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PHOTOGRAM METRIC ENGINEERING
has found it appropriate to plan loggings by studying aerial photographs. The
logging areas are marked and described by using Old Delft scanning stereo
scopes. This chart-room work is checked in the field. Korsnas AB is another big
forest company, that has resolved to use photographs instead of drawn forest
maps. Much attention is paid to the quality of the photographs as well as to ar
ranging the photographs for comfortable use in the field. In connection with ex
pensive uprooting of timber by unusually severe storms, aerial photographs have
been taken of the areas in question and their limits determined by means of inter
pretation. It has also been possible by these means to decide by which routes the
felled lumber should be transported. In this way great profit has been derived
from what otherwise would have been a more or less total loss.
In the United States, access and spur road locations are first determined
under the stereoscope or on topographic maps made by photogrammetric meth
ods. Photos are used by foresters as a guide in locating rock or gravel for road
construction. Photo interpretation is being relied upon to provide information
on stream conditions when water transport of logs is contemplated.
Aerial photos are commonly used to search out scattered patches of mer
chantable timber, or to determine the boundaries of an area needed in scattered
timber to include the desired sale volume. Residual stands are carefully studied
on aerial photos to establish the feasibility of a salvage or relogging chance.
Snag sales are sometimes based on photo counts. Numerous operators have their
newly logged areas photographed at the end of each logging season to provide
(1) a cutting record for inventory, (2) location of new roads, (3) condition of the
residual stand, and (4) extent of slash problem, and other pertinent informa
tion. Timber sale officers often use photos to make quick checks on the feasi
bility of volume estimates submitted by cruisers.
AERIAL PHOTOS LOCATE FOREST INSECT DAMAGE
In the United States two forest insect laboratories—one at Beltsville, Mary
land, and the other at Portland, Oregon-—have made extensive aerial photo
graphic and interpretation tests for the detection and appraisal of insect dam
aged timber. Because of the dynamic nature of insect populations, photography
must be restricted to sampling methods due to cost, and to films and filters
which record a discoloration of the normally green forests. Preliminary tests
were aimed at determining whether certain types of insect damage could be
detected on film; these tests indicate that infrared film is of no value, panchro
matic film with an A-25 filter can be used for certain kinds of damage, but that
color film produces the most accurate results when the interpretation is com
pared with ground study plots. Scales of the color photography varied from
1:1,200 for detecting weevilled white pine leaders, to 1:5,000 and 1:7,920 for
identifying insect killed pine and fir trees. If a reasonable degree of interpreta
tion accuracy can be determined for each type of insect damage, sampling
surveys will be designed so that appraisals of timber damage can be mide from
the color pictures. Any aerial method has the limitation of being able to detect
only faded trees; it does not account for surrounding infested trees which are
still green but dead. Only ground inspection will reveal this ratio.
PHOTO TECHNIQUES ARE VITAL TO FOREST FIRE CONTROL
Forest fire protection is an activity in which aerial photo interpretation is
playing a vital part. This is particularly true in the U. S. where there are vast
