[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5658/WOOD.2020.48.1.1

Color Change and Resistance to Subterranean Termite Attack of Mangium (Acacia mangium) and Sengon (Falcataria moluccana) Smoked Wood

HADI, Yusuf Sudo (IPB University (Bogor Agricultural University))
MASSIJAYA, Muh Yusram (IPB University (Bogor Agricultural University))
ABDILLAH, Imam Busyra (IPB University (Bogor Agricultural University))
PARI, Gustan (Forest Products Research and Development Centre)
ARSYAD, Wa Ode Muliastuty (Forest Products Research and Development Centre)

Publication Information

Journal of the Korean Wood Science and Technology / v.48, no.1, 2020 , pp. 1-11 More about this Journal

Abstract

Indonesian log production is dominated by young trees harvested from plantation forests. The timber contains of sapwood and juvenile wood, which are not resistant to termite attack. Smoking treatment can enhance wood resistance to termite attack, but it also changes the color. Specimens of mangium (Acacia mangium) and sengon (Falcataria moluccana) wood were exposed for 1, 2, and 3 weeks to smoke produced from the pyrolysis of salam (Syzygium polyanthum) wood. The color change of the wood was measured using the CIELab method. In addition, wood specimens were exposed to subterranean termites (Coptotermes curvignathus Holmgren) under laboratory conditions. Untreated and imidacloprid-preserved wood samples were also prepared for comparison purposes. The results showed that the color of smoked wood differed from that of untreated wood, and the color change for sengon was greater than for mangium. In addition, the 1-week smoking period changed the wood color less than the 2- and 3-week periods, which did not differ. Imidacloprid-preserved wood had distinctive color changes compared to untreated wood. Untreated mangium wood had moderate resistance to subterranean termite attack (resistance class III), while sengon had very poor resistance (resistance class V). Salam wood smoke enhanced wood resistance to termite attack, and smoke treatment of 1 week for mangium and 2 weeks for sengon resulted in the wood becoming very resistant (resistance class I). Both types of smoked wood were more resistant to subterranean termite attack than imidacloprid-preserved wood (average class II resistance).

Keywords

smoked wood; wood color change; subterranean termite attack; termite resistance class;

Citations & Related Records

Times Cited By KSCI : 10 (Citation Analysis)

