and non-standardized within and among the states involved
in the programs. A new survey technique which could
provide timely, accurate and standardized assessments at a
reasonable cost was needed. In the mid-1970's, researchers
began to look at Landsat multispectral scanner (MSS) data
as a potential survey medium for monitoring widespread
forest disturbances such as that caused by insect
infestations. The spectral, spatial, temporal and synoptic
coverage that Landsat could provide in a standardized
format seemed to make it an ideal survey medium. Scientists
at the National Aeronautics and Space Administration's
(NASA) Goddard Space Flight Center (GSFC) in Greenbelt,
Maryland were among the early participants in this area of
research. In 1979, a Joint Research Project (JRP) was
initiated between NASA/GSFC and the Pennsylvania Bureau of
Forestry/Division of Forest Pest Management (BOF/DFPM).
The JRP was designed to demonstrate the usefulness of
satellite remotely sensed data for monitoring insect
defoliation of hardwood forests in Pennsylvania.
The assessment of forest insect defoliation over an area
as extensive as Pennsylvania required the processing and
storage of large volumes of satellite and ancillary data.
Therefore, a major effort within the project involved the
development of a map-registered, statewide Landsat digital
data base for Pennsylvania. The data base needed to be
interfaced with image analysis software by means of a data
management front-end system, so that an automated
assessment of defoliation damage could be conducted within
user-specified geographic areas. A complete description
of the data base which was developed will be given in this
paper, as well as a brief discussion of the data management
front-end system. Turner and Baumer (1982) provide a more
complete discussion of the data management system.
BACKGROUND
The Gypsy Moth
The gypsy moth larvae defoliate large tracts of hardwood
forest in the Northeast, feeding on oak, alder, apple,
basswood, willow, and birch foliage. Excessive population
pressures can expand the caterpillars' diet to include
coniferous species, such as hemlock, cedar, pine, and
spruce, as the insect reaches maturity in late June and
early July. The insects overwinter as eggs and emerge in
late April or May. Feeding begins immediately; each
successive instar devours larger quantities of leaves.
The effects of their voracious appetites become noticeable
in early June. By the end of June, two months after
hatching, the larvae are over two inches long and are
easily identified by the five pairs of blue spots and six
pairs of red spots arranged in two rows along the back.
These larvae consume massive amounts of vegetation, and
defoliation reaches its peak by early July. The cater
pillars then pupate, and in ten days emerge as moths. The
gravid females, unable to fly, produce pheremones to attract
their mates. The females lay from 200 to 800 eggs in a
single mass on any convenient surface.
