| Abstract | Integrated conservation area management based on the multiple land use system,
integrating conservation principles in development activities in a participatory manner, is a new
and innovative approach under experimentation in the Annapurna Conservation Area of Nepal.
Despite it's ove1whelming support and success, the information component of the project is very
weak. Moreover, the spatial dimension associated with biophysical and socioeconomic processes
and pressures occurring in the conservation area are underestimated To ensure the
sustainability of the project, the spatial and non-spatial component of information science and
their interactions should not he neglected. Unfortunately very little data are available, available
data are outdated, scattered and are in different formats making it difficult to use for decision
making.
The integrated use of Conservation Information System (CIS), Remote Sensing {RS),
Geographic Information Systems (GIS) and GIS based Decision Support System (DSS) in the
past have not been demonstrated. The procedures developed so far are focussed on one or two
tools for a ve1y specific use only. The main objective of the present research is to advance a
methodology for informed decision making consisting of complex and interwoven conservation
problems utilizing the latest technologies of information science, remote sensing, GIS and DSS.
The present study suggests a unique methodology for an interactive and interconnected
approach of decision making. For this, a GIS based DSS has been proposed that can handle and
integrate spatial and non-spatial data, and pe1form spatial analysis, directed to formulate
conservation areas planning and management strategies.
During the study, existing management objectives were assessed, based on which
information need was identified Information need was categorized in two groups: one for
immediate use and the other for future use. Core datasets were converted into digital forms
generated from analogue maps, satellite imageries and field data. A variety of biophysical and
socioeconomic data were co-registered and inc01porated into a GIS based Conservation
Information System. Biodiversity data obtained from the field survey was also incorporated into
the system. Over 40 layers of thematic data were prepared, the primary objective of which was to
collect and automate existing information in a clearly defined management context that can be
used for informed decision making. By analyzing the developed comparative baseline and initial
information base, data gaps were identified.
A prototype Conservation Information System was developed using Simple Macro
Language (SML) of ARC/INFO. The system is capable of displaying, listing and querying of
spatial and attributes data. A hybrid approach of Relational Database Management System
(RDBMS) has been proposed
iii Strength, Weaknesses, Opportunities and Threats (SWOT) of Annapurna Conservation
Area Project (ACAP) and SWOT of implementing GISIRS based DSS in ACAP were outlined
Additionally, key stakeholders and their primmy interests and impacts on the successful
implementation of the project were assessed
The latest land use/land cover map of 1996 was prepared by interpreting Landsat 1M
data in the highly rugged terrain of Nepal Himalayas. Both digital and visual image-processing
techniques were deployed To minimize the inherent topographic effect of the satellite imageries,
a new technique for minimizing sunlit and mountain shadow visually, was devised and utilized
This will help collect training smnples representing different radiant values of each class.
Furthermore, Kershaw and Fuller's recommendation of stratifying the satellite imageries into
areas with different characteristics was tested. Stratification was per/ ormed based on the
elevation data. Training areas were selected with and without stratification. It was found that the
classification accuracy improves significantly with stratification compared to without
stratification.
Various GIS models and techniques were developed and tested to come up with a number
of management options using GIS and GIS based DSS. The models were created and tested in an
entirely new context of highly rugged terrain of Nepal Himalayas. Ecological Management
Decision Support (EMDS) and IDRIS/ for Windows were used as a decision support tool. Multi�criteria and multi-objective analysis was performed to solve conflicting natural resources
management problems. Species richness maps of various species were prepared from the data
obtained from the field invent01y. Biodiversity "Hot Spot" areas were identified by interpolating
sample data obtained from the field survey using the kriging scattered data interpolation
method
Based on the available data and information, and their analysis using GIS modeling, G/S
based DSS and quantitative and qualitative analysis, a number of conservation area planning
and management strategies were formulated Effort was placed to ensure that the decision are
made well, using the best information, methods and tools available. It was concluded that the
methodology developed could be used as an important state-of-the-art technology tool to support
decision making for effective conservation area planning and management endeavor. |