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SYMPOSIUM PHOTO INTERPRETATION, DELFT 1962
Classification of land forms
A most important unit of mapping in airphoto interpretation studies for
engineering purposes is the land form. The land form may be defined as the
repetitive expression of the topography of the earth’s surface, including relief
and slope, that reflects the geomorphic processes involved in its development
as well as the parent material type of which it is composed. The land form is
important in that it is a control in the location of engineering projects.
The concepts and terminology of land forms are adapted from geomorphic
literature. The land form types associated with the consolidated rocks of vari
ous origins are shown in table 1. They are arranged in columns according to
origin as Plutonic, Volcanic, Tectonic, or Remnantal (erosional form). They
are arranged into groups according to first order topographic forms. These
first order forms have the following limiting conditions:
a. mountain - single summits or linear summits greater than 1000 feet of local
relief.
b. hill - single summits less than 1000 feet of local relief.
c. ridges — linear summits less than 1000 feet of local relief.
d. plateau - constant summit levels with local relief greater than 500 feet,
bordered by an escarpment on at least one side and contains bedding planes
in essentially a horizontal attitude.
e. plain - constant summit levels with local relief less than 500 feet and contains
bedding planes in essentially a horizontal attitude.
f. valley - linear depressed feature with a surface drainage outlet.
g. basin - curvilinear depressed feature without a surface drainage outlet.
The land forms associated with drift materials are tabulated in table 2. They
are arranged according to environment of origin and first order topographic
forms. The land forms listed need no special comment here.
The engineer must obtain background knowledge on all of the land form
types listed from a formal course in geomorphology or by extensive reading in
geomorphic literature. The airphoto pattern of each of these land form types
can be described for various climatic environments. The airphoto interpreta
tion element for detailed development is surface form, to include all elements of
topography, drainage plan, and erosional shape. Tone and texture elements play
only a secondary role, usually to assist in evaluating the climatic environment.
Classification of parent materials
The classification of parent materials for purposes of airphoto interpretation
in engineering studies is very important. It is probably the one item that is
least understood, because of lack of background. Too frequently, in airphoto
interpretation studies by engineers, parent material terms are used in lieu of
land form terms; or more frequently, land form terms are used in place of
parent material terms. Engineers must understand these terms and use them
properly as they generally control design.
