This work is licensed under the Creative Commons Attribution 4.0 International License.
Abdelgaleil, S.A.M., Doe, M., Morimoto, Y., Nakatani, M. 2006. Rings B,D-seco limonoids from the leaves of Swietenia mahogani. – Phytochemistry, 67(5), 452–458.AbdelgaleilS.A.M.DoeM.MorimotoY.NakataniM.2006Rings B,D-seco limonoids from the leaves of Swietenia mahoganiPhytochemistry67545245810.1016/j.phytochem.2005.11.02016442575Search in Google Scholar
Arisandi, R., Ashitani, T., Takahashi, K., Marsoem, S.N., Lukmandaru, G. 2020. Lipophilic extractives of the wood and bark from Eucalyptus pellita F. Muell grown in Merauke, Indonesia. – Journal of Wood Chemistry and Technology, 40(2), 146–154.ArisandiR.AshitaniT.TakahashiK.MarsoemS.N.LukmandaruG.2020Lipophilic extractives of the wood and bark from Eucalyptus pellita F. Muell grown in Merauke, IndonesiaJournal of Wood Chemistry and Technology40214615410.1080/02773813.2019.1697295Search in Google Scholar
Arisandi, R., Marsoem, S.N., Lukmandaru, G., Ashitani, T., Takahashi, K. 2019a. The contents of phenolics and cell wall component of Eucalyptus pellita F. Muell stemwood and bark. – Wood Research, 64(3), 411–422.ArisandiR.MarsoemS.N.LukmandaruG.AshitaniT.TakahashiK.2019aThe contents of phenolics and cell wall component of Eucalyptus pellita F. Muell stemwood and barkWood Research643411422Search in Google Scholar
Arisandi, R., Marsoem, S.N., Lukmandaru, G., Sutapa, J.P.G. 2021. Heartwood formation and its relationship with basic density and moisture content of young Swietenia mahagoni (L.) Jacq trees growing in forest plantation, Central Java, Indonesia. (In Submission).ArisandiR.MarsoemS.N.LukmandaruG.SutapaJ.P.G.2021Heartwood formation and its relationship with basic density and moisture content of young Swietenia mahagoni (L.) Jacq trees growing in forest plantationCentral Java, Indonesia(In Submission).Search in Google Scholar
Arisandi, R., Masendra, Purba, B.A.V., Wati, F.Z., Ihda, F.V., Sumantri, F., Lukmandaru, G. 2019b. Lipophilic extractives of mahogany (Swietenia macrophylla King) barks. – Proceedings of 9th International Symposium of Indonesian Wood Research Society, Indonesia, Sept. 2017. Denpasar, 192–201.ArisandiR.MasendraPurbaB.A.V.WatiF.Z.IhdaF.V.SumantriF.LukmandaruG.2019bLipophilic extractives of mahogany (Swietenia macrophylla King) barksProceedings of 9th International Symposium of Indonesian Wood Research SocietyIndonesiaSept. 2017. Denpasar192201Search in Google Scholar
Batubara, I., Darusman, L.K., Mitsunaga, T., Rahminiwati, M., Djauhari, E. 2010. Potency of Indonesian medicinal plants as tyrosinase inhibitor and antioxidant agent. – Journal of Biological Sciences, 10(2), 138–144.BatubaraI.DarusmanL.K.MitsunagaT.RahminiwatiM.DjauhariE.2010Potency of Indonesian medicinal plants as tyrosinase inhibitor and antioxidant agentJournal of Biological Sciences10213814410.3923/jbs.2010.138.144Search in Google Scholar
Batubara, I., Kotsuka, S., Yamauchi, K., Kuspradini, H., Mitsunaga, T., Darusman, L.K. 2012. TNF-α production inhibitory activity, phenolic, flavonoid, and tannin contents of selected Indonesian medicinal plants. – Research Journal of Medicinal Plants, 6(6), 406–415.BatubaraI.KotsukaS.YamauchiK.KuspradiniH.MitsunagaT.DarusmanL.K.2012TNF-α production inhibitory activity, phenolic, flavonoid, and tannin contents of selected Indonesian medicinal plantsResearch Journal of Medicinal Plants6640641510.3923/rjmp.2012.406.415Search in Google Scholar
