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NTIS 바로가기한국환경생태학회지 = Korean journal of environment and ecology, v.38 no.3, 2024년, pp.277 - 292
이수동 (경상국립대학교 조경학과) , 박경식 (경상국립대학교 대학원 조경학과) , 오충현 (경상국립대학교 대학원 도시시스템 공학과) , 조봉교 (경상국립대학교 대학원 도시시스템 공학과) , 유병혁 (국립공원공단 사회가치혁신실)
In order to manage large-scale forest fires concentrated in Gangwon-do and Gyeongsangbuk-do with severe topographical heterogeneity, a decision-making process through efficient and rapid damage assessment using satellite images is essential. Accordingly, this study targets a large-scale forest fire ...
Abram, N.J., J.B. Henley, A.S. Gupta, T.J.R. Lippmann, H. Clarke,?A.J. Dowdy, J.J. Sharples, R.H. Nolan, T. Zhang, M.J. Wooster,?J.B. Wurtzel, K.J. Meissner, A.J. Pitman, A.M. Ukkola, B.P.?Murphy, N.J. Tapper and M.M. Boer(2021) Connections of?climate change and variability to large and extreme forest fires?in southeast Australia. Commun Earth Environ 2: 8. https://doi.org/10.1038/s43247-020-00065-8
Afina, F.S., L. Syaufina and I. Sukaesih(2021) Sitanggang Forest and peatland?fire severity assessment at Siak Regency, Riau Province using?Sentinel-2 Imagery. Journal of Natural Resources and Environmental?Management 11(4): 621-630. http://dx.doi.org/10.29244/jpsl.11.4.621-630
Bistinas, I., S.P. Harrison, I.C. Prentice and J.M.C. Pereira(2014)?Causal relationships versus emergent patterns in the global?controls of fire frequency. Biogeosciences 11(3): 5087-5101. DOI:10.5194/bg-11-5087-2014
Boby, L.A., E.A.G. Schuur, M.C. Mack, D. Verbyla and J.F.?Johnstone(2010) Quantifying fire severity, carbon, and nitrogen emissions in Alaska's boreal forest. Ecological?Applications 20(6): 1633-1647.
Bright, B.C., A.T. Hudak, R.E. Kennedy, J.D. Braaten and A.?Henareh Khalyani(2019) Examining post-fire vegetation?recovery with Landsat time series analysis in three western?North American forest types. Fire Ecology 15(1): 1-14. DOI:10.1186/s42408-018-0021-9
Chung, M.K. and Y. Kim(2020) Analysis on topographic?normalization methods for 2019 Gangneung-east sea wildfire?area using planetscope imagery. Korean Journal of Remote?Sensing 36(2): 179-197.
Chung, M.K., Y.K. Han and Y. Kim(2020) A framework for?unsupervised wildfire damage assessment using VHR satellite?images with planetscope data. Remote Sensing 12(22): 3835. DOI:10.3390/rs12223835. (In Korean with English abstract)
Chuvieco, E., A. De Santis, D. Riano and K. Halligan(2007)?Simulation approaches for burn severity estimation using?remotely sensed images. Fire Ecology Special Issue 3(1): 129-150.
Chuvieco, E., I. Aguado, J. Salas, M. Garcia, M. Yebra and P.?Oliva(2020) Satellite remote sensing contributions to wildland?fire science and management. Current Forestry Reports 6: 81-96. DOI:10.1007/s40725-020-00116-5.
Cocke, A.E., P.Z. Fule and J.E. Crouse(2005) Comparison of burn?severity assessments using Differenced Normalized Burn?Ratio and ground data. International Journal of Wildland Fire 14(2):189-198. https://doi.org/10.1071/WF04010
Collins, L., G. McCarthy, A. Mellor, G. Newell and L. Smith(2020)?Training data requirements for fire severity mapping using?Landsat imagery and random forest. Remote Sens Environ 245: 111839 https://doi.org/10.1016/j.rse.2020.111839
Collins, L., P. Griffioen, G. Newell and A. Mellor(2018) The utility?of random forests for wildfire severity mapping. Remote Sens.?Environ 216: 374-384. https://doi.org/10.1016/j.rse.2018.07.005
Coop, J., T. DeLory, W. Downing, S. Haire, M. Krawchuk, C.?Miller, M. Parisien and R. Walker(2019) Contributions of fire?refugia to resilient ponderosa pine and dry mixed-conifer forest?landscapes. Ecosphere 10(7): e02809.
