466
SYMPOSIUM PHOTO INTERPRETATION, DELFT 1962
and textures are difficult to define in words because they are evaluated by
individuals with frequently varying sensory perception.
With reference to materials on the surface of ground devoid of vegetation,
the following general conditions prevail as to tone reproduction.
a. The finer the grain size, the lighter the tone due to the sum of reflectances
of all surfaces.
b. The higher the surface moisture content, the darker the tone, as water
absorbs light energy.
c. The darker the natural color of the material, the darker the tone.
The reader will readily recognize that these ideal conditions seldom, if ever,
are obtained. Thus, the interpreter should never use the principles alone; they
must be leavened with knowledge of other factors, i.e. climate, time, vege
tation, etc.
In any case, each photograph and the photographs of an area will exhibit
tones and textures that collectively and individually form elements for identi
fication and correlation. Varying land use types produce distinct tonal patterns.
Broad classes of vegetation are imaged on photographs in tonal and textural
ranges. Rocks produce different tones relative to drift materials, and a sand
texture will produce different tones than a clay texture or an organic condition
in the same parent material area.
The total airphoto pattern then is made up of individual elements of topo
graphy, drainage plan, erosional shape, tones and texture of land use, tones
and textures of vegetation, and tones of soil and parent material conditions.
Airphoto interpretation for engineering purposes has evolved around this
pattern concept. It has evolved by the process of identifying the pattern ele
ments in both a quantitative and qualitative sense for particular land forms,
parent materials, and engineer soil groups.
An analogy with photogrammetry is appropriate. In an underdeveloped coun
try or area where no ground control surveys exist, photogrammetric mapping
cannot take place until basic and supplemental ground control surveys are
performed. In a partially developed area where basic ground control exists, only
supplemental control need be surveyed on the ground. In highly developed
areas, using photogrammetric bridging, a small scale map can be compiled
without ground control except for geographic place names. Large scale maps
require finite control for each stereo model before photogrammetric compilation.
The analogy is that throughout most of the world basic control for photo
interpretation purposes exists in geologic literature and geographic literature.
Certain areas have supplemental control in the literature of soil science. Air
photo interpretation then is a technique of bridging in areas where small scale
engineering soil maps are required. Where large scale maps are required, individ
ual engineering soil profiles are required for control purposes; but these can then
be extrapolated to the larger area portrayed in a repetitious airphoto pattern.
The classifications of land forms, parent materials and engineering soil groups
should be uniform throughout all areas and all stages of mapping. The material
that follows is the classification that has been of greatest value in teaching and
