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) |
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). |