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http://dx.doi.org/10.13087/kosert.2020.23.4.47

Evaluating Village-based Resources for Conserving Nakdong-Jeongmaek  

Kim, Tae-Su (Dept. of Life Sciences, College of Natural Science, Yeungnam University)
Hwang, Shin-Hee (Dept. of Smart Management for Urban & Region, Daegu Gyeongbuk Development Institute)
Cho, Ki Hwan (Dept. of Life Sciences, College of Natural Science, Yeungnam University)
Kim, Su-Jin (Forest Restoration Division, Forest conservation department, National Institute of Forest science)
Jang, Gab-Sue (Dept. of Life Sciences, College of Natural Science, Yeungnam University)
Publication Information
Journal of the Korean Society of Environmental Restoration Technology / v.23, no.4, 2020 , pp. 47-58 More about this Journal
Abstract
This study was done to evaluate resources distributed around the Nakdong-Jeongmaek which is the eastern ridge line of the Nakdong-river basin with 437km in length. Here we found and/or searched for thousands of resources within each of 210 villages around the ridge, which were divided into six categories including landscape, natural park, protected area, history, tourism and biodiversity. An inventory was also created using an attribute table in a shape file for identifying the spatial location and property for every resource existing in each village. Each of fields for six-typed resources has 210 records representing each village and resources within it. If a resource exists in a village, '1' is assigned for its existence in its corresponding record. Otherwise, '0' is assigned for its non-existence in the record. The number of '1' on six records for a village is meaning the number of resources contained within a village, which can be a barometer to decide the properties of each village. In this study, we found five core villages containing all kind of resources in it, while 52 villages were found having only a single type of resources within it. The other villages were known to have multiple resources like having two or more ones.
Keywords
Resource Inventory; Village-based value; Mountain maganement; Binary-based Evaluation;
Citations & Related Records
Times Cited By KSCI : 4  (Citation Analysis)
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1 Park SG and Kang HM. 2016. Characteristics of Vegetation Structure in the Ridgeline Area of the Nakdong-Jeongmaek. Korean journal of Environment and Ecology. 30(3): 386-398. (in Korean with English summary)   DOI
2 Choi SH and Oh KK. 2003. Vegetaion Structure of Mountain Ridge from Jeongryeonchi to Bokseongijae in the Baekdudaegan. Korean journal of environment and ecology. 16(4): 421-432. (in Korean with English summary)
3 Jang GS. 2018. The management planning for characterization in Mountain Ranges(I). Research report to National Institute of Forest science. (in Korean)
4 Jang GS. 2019. The management planning for characterization in Mountain Ranges(II). Research report to National Institute of Forest science. (in Korean)
5 Jang RI and Jang GS. 2016. Evaluation Methodology using Eco-cultural Resources Distribution. Korean Journal of Nature Conservation. 10(2) : 133-139. (in Korean with English summary)   DOI
6 Jang GS. 2007. Establishment of a forest network in the western Geum River Basin using the nearest feature model. Journal of the Korean Institute of Landsape Architecture. 35(5): 56-63. (in Korean with English summary)
7 Jang GS.Jeon SW and Kim SS. 2008. Analyzing Characteristics of forest damage withi the Geum-buk Mountain range. Jounral of the Korean Institute of Landscape Architecture. 36(5): 55-63. (in Korean with English summary)
8 Jang RI and Lee MW. 2009. Technique for Evaluation of Ecological and Aesthetic Aspects of Landscapes through GIS Overlay Method. Journal of Korean institute of landscape architecture. 37(4) : 22-31. (in Korean with English summary)