Curtis, P.G., C.M. Slay, N.L. Harris, A. Tyukavina and M.C.?Hansen(2018) Classifying drivers of global forest loss. Science 361: 1108-1111. 10.1126/science.aau3445.
Dixon, D.J., J.N. Callow, J.M.A. Duncan, S.A. Setterfield and N.?Pauli(2022) Regional-scale fire severity mapping of?Eucalyptus forests with the Landsat archive. Remote Sensing?of Environment 270: 112863 https://doi.org/10.1016/j.rse.2021.112863
Doerr, S.H. and C. Santin(2016) Global trends in wildfire and its?impacts: Perceptions versus realities in a changing world.?Philosophical Transactions of the Royal Society B: Biological?Sciences 371(1696): 20150345. http://dx.doi.org/10.1098/rstb.2015.0345
Doerr, S.H., R.A. Shakesby, W.H. Blake, C.J. Chafer, G.S.?Humphreys and P.J. Wallbrink(2006) Effects of differing?wildfire severities on soil wettability and implications for?hydrological response. Journal of Hydrology 319(1-4): 295-311. doi:10.1016/j.jhydrol.2005.06.038
Driscoll, D.A., D.B. Lindenmayer, A.F. Bennett, M. Bode, R.A.?Bradstock, G.J. Cary, M.F. Clarke, N. Dexter, R. Frensham, G.?Friend, M. Gill, S. James, G. Kay, D.A. Keith, C. MacGregor,?J. Russell-Smith, D. Salt, J.E.M. Watson, R.J. Williams and A.?York(2010) Fire management for biodiversity conservation:?Key research questions and our capacity to answer them.?Biological Conservation 143: 1928-1939. https://doi.org/10.1016/j.biocon.2010.05.026
Eidenshink, J., B. Schwind, B., Brewer, Z.L. Zhu, B. Quayle and S.?Howard(2007) A project for monitoring trends in burn?severity. Fire Ecology 3: 3-21 https://doi.org/10.4996/fireecology.0301003
Forkel, M., N. Andela, S.P. Harrison, G. Lasslop, M. van Marle, E.?Chuvieco, W. Dorigo, M. Forrest, S. Hantson, A. Heil, F. Li, J.?Melton, S. Sitch, C. Yue and A. Arneth(2019) A: Emergent relationships?with respect to burned area in global satellite observations?and fire-enabled vegetation models. Biogeosciences 16: 57-76. https://doi.org/10.5194/bg-16-57-2019
Fujiki, T. and Y. Yasuda(2004) Vegetation history during the?Holocene from Lake Hyangho, northeastern Korea. Quaternary?International 123: 63-69.
Gao, B.C.(1996) NDWI - A normalized difference water index for?remote sensing of vegetation liquid water from space. Remote?Sensing of Environment 58: 257-266.
Ghermandi, L., A. Lanorte, F. Oddi and R. Lasaponara(2019)?Assessing fire severity in semiarid environments with the?dNBR and RDNBR Indices. Global Journal of Science Frontier?Research 19(1): 27-44.
Gibson, R., T. Danaher, W. Hehir and L. Collins(2020) A remote?sensing approach to mapping fire severity in south-eastern?Australia using sentinel 2 and random forest. Remote Sens.?Environ 240:111702.
Giglio, L. and D.P. Roy(2020) On the outstanding need for a?long-term, multi-decadal, validated and quality assessed record?of global burned area: Caution in the use of Advanced Very?High Resolution Radiometer data. Science of Remote Sensing 2(11): 100007.
Glenn, E.P., A.R. Huete, P.L. Nagler and S.G. Nelson(2008) Relationship between remotely-sensed vegetation indices, canopy?attributes and plant physiological processes: Whatvegetation?indices can and cannot tell us about the landscape. Sensors 8: 2136-2160.
Hall, M.L., P. Samaniego, J.L. Le Pennec and J.B. Johnson(2008)?Ecuadorian Andes volcanism: A review of Late Pliocene to?present activity. Journal of Volcanology and Geothermal?Research 176(1): 1-6 https://doi.org/10.1016/j.jvolgeores.2008.06.012.