Batubara, I., Mitsunaga, T., Ohashi, H. 2009. Screening antiacne potency of Indonesian medicinal plants: antibacterial, lipase inhibition, and antioxidant activities. – Journal of Wood Science, 55, 230–235.BatubaraI.MitsunagaT.OhashiH.2009Screening antiacne potency of Indonesian medicinal plants: antibacterial, lipase inhibition, and antioxidant activitiesJournal of Wood Science5523023510.1007/s10086-008-1021-1Search in Google Scholar
Berrocal, A., Baeza, J., Rodríguez, J., Espinosa, M., Freer, J. 2004. Effect of tree age on variation of Pinus radiata D. Don chemical composition. – Journal of the Chilean Chemical Society, 49(3), 251–256.BerrocalA.BaezaJ.RodríguezJ.EspinosaM.FreerJ.2004Effect of tree age on variation of Pinus radiata D. Don chemical compositionJournal of the Chilean Chemical Society49325125610.4067/S0717-97072004000300012Search in Google Scholar
Bikovens, O., Roze, L., Pranovich, A., Reunanen, M., Telysheva, G. 2013. Chemical composition of lipophilic extractives from grey alder (Alnus incana). – BioResources, 8(1), 350–357.BikovensO.RozeL.PranovichA.ReunanenM.TelyshevaG.2013Chemical composition of lipophilic extractives from grey alder (Alnus incana)BioResources8135035710.15376/biores.8.1.350-357Search in Google Scholar
Burtin, P., Jay-Allemand, C., Charpentier, J.-P., Janin, G. 1998. Natural wood colouring process in Juglans sp. (J. nigra, J. regia and hybrid J. nigra 23 × J. regia) depends on native phenolic compounds accumulated in the transition zone between sapwood and heartwood. – Trees, 12, 258–264.BurtinP.Jay-AllemandC.CharpentierJ.-P.JaninG.1998Natural wood colouring process in Juglans sp. (J. nigra, J. regia and hybrid J. nigra 23 × J. regia) depends on native phenolic compounds accumulated in the transition zone between sapwood and heartwoodTrees1225826410.1007/PL00009716Search in Google Scholar
Caron, A., Altaner C.M., Gardiner, B., Jarvis, M.C. 2013. Distribution of extractives in Sitka spruce (Picea sitchensis) grown in the northern UK. – European Journal of Wood and Wood Products, 71(6), 697–704.CaronA.AltanerC.M.GardinerB.JarvisM.C.2013Distribution of extractives in Sitka spruce (Picea sitchensis) grown in the northern UKEuropean Journal of Wood and Wood Products71669770410.1007/s00107-013-0728-xSearch in Google Scholar
Chen, Y.-Y., Wang, X.-N., Fan, C.-Q., Yin, S., Yue, J.-M. 2007. Swiemahogins A and B, two novel limonoids from Swietenia mahogani. – Tetrahedron Letters, 48, 7480–7484.ChenY.-Y.WangX.-N.FanC.-Q.YinS.YueJ.-M.2007Swiemahogins A and B, two novel limonoids from Swietenia mahoganiTetrahedron Letters487480748410.1016/j.tetlet.2007.08.066Search in Google Scholar
da Silva, A.R., Pastore, T.C.M., Braga, J.W.B., Davrieux, F., Okino, E.Y.A., Coradin, V.T.R., Camargos, J.A.A., do Prado, A.G.S. 2013. Assessment of total phenols and extractives of mahogany wood by near infrared spectroscopy (NIRS). – Holzforschung, 67, 1–8.da SilvaA.R.PastoreT.C.M.BragaJ.W.B.DavrieuxF.OkinoE.Y.A.CoradinV.T.R.CamargosJ.A.A.do PradoA.G.S.2013Assessment of total phenols and extractives of mahogany wood by near infrared spectroscopy (NIRS)Holzforschung671810.1515/hf-2011-0207Search in Google Scholar
