possibly from coastal desalting
plants, or to relocate the capital. Iran, a country of 70 million
people, is facing an acute shortage of water. Under the agriculturally
rich Chenaran Plain in northeastern Iran, the water table was falling
by 2.8 meters a year in the late 1990s. But in 2001 the cumulative
effect of a three-year drought and the new wells being drilled both
for irrigation and to supply the nearby city of Mashad dropped the
aquifer by an extraordinary 8 meters. Villages in eastern Iran are
being abandoned as wells go dry, generating a swelling flow of water
refugees. (See http://www.earth-policy.org/Updates/Update15.htm
for additional examples.)
Shortages of water in Egypt, which is entirely dependent on the
Nile River, are well known. With the Nile now reduced to a trickle
as it enters the Mediterranean, the three principal countries of
the Nile River Basin-Egypt, Ethiopia, and Sudan-can each increase
its take from the river only at the expense of the other two. With
the combined population of these countries projected to climb from
167 million today to 264 million in 2025, all three are facing growing
grain deficits as a result of water shortages. In Mexico-home to
104 million people and growing by 2 million per year-the demand
for water has outstripped supply in many states. In the agricultural
state of Guanajuato, for example, the water table is falling by
1.8-3.3 meters a year. Mexico City's water problems are legendary.
How the United States and Mexico share the water of the Rio Grande
has become a thorny issue in U.S.-Mexican relations. A World Bank
study of the water balance in the North China Plain calculated an
annual deficit of 37 billion tons of water. Using the rule of thumb
of 1,000 tons of water to produce 1 ton of grain, this is equal
to 37 million tons of grain-enough to feed 111 million Chinese at
their current level of consumption. In effect, 111 million Chinese
are being fed with grain produced with water that belongs to their
children. Scores of other countries are running up regional water
deficits, including nearly all of those in Central Asia, the Middle
East, and North Africa, plus India, Pakistan, and the United States.
Historically, water shortages were local, but in an increasingly
integrated world economy, the shortfalls can cross national boundaries
via the international grain trade. Water-scarce countries often
satisfy the growing needs of cities and industry by diverting water
from irrigation and importing grain to offset the resulting loss
of production. Since a ton of grain equals 1,000 tons of water,
importing grain is the most efficient way to import water. World
grain futures will soon in effect become world water futures. Although
military conflicts over water are always a possibility, future competition
for water seems more likely to take place in world grain markets.
This can be seen with Iran and Egypt, both of which now import more
wheat than Japan, traditionally the world's leading importer. Imports
supply 40 percent or more of the total consumption of grain-wheat,
rice, and feedgrains-in both countries. Numerous other water-short
countries also import much of their grain. Morocco brings in half
of its grain. For Algeria and Saudi Arabia, the figure is over 70
percent. Yemen imports nearly 80 percent of its grain, and Israel,
more than 90 percent. Seventy percent of world water use, including
all the water diverted from rivers and pumped from underground,
is used for irrigation, 20 percent is used by industry, and 10 percent
goes to residences. Thus if the world is facing a water shortage,
it is also facing a food shortage.
Water deficits, which are already spurring heavy grain imports
in numerous smaller countries, may soon do the same in larger countries,
such as China or India. Even with the overpumping of its aquifers,
China is developing a grain deficit. After rising to an historical
peak of 392 million tons in 1998, grain production in the world's
largest nation fell below 350 million tons in 2000, 2001, and 2002.
The resulting annual deficits of 40 million tons or so have been
filled by drawing down the country's extensive grain reserves. But
if this situation continues, China soon will be forced to turn to
the world grain market. When this happens, it will almost certainly
drive grain prices upward. Remember that when the Soviets decided
after a poor harvest in 1972 to import grain rather than tighten
their belts, the world wheat price climbed from $1.90 per bushel
in 1972 to $4.89 in 1974. The two keys to stabilizing aquifers are
raising water prices and stabilizing population. The first step
is to eliminate the pervasive subsidies that create artificially
low prices for water in so many countries.
The next is to raise water prices to the point where they will
reduce pumping to a sustainable level by raising water productivity
and reducing water use in all segments of society. Low-income urban
consumers can be protected with "lifeline rates" that
provide for basic needs at an affordable price. Prices of underground
water can be raised by installing meters on pumps and charging for
water as Mexico has done or by auctioning permits to operate wells.
Either way, water prices rise. The second key is to quickly stabilize
population in water-short countries. Most of the 3 billion people
projected to be added worldwide by mid-century will be born in countries
already experiencing water shortages. Unless population growth can
be slowed quickly by investing heavily in female literacy and family
planning services, there may not be a humane solution to the emerging
world water shortage.
Additional data and information sources at
www.earth-policy.org
or
contact jlarsen@earth-policy.org
For reprint permissions contact
rjkauffman@earth-policy.org
For more information on water shortages
see Chapter 2, ECO-ECONOMY:
BUILDING AN ECONOMY FOR THE EARTH
http://www.earth-policy.org/Books.index.htm
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