참고문헌 (13)

1. Caporaso, J.G., Lauber, C.L., Walters, W.A., Berg-Lyons, D., Huntley, J., Fierer, N., Owens, S.M., Betley, J., Fraser, L., Bauer, M., Gormley, N., Gilbert, J.A., Smith, G. and Knight, R., 2012, Ultra-high-throughput microbial community analysis on the Illumina HiSeq and MiSeq platforms. Journal of the International Society for Microbial Ecology, 6, 1621-1624. 

2. Egert, M., Wagner, B., Lemke, T., Brune, A. and Friedrich, M.W., 2003, Microbial community structure in midgut and hindgut of the humus-feeding larva of Pachnoda ephippiata (Coleoptera: Scarabaeidae). Applied and Environmental Microbiology, 69(11), 6659-6668. 

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3. Fall, S., Hamelin, J., Ndiaye, F., Assigbetse, K., Aragno, M., Chotte, J.L. and Brauman, A., 2007, Differences between bacterial communities in the gut of a soil-feeding termite (Cubitermes niokoloensis) and its mounds. Applied and Environmental Microbiology, 73(16), 5199-5208. 

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4. Grieco, M.B., Lopes, F.A.C., Oliveira, L.S., Tschoeke, D.A., Popov, C.C., Thompson, C.C., Goncalves, L.C., Constantino, R., Martins, O.B., Kruger, R.H., Souza, W. and Thompson, F.L., 2019, Metagenomic analysis of the whole gut microbiota in Brazilian Termitidae termites Cornitermes cumulans, Cyrilliotermes strictinasus, Syntermes dirus, Nasutitermes jaraguae, Nasutitermes aquilinus, Grigiotermes bequaerti, and Orthognathotermes mirim. Current Microbiology, 76(6), 687-697. 

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5. Husseneder, C., Ho, H.Y. and Blackwell, M., 2010, Comparison of the bacterial symbiont composition of the Formosan subterranean termite from its native and introduced range. The Open Microbiology Journal, 4, 53-66. 

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6. Kim, Y.H., Lim, B., Lee, J.M., Jo, C.W., Kim, S.J. and Park, J.H., 2019, A study on the inspection of termite-damaged wooden buildings through the use of detection dogs and an analysis of environmental factors. Journal of Conservation Science, 35(6), 641-651. (in Korean with English abstract) 

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7. Korea National Geographic Information Institute, 2021, Land information platform. http://map.ngii.go.kr/ms/map/NlipMap.do (July, 14, 2021) 

8. Lim, B., Kim, M.N., Kim, Y.H., Lee, J.M., Jo, C.W. and Jeong, S.Y., 2019, Statistical analysis of termite damage and environmental characteristics of the Josadang shrine in Seonamsa temple. Journal of Conservation Science, 35(2), 197-208. (in Korean with English abstract) 

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9. Manjula, A., Pushpanathan, M., Sathyavathi, S., Gunasekaran, P. and Rajendhran, J., 2016, Comparative analysis of microbial diversity in termite gut and termite nest using ion sequencing. Current Microbiology, 72, 267-275. 

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10. Manjula, A., Sathyavathi, S., Pushpanathan, M., Gunasekaran, P. and Rajendhran, J., 2014, Microbial diversity in termite nest. Current Science, 106(10), 1430-1434. 

11. Ohkuma, M. and Kudo, T., 1996, Phylogenetic diversity of the intestinal bacterial community in the termite Reticulitermes speratus. Applied and Environmental Microbiology, 62(2), 461-468. 

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12. Rossmassler, K., Dietrich, C., Thompson, C., Mikaelyan, A., Nonoh, J., Scheffrahn, R., Sillam-Dusses, D. and Brune, A., 2015, Metagenomic analysis of the microbiota in the highly compartmented hindguts of six wood- or soil-feeding higher termites. Microbiome, 3, 56, 1-6. 

13. Thongaram, T., Hongoh, Y., Kosono, S., Ohkuma, M., Trakulnaleamsai, S., Noparatnaraporn, N. and Kudo, T., 2005, Comparison of bacterial communities in the alkaline gut segment among various species of higher termites. Extremophiles, 9(3), 229-238. 

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