Han, D., X. Di, G. Yang, L. Sun and Y. Weng(2021) Quantifying?fire severity: A brief review and recommendations for?improvement. Ecosystem Health and Sustainability 7: 1. DOI: 10.1080/20964129.2021.1973346
Han, S.S.(2000) Forest fire and forest ecosystems restoration.?Journal of Forest and Environmental Science 16: 175-193. (In Korean with English abstract)
Hawbaker, T.J., M.K. Vanderhoof, Y.J. Beal, J.D. Takacs, G.L.?Schmidt, J.T. Falgout, B. Williams, N. M. Fairaux, M.K.?Caldwell, J.J. Picotte, S.M. Howard, S. Stitt and J.L.?Dwyer(2017) Mapping burned areas using dense time-series of?Landsat data. Remote Sensing of Environment 198: 504-522. https://doi.org/10.1016/j.rse.2017.06.027
Heward, H., A.M.S., Smith, D.P., Roy, W.T., Tinkham, C.M.,?Hoffman, P., Morgan and K.O. Lannom(2013) Is burn severity?related to fire intensity? Observations from landscape scale?remote sensing. Int. J. Wildland Fire 22: 910-918. https://doi.org/10.1071/WF12087
Huang, D., Y. Tang and R. Qin(2022) An evaluation of PlanetScope?images for 3D reconstruction and change detection-experimental validations with case studies. GIScience and?Remote Sensing 59(1): 744-761. DOI: 10.1080/15481603.2022.2060595
Jakubauskas, M.E., K.P. Lulla and P.W. Mausel(1990) Assessment?of vegetation change in a fire-altered forest landscape.?Photogrammetric Engineering and Remote Sensing 56(3): 371-377.
Jee, M.J., J.A. Tyson, S. Hilbert, M.D. Schneider, S. Schmidt and D.?Wittman(2015) Cosmic shear results from the deep lens survey?- II: full cosmological parameter constraints from tomography.?The Astrophysical Journal 824(2): 77. DOI: 10.3847/0004-637X/824/2/77
Jones, M.W., J.T. Abatzoglou, S. Veraverbeke, N. Andela, G.?Lasslop and M. Forkel(2022) Global and regional trends and?drivers of fire under climate change. Reviews of Geophysics 60(3): e2020RG000726.
Keeley, J.E.(2009) Fire intensity, fire severity and burn severity: A?brief review and suggested usage. International Journal of?Wildland Fire 18: 116-126. DOI: 10.1071/WF07049
Kelley, D.I., I. Bistinas, R. Whitley, C. Burton, T.R. Marthews and?N. Dong(2019) How contemporary bioclimatic and human?controls change global fire regimes. Nature Climate Change 9(9): 690-696. https://doi.org/10.1038/s41558-019-0540-7.
Key, C.H. and N.C. Benson(2006) Landscape Assessment (LA).?FIREMON: Fire effects monitoring and inventory system.?Gen.Tech. Rep. RMRS-GTR-164-CD. Fort Collins, CO:US?Department of Agriculture, Forest Service, Rocky Mountain?Research Station, LA-1-55.
Kim, J.S. and J.S. Oh(2021) Recoverability analysis of forest fire?area based on satellite imagery: Applications to DMZ in the?Western Imjin stuary. Journal of the Korean Geomorphological?Association 28(1): 83-99. (In Korean with English abstract)
Kolden, C.A. and J. Rogan(2013) Mapping wildfire burn severity in?the arctic tundra from downsampled MODIS data. Arctic,?Antarctic, and Alpine Research 45(1): 64-76.
Korea Forest Service(2016) 2015 Forest fire statistics yearbook,?Daejeon, Korea. (in Korean).
Korea Forest Service(2019) 2018 Forest fire statistics yearbook,?Daejeon, Korea. (in Korean).
Korea Forest Service(2022) 2021 Forest fire statistics yearbook,?Daejeon, Korea. (in Korean).
Laurent, P., F. Mouillot, M.V. Moreno, C. Yue and P. Ciais(2019)?Varying relationships between fire radiative power and fire size?at a global scale. Biogeosciences 16: 275-288. DOI:10.5194/bg-16-275-2019.
