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http://dx.doi.org/10.12654/JCS.2021.37.5.03

Real-time Monitoring of Temperature and Relative Humidity and Visualization of Pest Survey Data for Integrated Pest Management in Collection Storage Area  

Im, Ik-Gyun (Heritage Science Center, Chungbuk National University)
Lim, Seong-Duk (Jeongnimsaji Museum of Korea)
Han, Gyu-Seong (Heritage Science Center, Chungbuk National University)
Publication Information
Journal of Conservation Science / v.37, no.5, 2021 , pp. 440-450 More about this Journal
Abstract
Temperature and humidity data collection using real-time sensors and data loggers was conducted for integrated pest management in the collection storage and exhibition space of the Jeongnimsaji Museum, Buyeo. The real-time temperature and humidity monitoring system collected measurement data every 30 minutes and enabled real-time confirmation of the data through a linked application. If the temperature and humidity data measured in the real-time temperature and humidity monitoring system exceeds the set range, a push notification was sent to the mobile phone of the person in charge to provide status information to establish a continuous management system. Through this, it was possible to immediately recognize and take action when the temperature range exceeded the recommended relic temperature in August. We performed data visualization on the concentration of airborne fungus in the storage area and the inflow path and density of insects. Based on the recommended criteria presented by the National Institute of Cultural Heritage, The data on the spatial and temporal concentration of airborne fungus inside the collection storage were found to be maintained at a value below the standard recommended by the National Institute of Cultural Heritage (80 CFU/m3). Also, as a result of the insect inflow survey, no insects were captured inside the storage area, and in the case of the exhibition space, insects such as Scutigera coleoptrata, Loxoblemmus arietulus, Diestrammena asynamora, Koreoniscus racovitzai were captured. Based on this, as a result of visualization according to the individual density of captured insects by area, it was confirmed that the main inflow paths of insects were the external entrance and the toilet area.
Keywords
Jeongnimsaji museum; Collection storage; Integrated pest management; Real-time monitoring; Data visualization;
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  • Reference
1 Lee, J.H. and Shin, J.H., 2020, Integrated Pest Management (IPM) data management and utilization: Database normalization and data visualization, Conference of the Korean Society of Conservation Science for Cultural Heritage, Online Streaming, II-11.
2 National Research Institute of Cultural Heritage, 2016, Research Report of Large Buddhist Painting: Gwaebultaeng 10, 54-61.
3 National Research Institute of Cultural Heritage, 2017, Research Report of Large Buddhist Painting: Gwaebultaeng 15, 52-57.
4 Peshi, R., Bandral, R.S., Zhang, W.J., Wilson, L. and Dhawan, A.K., 2009, Integrated pest management: A global overview of history, programs and adoption, integrated pest management. Springer, 1-49.
5 Kim, Y.S., 1996, Trends on works of biodeterioration performed at both domestic and international museums. Journal of Conservation Science, 5(2), 65-79. (in Korean with English abstract)
6 Rakotonirainy, M.S. and Lavdrine, B., 2005, Screening for antifungal activity of essential oils and related compounds to control the biocontamination in libraries and archives storage areas, International Biodeterioration & Biodegradation, 55(2), 141-147.   DOI
7 Kosuke, T., 2018, Mold prevention and antibacterial antifungal, Insect & fungus damage to cultural properties, (76), 12-21.
8 Lewis, J.G.E., 2007, The biology of centipedes. Cambridge University Press, London.
9 Park, S.J., 2011, Effect of wood vinegar and timbor treatment on white rot fungi on wooden plates carving Buddhist scriptures in the Hein temple, http://treestory.forest.or.kr/v1/bbs/bbs.php?cmd=view&board_name=b43&bid=92&count=y (June 7, 2021).
10 Pinniger, D.B. and Winsor, P., 2004, Integrated pest management: A guide for museums, libraries and archives, Museum Libraries Archives, London.
11 Ryder, S. and Mendez, A., 2018, Using risk zones in museums as part of an IPM Programme: Does it work?, Journal of Studies in Conservation, 64(4), 203-207.   DOI
12 The National Folk Museum of Korea, 2008, Museum and pest management, The National Folk Museum of Korea, Seoul, KOR, 10-39.
13 Trematerra, P. and Pinniger, D., 2018, Museum pests- cultural heritage pests. In: Athanassiou, G.C. and Arthur, F.H. (eds.), Recent advances in stored product protection. Springer: Berlin, 229-260.
14 Zycherman, L.A. and Schrock, J.R., 1988, Guide to museum pest control. Foundation of the American Institute for Conservation of Historic and Artistic Works, Washington, D.C., 1-205.
15 Querner, P., 2015, Insect pests and integrated pest management in museums. Libraries and Historic Buildings, Insects, 6(2), 595-607.   DOI
16 Jo, J.H., Park, J.S., Kim, S.Y., Kwon, M.H., Kim, K.Y., Choi, J.H. and Seo, S.C., 2016, A suggested air sampling strategy for bioaerosols in daycare center settings, Journal of Korean Society of Occupational and Environmental Hygiene, 26(3), 324-333. (in Korean with English abstract)   DOI
17 Pinniger, D.B., 2015,, Integrated pest management in cultural heritage. Archetype Publications Ltd., London.
18 National Research Institute of Cultural Heritage, 2009, Standardization of Monitoring and Analytical Technology for conservation Environment of Movable Cultural Properties, 144-146.
19 National Research Institute of Cultural Heritage, 2019, Research Report of Large Buddhist Painting: Gwaebultaeng 29, 46-53.
20 Pinniger, D.B., 2009, Pest management a practical guide. Collection Trust, Cambridge, 1-52.
21 Story, K.O., 1985, Approaches to pest management in museum, Conservation Analytical Laboratory Smithsonian Institution, Washington, DC, 85-101.
22 Tse, R., Im, M. and Tang, S.K., 2020, Self-Adaptive Sensing IoT Platform for Conserving Historic, 5th International Conference on Internet of Things Buildings and Collections in Museums, Online Streaming.
23 Kang, S.Y., Jo, E.M. and Ji, S.H., 2011, Investigation of plant relics inside the buddhist status using environmental scanning electron microscope. Journal of the Korean Chemical Society, 55(6), 1074-1077.   DOI
24 Child, R.E., 2001, Museums, libraries and archives. The pests: their presence and future. In: Kingsley, H. et al. (eds.), Integrated pest management for collections. Proceedings of 2001: a pest odyssey. James & James Science Publishers, London, 1-4.
25 Child, R.E., 2007, Insect damage as a function of climate, In: Padfield, T. and Borchersen, K. (eds.), Museum microclimates, National Museum of Denmark, Copenhagen, 57-60.
26 Choi, Y.R. and Kang, D.I., 2015, Current status and challenges on the prevention of biological damage to cultural properties in South Korea. Korean Journal of Cultural Heritage Studies, 48(3), 138-153. (in Korean with English abstract)
27 Florian, M.L., 1997, Heritage eaters: Insects and fungi in heritage collections, James & James, London.
28 He, Y., Zeng, H., Fan, Y., Ji, S. and Wu, J., 2019, Application of deep learning in integrated pest management: A real-time system for detection and diagnosis of oilseed rape pests. Hindawi Mobile Information Systems, 1-14.