1 |
An, J.E., Lee, S.Y., Ryu, S.H., Kim, M. 2018. Transformation of terpene synthase from Polyporus brumalis in Pichia pastoris for recombinant enzyme production. Journal of the Korean Wood Science and Technology 46(4): 415-422.
DOI
|
2 |
Bouslimi, B., Koubaa, A., Bergeron, Y. 2013. Variation of brown rot decay in eastern white cedar (Thuja occidenalis L.). BioResources 8(3): 4735-4755.
|
3 |
Bamber, R.K. 1987. Sapwood and heartwood. Technical Publication number 2. Revised. Forestry Commission of New South Wales.
|
4 |
Cole, H.G., Schofield, M.J. 2000. Corrosion of metals by wood. In Corrosin Eds L.L. Shreir, R.A. Jarman & G.T. Burstein. Butterworth-Heinemann, Linacre House, Yordan Hill, Oxford OX2 8DP, Great Britain.
|
5 |
De Micco, V., Balzano, A., Wheeler, E.A., Baas, P. 2016. Tyloses and gums: a review of structure, function and occurrence of vessel occlusions. IAWA Journal 37(2): 186-205. doi: 10.1163/22941932-20160130.
DOI
|
6 |
Dickson, W. C. 2000. Integrative Plant Anatomy. Academic press. A Harcourt Science and Technology company. 525 B Street, Suite 1900, San Diego, California 92101-4495, USA. pp. 533.
|
7 |
Dinwoodie, J.M. 1981. Timber, Its Nature and Behaviour. Van Nostrand Reinhold Co. Ltd, USA.
|
8 |
Djarwanto, Suprapti, S. 2015. Corrosion properties on five wood species from Sukabumi in the open site to metal screw. Journal of Tropical Wood Science and Technology 13(2): 136-145.
|
9 |
Djarwanto. 2018. Wood Decay Fungi and Forest Resource Conservation. Research Professor Inauguration Book. Research, Development and Innovation Agency, Jakarta.
|
10 |
Djawanto, Suprapti, S., Hutapea, F.J. 2018. The capability of ten fungus strains in decaying four wood species from Manokwari. Journal of Forest Products Research 36(2): 129-138.
|
11 |
Djawanto, Dewi, L.M., Muslich, M., Jasni, Suprapti, S., Pari, G., Hadjib, N., Indrawan, D.A., Basri, E. 2014. Basic properties and utilization of wood species from Kalimantan. Annual research report. Forest Products Research and Development Center, Bogor, Indonesia.
|
12 |
Foliente, G.C., Leicester, R.H., Ang, C.H., Mackenzie, C., Cole, I. 2018. Durability design of wood construction. Retrieved from https:/www.reseachgate.net/publication/283234837, accessed on 7 January 2019.
|
13 |
Krilov, A. 1987. Corrosive properties of some Eucalypts. Wood Science and Technology 21: 211-217.
DOI
|
14 |
Hendrix, P.E. 2006. Corrosion on metals in contact with preservative treated wood an update. Retrieved from www.archchemicals.com/Fed/wolw/Docs/corrosion-of-metals-606, accessed on 28 April 2013.
|
15 |
Kip, N., Van-Veen, J.A.. 2015. Mini review, the dual role of microbes in corrosion. The ISME Journal 9: 542-551.
DOI
|
16 |
Knaebe, M. 2013. Iron stain on wood. Finisline Forest Products Laboratory. USDA Forest Service, Madison. Retrieved from www.fpl.fs.fed.us, accessed on 9 November 2019.
|
17 |
Lee, S.Y., Ryu, S.H., Choi, I.G., Kim, M. 2016. Biosynthesis of eudesmane-type sesquiterpenoids by the wood-rotting fungus, Polyporus brumalis, on specific medium, including inorganic magnesium source. Journal of the Korean Wood Science and Technology 44(2): 253-263.
DOI
|
18 |
Li, Z.W., Marston, N.J., Jones, M.S. 2011. Corrosion of fasteners in treated timber. Branz study report 241. Branz Ltd, Judgeford, New Zealand.
|
19 |
Martawijaya, A., Barly. 2010. Pedoman pengawetan kayu untuk mengatasi jamur dan rayap pada bangunan rumah dan gedung. Bogor: IPB Press.
|
20 |
Noetzli, K.P., Frey, A.B.B., Graf, F., Holdenrieder, T.S.O. 2007. Release of iron from bonding nails in torrent control check dams and its effect on wood decomposition by Fomitopsis pinicola. Wood Res. 52: 47-60.
|
21 |
Oey, D. S. 1990. Specific Gravity of Indonesia Woods and Its Significance for Practical Use. Communication Nr.3. Forest Products Research and Development Center, Bogor, Indonesia.
|
22 |
Suprapti, S., Djarwanto. 2012. The resistance of six wood species against decaying fungi. Journal of Forest Products Research 30(3): 227-234. ISSN 0216-4329.
|
23 |
Pawlik, A., Ruminowicz-Stefaniuk, M., Frac, M., Mazur, A., Wielbo, J., Janusz, G. 2019. The wood decay fungus Cerrena unicolor adjusts its metabolism to grow on various types of wood and light conditions. PLoS ONE. Public Library of Science 14(2): 1-19. p.e0211744.
|
24 |
Soerianegara, I., Lemmens, R. 1993. Plant Resources of Southeast Asia 5(1), Timber Trees: Major Commercial Timbers. PROSEA, Indonesia.
|
25 |
Sugianto, K., Sudika, D.A. 2010. Metal corrosion in waterborne preservative-treated wood. Journal of Forestry Research 7: 91-99.
|
26 |
Suprapti, S., Djarwanto. 2014. The resistance of five wood species from Ciamis against eleven strain of decaying fungi. Journal of Forest Products Research 32(3): 189-198.
|
27 |
Suprapti, S., Djarwanto, Andianto. 2016. Decay resistance of six wood species from Papua against destroying fungi. Journal of Forest Products Research 34(2): 157-165.
|
28 |
SNI (Indonesian National Standard). 2014. Wood Resistance Test Against Wood Destroying Organism, No. SNI 7207:2014. Badan Standarisasi Nasional, Jakarta.
|
29 |
Takahashi, M., Kishima, T. 1973. Decay resistance of sixty-five Southeast Asian timber specimens in accelerated. Tonan Ajia Kenkyu 10(4): 525-541.
|
30 |
Quartey, G.A. 2009. Relationships between some anatomical, physical and durability properties of the wood of some lesser utilised Ghanaian hardwoods. Ph.D Thesis, Kwame Nkrumah University of Science and Technology, Kumasi, Ghana.
|
31 |
Xu X. 2017. Corrosion of embedded ferrous metals in woods. Retrieved from www.corrosionguru.com. p.: 1-9, accessed on 20 July 2018.
|
32 |
Suhartanti D. 2006. Corrosion rate of steel by Desulfomicrobium baculatum and Desulfomonas pigra. Berkala MIPA 16: 27-35.
|