Reference
Cited By KSCI

1	Arango, R.A., Green, F., Hintz, K., Lebow, P.K., Miller, R.B. 2006. Natural durability of tropical and native woods against termite damage by Reticulitermes flavipes (Kollar). International Biodeterioration & Biodegradation 57(3): 146-150, doi.org/10.1016/j.ibiod.2006.01.007 DOI
2	Arinana, A., Tsunoda, K., Herliyana, E.N., Hadi, Y.S. 2012. Termite-susceptible species of wood for inclusion as a reference in Indonesian standardized laboratory testing. Insects 3(2): 396-401, doi: 10.3390/insects3020396. DOI
3	Christie, R.M. 2007. Colour Chemistry. The Royal Society of Chemistry, Cambridge, UK.
4	Fajriani, E., Rulle, J., Dlouha, J., Fournier, M., Hadi, Y.S., Darmawan, W. 2013. Radial variation of wood properties of sengon (Paraserianthes falcataria) and jabon (Anthocephalus cadamba). Journal of the Indian Academy of Wood Science 10(2): 110-117. DOI
5	Hadi, Y.S., Darma, I.G.K.T., Febrianto, F., Herliyana, E.N. 1995. Acetylated rubber-wood flakeboard resistance to bio-deterioration. Forest Products Journal 45(10): 64-66.
6	Hadi, Y.S., Westin, M., Rasyid, E. 2005. Resistance of furfurylated wood to termite attack. Forest Products Journal 55(11): 85-88.
7	Hadi, Y.S., Nurhayati, T., Jasni, J., Yamamoto, H., Kamiya, N. 2010. Smoked wood as an alternative for wood protection against termites. Forest Products Journal 60(6): 496-500. DOI
8	Hadi, Y.S., Nurhayati, T., Jasni, J., Yamamoto, H., Kamiya N. 2012. Smoked wood resistance to subterranean and dry wood termites attack. International Biodeterioration & Biodegradation 70: 79-81. doi: 10.1016/j.ibiod.2011.06.010. DOI
9	Hadi, Y.S., Rahayu, I.S., Danu, S. 2013. Physical and mechanical properties of methyl methacrylate impregnated jabon wood. Journal of the Indian Academy of Wood Science 10(2): 77-80. doi:10.1007/s13196-013-0098-3. DOI
10	Hadi, Y.S., Arinana, A., Massijaya, M.Y. 2014. Feeding rate as a consideration factor for successful termite wood preference tests. Wood and Fiber Science 46(4): 590-593.
11	Hadi, Y.S., Massijaya, M.Y., Hermawan, D., Arinana, A. 2015. Feeding rate of termites in wood treated with borax, acetylation, polystyrene, and smoke. Journal of Indian Academy Wood Science 12(1): 74-80. DOI: 10.1007/s13196-015-0146-2. DOI
12	Hadi, Y.S., Efendi, M., Massijaya, M.Y., Arinana, A., Pari, G. 2016a. Subterranean resistance of smoked glued laminated lumber made from fast-growing tree species from Indonesia. Wood and Fiber Science 48(3): 211-216.
13	Hadi, Y.S., Massijaya, M.Y., Arinana, A. 2016b. Subterranean termite resistance of polystyrenetreated wood from three tropical wood species. Insects 7(3): pii: 37; doi:10.3390/insects7030037.
14	Hadi, Y.S., Massijaya, M.Y., Zaini, L.H., Abdillah, I.B., Arsyad, W.O.M. 2018. Resistance of methyl methacrylate-impregnated wood to subterranean termite attack. Journal of the Korean Wood Science and Technology 46(6): 748-755. DOI
15	Hadi, Y.S., Massijaya, M.Y., Zaini, L.H., Pari, R. 2019. Physical and Mechanical Properties of Methyl Methacrylate-Impregnated Wood from Three Fast-Growing Tropical Tree Species. Journal of Korean Wood Science and Technology 47(3): 324-335. pISSN: 1017-0715 eISSN: 2233-7180; DOI:10.5658/WOOD.2018.46.2.143 DOI
16	Hendrik, J., Hadi, Y.S., Massijaya, M.Y., Santoso, A. 2016. Properties of laminated panels made from fast-growing species glued with mangium tannin adhesive. BioResources 11(3): 5949-5960. DOI: 10.15376/biores.11.3.5949-5960
17	Hidayat, W., Qi, Y., Park, B.H., Banuwa, I.S., Febrianto, F., Kim, N.H. 2017. Color change and consumer preferences towards color of heat-treated Korean white pine and royal paulownia woods. Journal of the Korean Wood Science and Technology 45(2): 213-222. doi: 10.5658/WOOD.2017.45.2.213. DOI
18	Ishiguri, F., Andoh, M., Yokota, S., Yoshizawa, N. 2001. Effect of smoke heating on moisture content, surface checking, and dynamic Young's modulus of sugi (Cryptomeria japonica) boxed heart timber. Mokuzai Gakkaishi 47(4): 350-357.
19	Hrckova, M., Koleda, P., Koleda, P., Barcik, S., Stefkova, J. 2018. Color change of selected wood species affected by thermal treatment and sanding. BioResources 13(4): 8956-8975.
20	Hunter Lab. 1996. Application Note: Hunter color scale. Insight on Color 8(9): 1-4.
21	Ishiguri, F., Maruyama, S., Takahashi, K., Abe, Z., Yokota, S., Andoh, M., Yoshizawa, N. 2003. Extractives relating to heartwood color changes in sugi (Cryptomeria japonica) by a combination of smoke-heating and UV radiation exposure. Journal of Wood Science 49(2): 135-139. DOI
22	Komariah, R.N., Hadi, Y.S., Massijaya, M.Y., Suryana, J. 2015. Physical-mechanical properties of glued laminated timber made from tropical smalldiameter logs grown in Indonesia. Journal of the Korean Wood Science and Technology 43(2): 156-167. doi: 10.5658/WOOD.2015.43.2.156. DOI
23	Lestari, A.S.R.D., Hadi, Y.S., Hermawan, D., Santosa, A. 2018. Physical and mechanical properties of glued laminated lumber of pine (Pinus merkusii) and jabon (Anthocephalus cadamba). Journal of the Korean Wood Science and Technology 46(2): 143-148. doi: 10.5658/WOOD.2018.46.2.143. DOI
24	Martawijaya, A., Kartasujana, I., Kadir, K., Prawira, S.A. 2004. Atlas kayu Indonesia, jilid III [Indonesian Wood Atlas]. Forest Products Research Institute, Forestry Department, Bogor, Indonesia.
25	Ministry of Environment and Forestry. 2018. Statistic of forestry production. Ministry of Environment and Forestry, Jakarta, Indonesia.
26	Toledo, R.T. 2008. Wood smoke components and functional properties. In: DE Kramer, L. Brown, (eds.), International Smoked Seafood Conference Proceedings, March 5-6, 2007, Anchorage, AK. Alaska Sea Grant College Program, Anchorage, pp. 55-61. doi:10.4027/isscp.2008.12
27	Oramahi, H.A., Diba, F., Nurhaida. 2014. New bio preservatives from lignocelluloses biomass bio-oil for anti termites Coptotermes curvignathus Holmgren. Procedia Environmental Science 20: 778-784. DOI
28	SNI 7207-2014 (Standar Nasional Indonesia, Indonesian National Standard). 2014. Uji ketahanan kayu terhadap organisme perusak kayu [Test for resistance of wood on wood deterioration organism]. National Standardization Bureau, Jakarta, Indonesia.
29	Stolyhwo, A., Sikorski, Z.E. 2005. Polycyclic aromatic hydrocarbons in smoked fish: a critical review. Food Chemistry 91(2): 303-311. DOI
30	Yang, B.S., Yang, J., Kim, D.Y., Kim, J.K., Hwang, W.J. Kwon, G.J. 2017. Characteristics of wood tar produced as byproduct from two types of the kiln in the manufacture of oak charcoal. Journal of the Korean Wood Science and Technology 45(6): 772-786. doi: 10.5658/WOOD.2017.45.6.772. DOI
31	Yang, J.F., Yang, C.H., Liang, M.T., Gao, Z.J., Wu, Y.W., Chuang, L.Y. 2016. Chemical composition, antioxidant, and antibacterial activity of wood vinegar from Litchi chinensis. Molecules 1150(21): 1-10.