MAPPING THE ENVIRONMENTAL VULNERABILITY OF A LAGOON USING FUZZY
LOGIC AND AHP METHOD
Name: CLEBSON PAUTZ
Type: MSc dissertation
Publication date: 29/03/2023
Advisor:
Name | Role |
---|---|
ALEXANDRE ROSA DOS SANTOS | Advisor * |
Examining board:
Name | Role |
---|---|
JÉFERSON LUIZ FERRARI | External Examiner * |
ALEXANDRE ROSA DOS SANTOS | Advisor * |
Summary: subjected to natural or anthropogenic actions. The assessment of environmental vulnerability in lakes is an important tool to assist managers in planning and intervening for sustainable production and environmental preservation. The combination of geotechnologies, fuzzy logic
and the Analytic Hierarchy Process (AHP) has been applied by professionals and researchers to improve work and research in various areas and environments. In this context, the objective of this work was to map the environmental vulnerability of a lake and its surroundings through fuzzy logic and the AHP method. The study area comprises the Juparanã Lagoon
Drainage Surface (JLDS), Espírito Santo state, Brazil. A survey of the physical characteristics of the watershed (drainage surface) that feeds the Juparanã lagoon was carried out and also of the use and land cover of this surface. To achieve the proposed objectives, the following methodological steps were implemented: a) delimitation of watersheds, b) spatialization of Permanent Preservation Areas (APP) based on the Brazilian Forestry Code (Law nº
12,651/2012), c) application of logic fuzzy and AHP to spatialize the environmental vulnerability, and d) apply the evaluation of environmental vulnerability to the Preservation Areas (APP). Environmental vulnerability was modeled using Euclidean distance analysis, fuzzy logic and the AHP method, as proposed by Saaty (1977). For the development of the work, geotechnologies were used, with special emphasis on the use of the free software QGIS.
The analysis revealed that 31.20%, 32.86% and 20.93% of the JLDS have very high, high and medium vulnerability, respectively. The evaluation of environmental vulnerability of the APP showed that there is protection in the APP of the JLDS at rates of 47.35%, 34.05% and 14.5% for very high, high and medium vulnerability classes, respectively. The difficulties encountered were related to the lack of studies in the area of environmental vulnerability with a particular focus on lagoons. Here, for the first time, we perform a photointerpretation of the surroundings of Juparanã lagoon. An important improvement measure would be the application of a temporal analysis to assess the dynamics of environmental vulnerability over time, considering socioeconomic, climatic, and environmental changes. This would provide a
more complete understanding of the distribution of environmental vulnerability in the study area. The methodology can be adapted to consider different scales of analysis, from local to regional, national and global scales, to assess environmental vulnerability at various levels of scope and complexity. It can also be adapted to include local communities and governments.
Keywords: geotechnologies; permanent preservation area; hydrographic basin; membership function; lake environments; mass of water