439GROUNDWATER RESOURCES
Water plays a vital role in sustaining the existence of all
living things. The importance of managing the different
aspects of the water, including its quantity, quality, trans-
port processes, utilization, and management becomes appar-
ent when the supply of water, especially potable water, is
limited. This article is intended to be an introduction of the
subject of groundwater. It includes a historical perspective
of development, well hydraulics, the quality aspect, and a
number of remediation technologies.
It has been estimated that approximately 300 million
cubic miles of water exist on the earth at different locations
and in different states phases. From Table 1, it can be seen
that the ocean forms about 97% of the earth’s water as saline
water. The remaining 3% is freshwater. This freshwater
supply would be quickly depleted if it were not for its end-
less interaction and exchange with the ocean. This move-
ment of the earth’s waters, known as the hydrologic cycle,
is shown schematically in Figure 1. Due to the complex-
ity of the hydrologic cycle, not all of the components can
be determined easily. A detailed discussion on the subject
is presented by the United Nations Educational, Scientific,
and Cultural Organization (UNESCO) (USSR National
Committee for the International Hydrological Decade,
1978).^ On a long-term average basis, the total freshwater
supply is to be considered constant. Therefore, the budget
equation for freshwater can be expressed as:[Total precipitation] [Evaporation] [Transpiration]Here, the freshwater is found in the atmosphere as water
vapor; on the land as water, dew, snow, and ice; and in the
ground usually in the form of water. Approximately 99.5%
of all the Earth’s water is in a form or location unavailable
for use (see Table 1), leaving only about 0.5% of the earth’s
water remaining for consumption. The largest source of avail-
able water is groundwater, which forms an important part of
the water supply for municipalities, agriculture, and industry.
For instance, in the United States, approximately 50% of the
total water usage is from groundwater, while over 90% of
the world’s potable water supply is derived from groundwa-
ter. Thus, groundwater is one of the most important natural
resources. Groundwater occurs in the saturated zone of water-
bearing soils. However, it may also be found in sedimentary
deposits, fissures in igneous rocks, limestone caverns, and
other water-bearing sources, which may lie near the sur-
face or hundreds of feet beneath the surface. The subject ofgroundwater is addressed by a variety of disciplines, including
hydrology, geology, and hydraulics.
In general, hydrologists and engineers are concerned with
the long-range yield from watersheds and aquifers. Yield is a
function of watershed storage capacity and the supply, which
fluctuates with time. Typical means of groundwater removal
are shown in Figure 2. It is of paramount importance to ensure
enough supply to last through drought periods. Currently,
accurate prediction of drought phenomena is difficult and
unavailable, as indicated by the National Research Council.
The subject is still an active research in water-resource engi-
neering. Because of the cost of well drilling, it is desirable to
have some assurance that the water-supply well will reach a
satisfactory aquifer. In order for the hydrologist or engineer
to obtain an appreciation of groundwater flow, he/she must
understand that the notion of “safe yield” in groundwater is
the quantity of groundwater that can be withdrawn without
impairing its quality.HISTORICAL NOTESA long time passed in the history of man before the concept
of the hydrologic cycle was established. Groundwater has
been used since ancient times. Plato wrote about rainfall,
runoff, and the infiltration of source water as the source for
springs. Aristotle recognized the hydrologic cycle, includ-
ing evaporation, condensation, streamflow, infiltration, and
the reappearance of groundwater as springs. Among the
early investigations of the hydrologic cycles and ground-
water flow, the contributions of Leonardo da Vinci, Bernard
Palissy, Claude Perrault, Edme Mariotte, Edmond Halley,
and La Metherie are of particular note.
In 1856, studying the movement of water through sand,
Henry Darcy developed the celebrated Darcy’s Law, that
is, the velocity of percolation as a function of permeability
and hydraulic gradient. Darcy’s Law provides the basis for
a quantitative method used in groundwater evaluation. Most
of the developments centered in this period on the problems
of well hydraulics and well-field design. A detailed account of
Darcy’s contributions and life history is presented in a recent
publication (Brown, Garbrecht, and Hager, 2003). During the
late nineteenth and twentieth centuries, Boussinesq, Dupuit,
Theim, Forchheimer, and many others laid an analytical
foundation for the subject. Their contributions encompassed
a large number of analytical solutions for which equationsC007_003_r03.indd 439C007_003_r03.indd 439 11/18/2005 10:28:22 AM11/18/2005 10:28:22 AM