Abstract
Ecologicalcapabilityevaluation is referred to as evaluation of potential capability of land and determination of its natural land use. In this paper, ecological capability of Lille Basin in Lahijan was evaluated for afforestation and forest expansion using Geographical Information Systems (GIS). For this purpose, information layers (slope, elevation, geographical directions, temperature, rainfall, humidity, soil type, and canopy cover) were prepared by digitizing the data obtained from concerned organizations. First, the layers were prepared based on coordinate systems and pixel value. Then, they were standardized using fuzzy membership functions. The evaluation criteria were prioritized with regard to expert opinion, and by using multi-criteria evaluation method (MCE) and analysis of hierarchic process (AHP), and the final weight of each criterion was determined. The weight for 8 criteria including elevation, soil type, canopy cover (%), directions, slope, temperature, humidity, rainfall were 0.330, 0.210, 0.128, 0.117, 0.076, 0.054, 0.046 and 0.210, respectively. According to these weights, elevation has the highest value and the slope is the lowest. The results suggest that ecological capability exhibits sensitivity to variations of different criteria and its distribution is directly correlated to ecological factors especially climatic and physiographical ones. The incompatibility index (0.09) also indicated that the weights were logical. Then valuation of the maps performed. Finally, based on these values, capabilities of each environmental unit were identified and potentials of the area for afforestation were determined in five capability classes.
Highlights
Planning for forest regeneration and management is through decision-making processes with a hierarchic feature, which for quality of decisions on higher levels will affect those on the lower levels
The data was analyzed by multi-criteria evaluation (MCE) and applied to fuzzy maps which led to an appropriate map of forest expansion potential
When the slope of an area is not suitable, it results in limitations for afforestation operations including limited ability to work with different machineries, limited presence in the forested area, harsh climatic and environmental conditions and so on
Summary
Planning for forest regeneration and management is through decision-making processes with a hierarchic feature, which for quality of decisions on higher levels will affect those on the lower levels. These hierarchic levels can be temporal or spatial. Timing of this hierarchic structure is on three periods: long-term (strategic), middle term (tactical) and short-term (operational) (Pukkala 2002, Baskent and Keles 2005, Akinci et al 2013). Long term plans are compiled for a long period. This period can be up to 50 years. Like middle term, in long term planning details are not analyzed (Kangas and Kangas 2005)
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