Browse > Article
http://dx.doi.org/10.7780/kjrs.2017.33.5.3.10

Spatial Analysis of Oak Wilt Disease in Bukhansan Mountain Park Using Spatial Data of Damaged Trees  

Zhu, Yongyan (Department of Environmental Science and Ecological Engineering, Korea University)
Piao, Dongfan (Department of Environmental Science and Ecological Engineering, Korea University)
Lee, Woo-kyun (Department of Environmental Science and Ecological Engineering, Korea University)
Jeon, Seong-Woo (Department of Environmental Science and Ecological Engineering, Korea University)
Publication Information
Korean Journal of Remote Sensing / v.33, no.5_3, 2017 , pp. 879-888 More about this Journal
Abstract
This study is a preliminary research conducted in Buhansan mountain National Park to develop a management system to predict and control oak wilt disease by indicating spatial factors which affect diffusion of the disease. After analysing altitude factor during the estimation of spatial analysis of damaged area, it is indicated that damaged trees are mainly distributed at altitude of 200-500 m and number decreased drastically over the altitude of 500 m. The result showed that 92% of total damaged trees are on slope between 20~40 degrees and the number decreased drastically on slope steeper than 40 degrees. It is indicated that damaged area is mainly distributed on southern aspect. It is estimated by using CART that slope factor affected the diffusion of disease mostly but aspect factor did not. Surface temperature and altitude showed similar effect.By simulating possible diffusion scenario, it is estimated that the disease could spread to DO-BONG Mt., northeast of Bukhansan mountain.
Keywords
oak wilt disease; spatial statistics; distribution pattern; diffusion type;
Citations & Related Records
Times Cited By KSCI : 9  (Citation Analysis)
연도 인용수 순위
1 Yeum, J.H., B. H. Han, J. W. Choi, and H. E. Jeong, 2013. Mapping of the damaged forest by oak wilt disease in Bukhansan National Park, Korean Journal of Environment, 27(6): 704-717 (in Korean with English abstract).   DOI
2 Yeum, J. H., B. H. Han, J. W. Choi, and H. U. Jeong, 2013. Mapping of the Damaged Forest by Oak Wilt Disease in Bukhansan National Park, Korean Journal of Environment and Ecology, 27(6): 704-717 (in Korean with English abstract).
3 Aase, J. K., J.P. Millard, and B.S. Brown, 1986. Spectral radiance estimates of leaf-area and leaf phytomass of small grains and native vegetation, IEEE Transactions Geoscience and Remote Sensing, 24: 685-692.
4 Ahn, H. H., 2008. Studies on forest community structure and correlation with environmental fator - case of outbreak area of oak wilt disease. : In the case of Seoul City, Sangji University, Korea.
5 Choi, W. I., J. S. Lee, G. S. Choi, and S. C. Sin, 2008. Tree Trunk Level Distribution of Entry Hole by Platypus Koryoensis(Coleoptera: Platypodidae) and Its Implication to Tree Damage, Korean Society of Applied Entomology, 47(2): 127-131 (in Korean with English abstract).   DOI
6 Dietterich, T.G., 1998. Approximate statistical tests for comparing supervised classification learning algorithms, Neural Computation, 10(7): 1895-1923.   DOI
7 Goreaud, F. and R. Pelissier, 1999. On explicit formulas of edge effect correction for Ripley's K-function, Journal of Vegetation Science, 10: 433-438.   DOI
8 Eckardt, F. E., L. Heerfordt, H. M. Jorgensen, and P. Vaag, 1982. Photosynthetic production in greenland as related to climate, Plant cover and Grazing pressure, International Journal For Photosyntheis Research, 16(1): 71-100.
9 Ekstrand, S., 1996. Landsat TM-based forest damage assessment: correction for topographic effects, Photogrammetric Engineering and Remote Sensing, 62(2): 151-161.
