• 환경영향평가
• /
• 제28권3호
• /
• pp.275-286
• /
• 2019

생물의 국지적 멸종을 방지하고 생물 다양성을 보전하기 위해서는 서식처 간 연결성을 확보하는 것이 중요하다. 서식처가 다양한 교란요인에 노출되더라도 다른 서식처와 연결되어 있으면 종이 교란에 회피하거나 대응하는 것이 가능하기 때문이다. 서식처 연결성은 다양한 관점에서 평가될 수 있으나 최근 컴퓨터 연산능력과 관련 소프트웨어의 발달로 인해 종의 움직임에 기초하는 기능적 연결성의 중요성이 강조되고 있다. 따라서 본 연구에서는 각종 개발사업으로 서식처 파편화가 발생하는 수원시를 대상으로, 종의 이동량을 연결되는 모든 격자에 맵핑할 수 있는 써킷스케이프(circuitscape)를 적용하여 연결성을 평가하였다. 또한, 이에 기초하여 종의 이동이 상대적으로 집중되는 지역을 수원시에서 우선 보전해야 할 생태축으로 제안하고, 2018년도 토지피복과 식생활력도(NDVI)와 비교함으로써 관리의 필요성을 제시하였다. 본 연구결과는 기존에 개념도의 형태로만 제공되었던 생태축 부문을 효과적으로 보완하고, 실제 개발사업 관리 및 도시계획에서의 실효성을 확보할 수 있을 것으로 기대한다.

• 한국환경복원기술학회지
• /
• 제25권1호
• /
• pp.25-38
• /
• 2022

Urban problems are constantly occurring around the world due to rapid industrialization and population decline. In particular, as the number of vacant houses is gradually increasing as the population decreases, it is necessary to prepare countermeasures. A plan to utilize vacant houses has emerged to restore the natural environment of the urban ecosystem where forest destruction, damage to habitats of wild animals and plants, and disconnection have occurred due to large-scale development. Through connectivity analysis, it is possible to understand the overall ecosystem flow based on the movement of species and predict the effect when vacant houses are converted into green spaces. Therefore, this study analyzed the green area network to confirm the possibility of greening of vacant houses neglected in Jeonju based on circuit theory. Using Circuitscape and Least-cost path, we tried to identify the connectivity of green areas and propose an ecological axis based on the analysis. In order to apply the resistance values required for analysis based on previous studies, the 2020 subdivision land cover data were integrated into the major classification evaluation items. When the eight forests in the target site were analyzed as the standard, the overall connectivity and connectivity between forests in the area were high, so it is judged that the existing green areas can perform various functions, such as species movement and provision of habitats. Based on the results of the connectivity analysis, the importance of vacant houses was calculated and the top 20 vacant houses were identified, and it was confirmed that the higher the ranking, the more positive the degree of landscape connectivity was when converted to green areas. In addition, it was confirmed that the results of analyzing the least-cost path based on the resistance values such as connectivity analysis and the existing conceptual map showed some differences when comparing the ecological axes in the form. As a result of checking the vacant houses corresponding to the relevant axis based on the width standards of the main and sub-green areas, a total of 30 vacant houses were included in the 200m width and 6 vacant houses in the 80m width. It is judged that the conversion of vacant houses to green space can contribute to biodiversity conservation as well as connectivity between habitats of species as it is coupled with improved green space connectivity. In addition, it is expected to help solve the problem of vacant houses in the future by showing the possibility of using vacant houses.