Datta, S.K., Kumar, A. 1987. Histochemical studies of the transition from sapwood to heartwood in Tectona grandis. – IAWA Bulletin, 8(4), 363–368.DattaS.K.KumarA.1987Histochemical studies of the transition from sapwood to heartwood in Tectona grandisIAWA Bulletin8436336810.1163/22941932-90000456Search in Google Scholar
DuBois, M., Gilles, K.A., Hamilton, J.K., Rebers, P.A., Smith, F. 1956. Colorimetric method for determination of sugars and related substances. – Analytical Chemistry, 28(3), 350–356.DuBoisM.GillesK.A.HamiltonJ.K.RebersP.A.SmithF.1956Colorimetric method for determination of sugars and related substancesAnalytical Chemistry28335035610.1021/ac60111a017Search in Google Scholar
Dünisch, O., Richter, H.-G., Koch, G. 2010. Wood properties of juvenile and mature heartwood in Robinia pseudoacacia L. – Wood Science and Technology, 44, 301–313.DünischO.RichterH.-G.KochG.2010Wood properties of juvenile and mature heartwood in Robinia pseudoacacia L.Wood Science and Technology4430131310.1007/s00226-009-0275-0Search in Google Scholar
Ekimoto, H., Irie, Y., Araki, Y., Han, G.Q., Kadota, S., Kikuchi, T. 1991. Platelet aggregation inhibitors from the seeds of Swietenia mahagoni: inhibition of in vitro and in vivo platelet-activating factor-induced effects of tetranortriterpenoids related to swietenine and swietenolide. – Planta Medica, 57(1), 56–58.EkimotoH.IrieY.ArakiY.HanG.Q.KadotaS.KikuchiT.1991Platelet aggregation inhibitors from the seeds of Swietenia mahagoni: inhibition of in vitro and in vivo platelet-activating factor-induced effects of tetranortriterpenoids related to swietenine and swietenolidePlanta Medica571565810.1055/s-2006-9600182062958Search in Google Scholar
Falah, S., Suzuki, T., Katayama, T. 2008. Chemical constituents from Swietenia macrophylla bark and their antioxidant activity. – Pakistan Journal of Biological Sciences, 11(16), 2007–2012.FalahS.SuzukiT.KatayamaT.2008Chemical constituents from Swietenia macrophylla bark and their antioxidant activityPakistan Journal of Biological Sciences11162007201210.3923/pjbs.2008.2007.201219266907Search in Google Scholar
Fengel, D., Wegener, G. 1989. Wood: Chemistry, Ultrastructure, Reactions. Berlin, Walter de Gruyter. 613 pp.FengelD.WegenerG.1989Wood: Chemistry, Ultrastructure, ReactionsBerlinWalter de Gruyter613 pp.Search in Google Scholar
Freire, C.S.R., Silvestre, A.J.D., Neto, C.P. 2005. Lipophilic extractives in Eucalyptus globulus kraft pulps. Behaviour during ECF bleaching. – Journal of Wood Chemistry and Technology, 25(1–2), 67–80.FreireC.S.R.SilvestreA.J.D.NetoC.P.2005Lipophilic extractives in Eucalyptus globulus kraft pulps. Behaviour during ECF bleachingJournal of Wood Chemistry and Technology251–2678010.1081/WCT-200058241Search in Google Scholar
Gala, S., Sumarno, S., Mahfud, M. 2020. Comparison of microwave and conventional extraction methods for natural dyes in wood waste of mahagony (Swietenia mahagoni). – Journal of Applied Engineering Science, 18(4), 618–623.GalaS.SumarnoS.MahfudM.2020Comparison of microwave and conventional extraction methods for natural dyes in wood waste of mahagony (Swietenia mahagoni)Journal of Applied Engineering Science18461862310.5937/jaes0-23695Search in Google Scholar