10 Gamon, J. A., J. Penuelas, and C. B. Field, 1992. A narrow-waveband spectral index that tracks diurnal changes in photosynthetic efficiency, Remote Sensing of Environment, 41(3): 35-44.   DOI
11 Han, B.H., J. H. Choi, J. H. Yeum, and K. J. Lee, 2014. Characteristics of Vegetation Structure of Managed Area by Oak Wilt Disease in Bukhansan National Park, Korean Journal of Environment and Ecology, 23(3): 342-356 (in Korean with English abstract).
12 Hong, K. J., Y. D. Kwon, S.W. Park, and D. P. Lyu, 2006. Platypus koryoensis (Murayama) (Platypodidae; Coleoptera), the Vetor of Oak Wilt Disease, Korean Journal of Aplied Entomology, 45(2): 113-117.
13 Kelly, M., 2002. Landscape dynamics of the spread of sudden oak death, Photogrametric Engineering & Remote Sensing, 68(10): 1001-1009.
14 Kelly, M., 2003. Terrain modeling and visualization to understand spatial pattern and spread of sudden oak death in California, Proc. of the ASPRS Terrain Data Conference, Charleston, South Carolina, Oct. 24-29, pp. 13-24.
15 KIM, S. W., J. H. Jung, K., Lamsal, Y. S. Kim, S. J. KIM, H. S. Kim, S. J. Chang, J. K. Kim, K. S. Kim, and Y. S. Lee, 2011. Control efficacy of nano-sliver liquid on oak wilt caused by raffaelea sp.in the Field, Korean Society of Plant Pathology, 17(2): 136-141 (in Korean with English abstract).
16 Rouse, J. W., R. H. Haas, J. A. Schell, and D. W. Deering, 1973. Monitoring vegetation systems in the Great Plains with ERTS, Proc. of the Third ERTS Symposium, Washington DC, NASA SP-351, vol. 1, pp. 309-317.
17 Kim, S.W., J. H. Jung, Y.S. Lamsal, S.J. Kim, H.S. Sim, S.J. Kim, J.K. Jang, K.S. Kim, and Y.S. Lee, 2011. Control efficacy of nano-silver liquid on oak wilt caused bu Raffaelea sp. in the field, Research in Plant Disease, 17(2): 136-141 (in Korean with English abstract).   DOI
18 Kleman, J. and E. Fagerlund, 1987. Influence of different nitrogen and irrigation treatments on the spectral reflectance of barley, Remote Sensing of Environment, 21: 1-14.   DOI
19 Park B.Y, K.Y. Oh, J.H Lee, J.H. Yoon, S.K. Lee, and M.J. Lee, 2017. A Study on Environmental research Trends by Information and Communications Technologies using Text-mining Technology, Korean Journal of Remote Sensing, 33(2): 189-199 (in Korean with English abstract).   DOI
20 Shin D.Y, J.H. Han, Y.J. Jin, J.Y. Park, and H.H. Jeong, 2016. Availability Evaluation For Generation Orthoimage Using Photogrammetric UAV System, Korean Journal of Remote Sensing, 32(3): 275-285 (in Korean with English abstract).   DOI
21 Son, M.H., W. K. Lee, S. H. Lee, H. K. Cho, and J. K. Lee, 2006. Natural spread Pattern of damaged area by pine wilt disease using geostatistical Analysis, Journal of Korean Forestry Society, 95(3): 240-249 (in Korean with English abstract).
22 Suh, D. Y., S. Y. Son, S. H. Kim, S. T. Seo, K. H. Kim, and H. K. Ko, 2012. Investigation of Fungi in Pesticide Fumigated Oak Wilt-Diseased Logs, Korean Journal of Mycology, 40(4): 288-291 (in Korean with English abstract).   DOI
23 Um, T.W., J. H. Chun, and K. H. Kim, 2009. Stand structure characteristics of oak wilt infected forest, Korea, Korean Journal of Environment and Ecology, 23(2): 220-232 (in Korean with English abstract).