Lee, B.D, J.E. Song, M.B. Lee and J.S. Chung(2008b) The?relationship between characteristics of forest fires and spatial?patterns of forest types by the ecoregions of South Korea.?Journal of Korean Society of Forest Science 97(1): 1-9. (In Korean with English abstract)
Lee, B.D., M.S. Won, K.M. Jang and M.B. Lee(2008a) Analysis of?the relationship between landform and forest fire severity.?Journal of the Korean Association of Geographic Information?Studies 38(11): 58-67. (In Korean with English abstract)
Lee, H.P., S.Y. Lee and Y.J. Park(2009) Combustion characteristics?of the 5 herb species in Youngdong areas. Journal of Korean?Society of Forest Science 98(3): 290-296. (In Korean with English abstract)
Lee, M.W., S. Y. Lee and J.H. Lee(2012) Study of the characteristics?of forest fire based on statistics of forest fire in Korea. Journal?of the Korean Society of Hazard Mitigation 12(5): 185-192 (In Korean with English abstract)
Lee, S.Y. and J.E. Kim(2011) A study on meteorological elements?effecting on large-scale forest fire during spring time in?Gangwon Young-dong Region. Koeran society of hazard?mitigation 11(1) : 37-43. (In Korean with English abstract)
Lentile, L.B., Z.A. Holden, A.M.S. Smith, M.J. Falkowski, A.T.?Hudak, P. Morgan, S.A. Lewis, P.E. Gessler and N.C.?Benson(2006) Remote sensing techniques to assess active fire?characteristics and post-fire effects. International Journal of Wildland Fire 15: 319-345.
Lisa, M., S.A. Holsinger, L.B. Parks, R.A. Saperstein, E. Loehman,?J. Whitman, Barnes and M.A. Parisien(2021) Improved fire?severity mapping in the North American boreal forest using a?hybrid composite method. Remote Sensing in Ecology and?Conservation 8(2): 222-235. DOI: 10.1002/rse2.238
Liu, S., L. Zhang and Y. Long(2019) Urban vitality area?identification and pattern analysis from the perspective of time?and space fusion. Sustainability 11(15): 4032.
Malamud, B.D., G. Morein and D.L. Turcotte(1998) Forest fires:?An example of self-organized criticality. Science 281: 1840-1842.
Morresi, D., R. Marzano, E. Lingua, R. Motta and M.?Garbarino(2022) Mapping burn severity in the western Italian?Alps through phenologically coherent reflectance composites?derived from Sentinel-2 imagery. Remote Sensing of?Environment 269: 112800. https://doi.org/10.1016/j.rse.2021.112800
Mouillot, F. and C.B. Field(2005) Fire history and the global carbon?budget: A 1° × 1° fire history reconstruction for the 20th?century. Glob. Chang. Biol 11: 398-420. doi:10.1111/j.1365-2486.2005.00920.x.
Newcomer, M., D. Delgado, C. Gantenbein, T. Wang, B.?Schiffman, S. Prichard, C. Schmidt and J.W. Skiles(2009) Burn?severity assessment in the Okanogan-Wenatchee forest using?NASA satellite missions. ASPRS Annual Conference.
Pausas, J.G. and E. Ribeiro(2013) Fire and productivity. Global?Ecology and Biogeography 22: 728-736. https://doi.org/10.1111/geb.12043.
Ramo, R., E. Roteta, I. Bistinas, D. van Wees, A. Bastarrika, E.?Chuvieco and G.R. Van der Werf(2021) African burned area?and fire carbon emissions are strongly impacted by small fires?undetected by coarse resolution satellite data. Proceedings of?the National Academy of Sciences 118(9): 1-17.
Ratz, A.(1995) Long-term spatial patterns created by fire: A model?oriented towards boreal forests. International Journal of?Wildland Fire 5: 25-34.
Raut, S., K.R. Rijal, S. Khatiwada, S. Karna, R. Khanal, J. Adhikari?and B. Adhikari(2020) Trend and characteristics of Acinetobacter?baumannii infections in patients attending Universal College?of Medical Sciences, Bhairahawa, Western Nepal: A?Longitudinal Study of 2018. Infect Drug Resist 8(13): 1631-1641. doi: 10.2147/IDR.S257851
Roteta, E., A. Bastarrika, M. Franquesa and E. Chuvieco(2021)?Landsat and Sentinel-2 based burned area mapping tools in?Google Earth Engine. Remote Sensing 13(4): 816. https://doi.org/10.3390/rs13040816
Roteta, E., A. Bastarrika, M. Padilla, T. Storm and E. Chuvieco?(2019) Development of a Sentinel-2 burned area algorithm:?Generation of a small fire database for sub-Saharan Africa.?Remote Sensing of Environment 222: 1-17. DOI: 10.1016/j.rse.2018.12.011.
Roy, D. P., H. Huang, L. Boschetti, L. Giglio, L. Yan, H.H. Zhang?and Z. Li(2019) Landsat-8 and Sentinel-2 burned area mapping?- A combined sensor multi-temporal change detection approach.?Remote Sensing of Environment 231: 111254. https://doi.org/10.1016/j.rse.2019.111254
Roy, D.P., L. Boschetti and S.N. Trigg(2006) Remote sensing of?fire severity: Assessing the performance of the Normalized?Burn Ratio. IEEE Geoscience and Remote Sensing Letters 3(1): 112-116.