Gominho, J., Figueira, J., Rodrigues, J.C., Pereira, H. 2001. Within-tree variation of heartwood, extractives and wood density in the eucalypt hybrid urograndis (Eucalyptus grandis × E. urophylla). – Wood and Fiber Science, 33(1), 3–8.GominhoJ.FigueiraJ.RodriguesJ.C.PereiraH.2001Within-tree variation of heartwood, extractives and wood density in the eucalypt hybrid urograndis (Eucalyptus grandis × E. urophylla)Wood and Fiber Science33138Search in Google Scholar
Gominho, J., Lourenço, A., Miranda, I., Pereira, H. 2015. Radial and axial variation of heartwood properties and extractives in mature trees of Eucalyptus globulus. – BioResources, 10(1), 721–731.GominhoJ.LourençoA.MirandaI.PereiraH.2015Radial and axial variation of heartwood properties and extractives in mature trees of Eucalyptus globulusBioResources10172173110.15376/biores.10.1.721-731Search in Google Scholar
Hamidah, S., Burhanudin, V., Istikowati, W. T. 2009. Study of the basic properties of cinnamon as a consideration for the utilization of cinnamon bark harvesting waste (Cinnamomum burmanii Blume). (Kajian sifatsifat dasar kayu manis sebagai pertimbangan pemanfaatan limbah pemanenan kulit kayu manis (Cinnamomum burmanii Blume)). – Jurnal Hutan Tropis Borneo, 10(26), 210–223. (In Indonesian).HamidahS.BurhanudinV.IstikowatiW. T.2009Study of the basic properties of cinnamon as a consideration for the utilization of cinnamon bark harvesting waste (Cinnamomum burmanii Blume). (Kajian sifatsifat dasar kayu manis sebagai pertimbangan pemanfaatan limbah pemanenan kulit kayu manis (Cinnamomum burmanii Blume))Jurnal Hutan Tropis Borneo1026210223(In Indonesian).Search in Google Scholar
Han, J.S., Rowell, J.S. 1997. Chemical composition of fibres. – Rowell, R.M., Young, R.A., Rowell, J.K. (eds.). Paper and Composites from Agro-Based Resources. New York, Lewis Publishers, 83–134.HanJ.S.RowellJ.S.1997Chemical composition of fibresRowellR.M.YoungR.A.RowellJ.K.(eds.).Paper and Composites from Agro-Based ResourcesNew YorkLewis Publishers83134Search in Google Scholar
Haslett, A.N., Young, G.D., Britton, R.A.J. 1991. Plantation grown tropical timbers. 2. Properties, processing and uses. – Journal of Tropical Forest Science, 3(3), 229–237.HaslettA.N.YoungG.D.BrittonR.A.J.1991Plantation grown tropical timbers. 2. Properties, processing and usesJournal of Tropical Forest Science33229237Search in Google Scholar
He, T., Marco, J., Soares, R., Yin, Y., Wiedenhoeft, A.C. 2020. Machine learning models with quantitative wood anatomy data can discriminate between Swietenia macrophylla and Swietenia mahagoni. – Forests, 11(1), 36.HeT.MarcoJ.SoaresR.YinY.WiedenhoeftA.C.2020Machine learning models with quantitative wood anatomy data can discriminate between Swietenia macrophylla and Swietenia mahagoniForests1113610.3390/f11010036Search in Google Scholar
Hillis, W.E. 1971: Distribution, properties and formation of some wood extractives. – Wood Science and Technology, 5, 272–289.HillisW.E.1971Distribution, properties and formation of some wood extractivesWood Science and Technology527228910.1007/BF00365060Search in Google Scholar
