y
N.,O£.cCo6S8
N..0.0¢C o68
N.O£,ZL.68
Table 1. Pakri Peninsula Survey Parameters
Aerial Ground Aerial MSS Aerial
Radiation Radiation Photography
Coverage 90 sq. km 12 points 90 sq. km 90 sq. km
46 meters 1 meter 1000 meters 3000 meters
Altitude 152 meters 900 meters
90 meters
1000 meters
Line Spacing 76 meters 152 meters overlap
90 meters
Lines 162 38 5
Line Miles 1009 425 30
also collect data at much finer spatial resolution than that
available from current commercial satellites.
Once collected, these data are useful for providing detailed
environmental oversight for small and moderate sized areas.
Data acquisition can be customized to meet the
requirements of the application and spatial and temporal
characteristics of the site. The spectral capabilities of the
Daedalus multispectral scanner have proven effective for
detecting land surface features and anomalies important to
environmental restoration and monitoring (Richards, 1986).
Areas of interest include old waste disposal sites, historic
Vegetation damage from toxic materials, large area surface
disturbances, geohydrologic features such as seeps and
faults, and environmental effects of current operations.
4.3 Aerial Photography
The RSL photography laboratory has a complete inventory
of photographic equipment that supports the collection of
both airborne and ground-based photography. The systems
used during the Paldiski survey were both airborne and
ground-based. Vertical and oblique aerial photographs were
acquired using Hasselblad and Linhof Aerotechnika cameras,
respectively, and a Canon still video system. The ground-
based systems used were Nikon 35mm and Hasselblad
cameras, and Canon still video.
Aerial photography was acquired for two purposes. The first
Is for photographic interpretation. Aerial color photography
from a helicopter platform provides high spatial detail that is
extremely useful for site characterization. The combination of
high Spatial resolution and color make aerial photographs an
Integral part of the multisensor survey (McCreary, 1979). The
i aerial photography permits scientists to interpret
ydrology, land forms, vegetation pattern, and other
environmental conditions which are important factors in
comprehensive site characterization (Smith, 1968).
The second purpose for the aerial photography was to provide
base maps for radiological data. Vertical and oblique aerial
photographs were taken of the radiological survey area.
Current color aerial photographs were overlaid with
radiological contours. The integration of color photographs
with radiological data has proven to be an extremely valuable
environmental assessment and remediation tool.
Ground-based photographic systems were also used
extensively throughout the survey to document site conditions.
5. RESULTS
5.1 Radiation Survey
Aerial radiological surveys were conducted over an area
encompassing 90 km? including the Pakri Peninsula and
surrounding area. Ground-based measurements were taken
in background areas and areas where anomalous activity was
detected by aerial systems.
Isoradiation contour maps generated from the aerial data
were used to show the distribution of the gamma exposure
rate, annual dose, and count rates due to total terrestrial
activity. The typical exposure rate range for the area was 7 to
9 uR/h with a maximum value of 125 uR/h estimated for the
anomaly detected at the solid waste storage facility found on
the Paldiski Naval Reactor Training Site (Feimster, 1995).
Figure 2 illustrates the distribution of the man-made radiation
over the Pakri Peninsula. The gamma energy spectrum
311
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B7. Vienna 1996