9 Jang RI.Jang GS.Jung OS and Ra JH. 2009. A Method for Zoning the Parcel-based Protecting Area of the Ecological Network in Forest. Journal of the Korea Society of Environmental Restoration Technology. 12(6): 131-142. (in Korean with English summary)
10 Jeon SW.Chun JY.Seong HC.Song WK and Park JH. 2010. A Study on the Setting Criteria and Management Area for the National Ecological Network. Journal of the Korea Society of Environmental Restoration Technology. 13(5) : 154-171. (in Korean with English summary)
11 Kim GT and Choo GC. 2003. Vegetation Structure of Mountain Ridge from Nogodan to Goribong in Baekdudaegan, Korea. Korean journal of environment and ecology. 16(4): 441-448. (in Korean with English summary)
12 Kim YP. 2004. Restructuring mountain systems in Korean peninsula: Focusing on mountain range analysis. Korea research institute for human settlements. (in Korean)
13 Lee SD and Lee SJ. 2011. Analysing Vegetation Structure of Aemirang Hill in the Nakdongjeongmaek, Korea. Journal of Korean Society of Rural Planning. 17(3): 15-25. (in Korean with English summary)   DOI
14 Korea Forest Service. 1997. Research on the forest conditions and sufficient conservation measures for the Baekdu-daegan. Journal of the Korean Geographical Society. 263-271. (in Korean)
15 Korea Research Institute for Human Settlements and Green Korea United. 1999. Symposium for conceptual restoration and management direction search of Baekdu-daegan. 113. (in Korean)
16 Lee DK.Song WK.Jeon SW.Sung HC and Son DY. 2007. Deforestation Patterns Analysis of the Baekdudaegan Mountain Range. Journal of the Korea Society of Environment Restoration Technology. 10(4): 41-53. (in Korean with English summary)
17 Ministry of Environment. 2007. A Study for the National Ecological Network, Ministry of Environment, Sejong. (in Korean)
18 National Institute of Ecology. 2019. Guideline for Biotope Map. NIE, Seocheon. (in Korean)
19 Noh SH. 2016. Region Activation through the Utilization of the Regional Cultural Resources-The Case of Chollanamdo Yi Sun-sin Cultural Resources. The Study of Regional Development. 48(1): 71-93. (in Korean with English summary)
20 Oh JH.Kim YK and Kwon JO. 2007. An Analysis of Landcover Change and Temporal Landscape Structure in the Main Ridge Area of the Baekdu Daegan Mountain System. Journal of the Korean Association of Geographic Information Studies. 10(3): 49-57. (in Korean with English summary)
21 Song WK.Kim EY.Jeon SW.Park SH and Lee J. 2012. Improvement of the Criteria on Naturalness of the Environmental Conservation Value Assessment Map(ECVAM). Journal of the Korea Society of Environmental Restoration Technology. 15(2): 31-40. (in Korean with English summary)   DOI
22 Oh KK and Park SG. 2002. Vegetaion Structure of Mountain Ridge from Pijae to Doraegijae in the Baekdudaegan, Korea. Korean journal of environment and ecology. 15(4): 330-343. (in Korean with English summary)
23 Korea Environment Institute. 2020. Conservation Value Assessment Map(ECVAM) https://ecvam.kei.re.kr
24 Pena SB.Abreu MM.Teles R and Espirito-Santo MD. 2010. A methodology for creating greenways through multidisciplinary sustainable landscape planning. Journal of Environmental Management. 91(4): 970-983.   DOI
25 Shin JH. 2004. Management Area and Management Strategy of Baekdudaegan. Korean journal of Society of Environment and Ecology. 18(2): 197-204. (in Korean with English summary)
26 Shin JH. 2010. A Study on the Nautral Park Plan through Ecological Conservation Value Evaluation-A Case Study on Mt.Hwangmaesan(Mt.) County Park-. Journal of Environmental Health Scientces. 13(5): 28-37. (in Korean with English summary)
27 You JH.Kim DP and Oh HK. 2017. Vascular Plants Distributed in the Nakdong-Jeongmaek Mountains-Focused on Mt. Baekbyeong, Mt. Chilbo, Mt. Baekam, Mt. Unju, Mt. Goheon and Mt. Gudeok. Journal of the Korea Society of Environmental Restoration Technology. 20(5): 15-41. (in Korean with English summary)   DOI
28 Environmental Spatial Information Service. 2020. 4. https://egis.me.go.kr