Hillis, W.E. 1987. Heartwood and Tree Exudates. Berlin, Heidelberg, Springer-Verlag. 268 pp.HillisW.E.1987Heartwood and Tree ExudatesBerlin, HeidelbergSpringer-Verlag268 pp.10.1007/978-3-642-72534-0Search in Google Scholar
Hillis, W.E., Hasegawa, M. 1963. The formation of polyphenols in trees I. Administration of c glucose and subsequent distribution of radioactivity. – Phytochemistry, 2(2), 195–199.HillisW.E.HasegawaM.1963The formation of polyphenols in trees I. Administration of c glucose and subsequent distribution of radioactivityPhytochemistry2219519910.1016/S0031-9422(00)82981-7Search in Google Scholar
Iswanto, A.H., Siregar, Y.S., Susilowati, A., Darwis, A., Hartono, R., Wirjosentono, B., Rachmat, H.H., Hidayat, A., Fatriasari, W. 2019. Variation in chemical constituent of Styrax sumatrana wood growing at different cultivation site in North Sumatra, Indonesia. – Biodiversitas, 20(2), 448–452.IswantoA.H.SiregarY.S.SusilowatiA.DarwisA.HartonoR.WirjosentonoB.RachmatH.H.HidayatA.FatriasariW.2019Variation in chemical constituent of Styrax sumatrana wood growing at different cultivation site in North Sumatra, IndonesiaBiodiversitas20244845210.13057/biodiv/d200221Search in Google Scholar
Jankowsky, I.P., Galvão, A.P.M. 1979. Influence of extractives content on the equilibrium moisture content of wood. (Influência do teor de extrativos na umidade de equilíbrio da madeira). – IPEF, 18, 1–33. (In Portuguese with English summary).JankowskyI.P.GalvãoA.P.M.1979Influence of extractives content on the equilibrium moisture content of wood. (Influência do teor de extrativos na umidade de equilíbrio da madeira)IPEF18133(In Portuguese with English summary).Search in Google Scholar
Lachowicz, H., Wróblewska, H., Wojtan, R., Sajdak, M. 2019. The effect of tree age on the chemical composition of the wood of silver birch (Betula pendula Roth.) in Poland. – Wood Science and Technology, 53, 1135–1155.LachowiczH.WróblewskaH.WojtanR.SajdakM.2019The effect of tree age on the chemical composition of the wood of silver birch (Betula pendula Roth.) in PolandWood Science and Technology531135115510.1007/s00226-019-01121-zSearch in Google Scholar
Lemmens, R.H.M.J. 2005. Swietenia mahagoni (L.) Jacq. Internet record from PROTA4U. – Louppe, D., Oteng-Amoako, A.A., Brink, M. (eds.). PROTA (Plant Resources of Tropical Africa / Ressources végétales de l’Afrique tropicale). Wageningen, Netherlands. [WWW document]. – URL https://prota4u.org/database/protav8.asp?g=pe&p=Swietenia+mahagoni+(L.)+Jacq. [Accessed 12 November 2020].LemmensR.H.M.J.2005Swietenia mahagoni (L.) Jacq. Internet record from PROTA4ULouppeD.Oteng-AmoakoA.A.BrinkM.(eds.).PROTA (Plant Resources of Tropical Africa / Ressources végétales de l’Afrique tropicale)Wageningen, Netherlands[WWW document]. – URL https://prota4u.org/database/protav8.asp?g=pe&p=Swietenia+mahagoni+(L.)+Jacq. [Accessed 12 November 2020].Search in Google Scholar
Lestari, E., Pramasari, D.A., Amin, Y., Adi, D.S., Bahanawan, A., Dwianto, W. 2016. The chemical components changes of platinum teak wood. – Proceedings of the 6th International Symposium for Sustainable Humanosphere, Indonesia, Nov. 2016. Bogor, Humanosphere Science School, 165–171.LestariE.PramasariD.A.AminY.AdiD.S.BahanawanA.DwiantoW.2016The chemical components changes of platinum teak woodProceedings of the 6th International Symposium for Sustainable HumanosphereIndonesia, Nov. 2016. Bogor, Humanosphere Science School165171Search in Google Scholar