Schimmel, J. and A. Granstrom(1996) Fire severity and vegetation?response in the boreal swedish forest. Ecology 77(5): 1436-1450.
Schroeder, K., S.A. Josey, M. Herrmann, L. Grignon, G.P.?Gasparini and H.L. Bryden(2010) Abrupt warming and salting?of the Western Mediterranean deep water after 2005:?Atmospheric forcings and lateral advection. Journal of?Geophysical Research 115(C8). https://doi.org/10.1029/2009JC005749
Senande-Rivera, M., D. Insua-Costa and G. Miguez-Macho(2022)?Spatial and temporal expansion of global wildland fire activity?in response to climate change. Nature Communications 13: 1208. doi.org/10.1038/s41467-022-28835-2
Shin, M.H., J.H. Lim and W.S. Kong(2014) Relationship between?environment factors and distribution ofPinus densiflora after?fire in Goseong, Gangwon Province, Korea. Journal of the?Korean Society of Environmental Restoration Technology 17(2): 49-60. DOI: http://dx.doi.org/10.13087/kosert.2014.17.2.49
Soverel, N.O., D.D.B. Perrakis and N.C. Coops(2010) Estimating?burn severity from Landsat dNBR and RdNBR indices across?western Canada. Remote Sensing of Environment 114: 1896-1909. 10.1016/j.rse.2010.03.013
Teckentrup, L., S.P. Harrison, S. Hantson, A. Heil, J.R. Melton and?M. Forrest(2019) Response of simulated burned area to?historical changes in environmental and anthropogenic factors:?A comparison of seven fire models. Biogeosciences 16(19): 3883-3910. https://doi.org/10.5194/bg-16-3883-2019
Tran, B.N., M.A. Tanase, L.T. Bennett and C. Aponte(2018)?Evaluation of spectral indices for assessing fire severity in?Australian Temperate Forests. Remote Sens 10: 1680. doi: 10.3390/rs10111680
van Gerrevink, M.J. and S. Veraverbeke(2021) Evaluating the?hyperspectral sensitivity of the Differenced Normalized Burn?Ratio for assessing fire severity. Remote Sens 13: 4611. https://doi.org/10.3390/rs13224611
Verhegghen, A., H. Eva, B. Desclee and F. Achard(2016) Review?and combination of recent remote sensing based products for?forest cover change assessments in Cameroon. International?Forestry Review 18(2): 2016-2017. 10.1505/146554816819683807
Wang, W., W. Wu, F. Guo and G. Wang(2022b) Fire regime and?management in Canada's protected areas. International Journal?of Geoheritage and Parks. 10: 240-251. https://doi.org/10.1016/j.ijgeop.2022.04.003
Wang, W., X. Wang, W. Wu, F. Guo, J. Park and G. Wang(2022a)?Burn severity in Canada's mountain national parks: Patterns,?drivers, and predictions. Geophysical Research Letters 49(12): 1-11. https://doi.org/10.1029/2022GL097945
White, J.C., M.A. Wulder, T. Hermosilla, N.C. Coops and G.W.?Hobart(2017) A nationwide annual characterization of 25-?years of forest disturbance and recovery for canada using?landsat time series. Remote Sensing of Environment 194: 303-321. doi:10.1016/j.rse.2017.03.035
White, J.D., K.C. Ryan, C.C. Key and S.W. Running(1996) Remote?sensing of forest fire severity and vegetation recovery. Int J?Wildland Fire 6(3): 125-136. DOI: 10.1071/WF9960125
White, L.A. and R.K. Gibson(2022) Comparing fire extent and?severity mapping between sentinel 2 and landsat 8 satellite?sensors. Remote Sensing 14(7): 1661.. https://doi.org/10.3390/rs14071661
Wright, H.A. and A.W. Bailey(1982) Fire ecology: United state and?Southern Canada. John Wiley and Sons, New York. 501p.
Ying, L., J. Han, Y. Du and Z. Shen(2018) Forest fire characteristics?in China: Spatial patterns and determinants with thresholds.?Forest Ecology and Management 424: 345-354.
Yoo, J.Y., J.W. Han, D.W. Kim and T.W, Kim(2021) Evaluating?impact factors of forest fire occurrences in Gangwon province?using PLS-SEM: A focus on drought and meteorological?factors. KSCE Journal of Civil and Environmental Engineering?Research 41(3): 209-217. (In Korean with English abstract)
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