Abstract
In contrast to other fields, environmental protection (e.g., habitat protection) often fails to include quantitative evaluation as part of the existing environmental impact assessment (EIA) process, and therefore the EIA is often a poor forecasting tool, which makes selecting a reasonable plan of action difficult. In this study, we used the Habitat Evaluation Procedure (HEP) to quantify the long-term effects of a road construction project on an ecosystem. The water deer (Hydropotes inermis) was selected as the species of study since it uses an optimum habitat; water deer habitat data were collected on vegetation cover, stream water density, geographic contour, land use class, and road networks. The Habitat Suitability Index (HSI) and Cumulative Habitat Unit (CHU) values for the water deer were estimated to investigate the major land cover classes, the national river systems, and vegetation cover. Results showed that the environmental impact in the road construction project area would result in a net ecological loss value of 1211 without installation of an eco-corridor, which reduced to 662 with an eco-corridor, providing a 55% increase in the net value after 50 years of the mitigation plan. Comparing the 13 proposed ecological mitigation corridors, the corridor that would result in the highest net increase (with an increase of 69.5), was corridor #4, which was regarded as the most appropriate corridor to properly connect water deer habitat. In sum, the study derived the net increase in quantitative values corresponding with different mitigation methods over time for a road construction project; this procedure can be effectively utilized in the future to select the location of ecological corridors while considering the costs of constructing them.
Highlights
An environmental impact assessment (EIA) is often required to predict and assess the adverse effects of development projects, including a large-scale construction project, on the environment prior to their execution
The current EIA framework provides a detailed assessment of the species of plants and animals and their distribution, and incorporates the concept of “Green Degree Naturality” and “Dominance and Sociability”, but lacks a comprehensive quantitative model to adequately protect the environment in the areas of development [1,2]
This study showed that eco-corridor #4 can have a maximum net increase of 69.5 in terms of Cumulative Habitat Unit (CHU) value, indicating the most effective point to build the eco-corridor based on considerations of the CHU
Summary
An environmental impact assessment (EIA) is often required to predict and assess the adverse effects of development projects, including a large-scale construction project, on the environment prior to their execution. In most cases in which an impact assessment is being carried out, typically the results are not accurate enough to predict impacts and ways to mitigate them. It has been shown that the current EIA system in Korea is limited in its ability to accurately estimate impacts on the natural environment and mitigation measures to reduce these impacts [1]. The current EIA framework provides a detailed assessment of the species of plants and animals and their distribution, and incorporates the concept of “Green Degree Naturality” and “Dominance and Sociability”, but lacks a comprehensive quantitative model to adequately protect the environment in the areas of development [1,2]. Unlike some pollution measures that comprise a current EIA, the scope of measures for ecosystem protection are most likely to be determined by the developers themselves, making it. Public Health 2019, 16, 1437; doi:10.3390/ijerph16081437 www.mdpi.com/journal/ijerph
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