Lin, B.-D., Zhang, C.-R., Yang, S.-P., Wu, Y., Yue, J.-M. 2011. Phragmalin-type limonoid orthoesters from the twigs of Swietenia macrophylla. – Chemical and Pharmaceutical Bulletin, 59(4), 458–465.LinB.-D.ZhangC.-R.YangS.-P.WuY.YueJ.-M.2011Phragmalin-type limonoid orthoesters from the twigs of Swietenia macrophyllaChemical and Pharmaceutical Bulletin59445846510.1248/cpb.59.45821467674Search in Google Scholar
Lourenço, A., Baptista, I., Gominho, J., Pereira, H. 2008. The influence of heartwood on the pulping properties of Acacia melanoxylon wood. – Journal of Wood Science, 54, 464–469.LourençoA.BaptistaI.GominhoJ.PereiraH.2008The influence of heartwood on the pulping properties of Acacia melanoxylon woodJournal of Wood Science5446446910.1007/s10086-008-0972-6Search in Google Scholar
Lukmandaru, G. 2009. Chemical and colour properties of teak heartwood from three different ages. – Journal of Tropical Wood Science and Technology, 7(1), 1–7. (In Indonesian with English summary).LukmandaruG.2009Chemical and colour properties of teak heartwood from three different agesJournal of Tropical Wood Science and Technology7117(In Indonesian with English summary).Search in Google Scholar
Lukmandaru, G. 2011. Variability in the natural termite resistance of plantation teak wood and its relations with wood extractive content and color properties. – Journal of Forestry Research, 8(1), 17–31.LukmandaruG.2011Variability in the natural termite resistance of plantation teak wood and its relations with wood extractive content and color propertiesJournal of Forestry Research81173110.20886/ijfr.2011.8.1.17-31Search in Google Scholar
Lukmandaru, G., Falaah, A.N., Listyanto, T., Rodiana, D. 2021. Extractive content and colour properties of 11-year-old superior teak wood. – Wood Research Journal, 12(1), 10–17.LukmandaruG.FalaahA.N.ListyantoT.RodianaD.2021Extractive content and colour properties of 11-year-old superior teak woodWood Research Journal121101710.51850/wrj.2021.12.1.10-17Search in Google Scholar
Magel, E., Abdel-Latif, A., Hampp, R. 2001. Non-structural carbohydrates and catalytic activities of sucrose metabolizing enzymes in trunks of two Juglans species and their role in heartwood formation. – Holzforschung, 55(2), 135–145.MagelE.Abdel-LatifA.HamppR.2001Non-structural carbohydrates and catalytic activities of sucrose metabolizing enzymes in trunks of two Juglans species and their role in heartwood formationHolzforschung55213514510.1515/HF.2001.022Search in Google Scholar
Magel, E., Hillinger, C., Höll, W., Ziegler, H. 1997. Biochemistry and physiology of heartwood formation: Role of reserve substances. – Rennenberg, H., Eschrich, W., Ziegler, H. (eds.). Trees - Contributions to Modern Tree Physiology. Leiden, Backhuys Publishers, 477–506.MagelE.HillingerC.HöllW.ZieglerH.1997Biochemistry and physiology of heartwood formation: Role of reserve substancesRennenbergH.EschrichW.ZieglerH.(eds.).Trees - Contributions to Modern Tree PhysiologyLeidenBackhuys Publishers477506Search in Google Scholar
Magel, E., Jay-Allemand, C., Ziegler, H. 1994. Formation of heartwood substances in the stemwood of Robinia pseudoacacia L. II. Distribution of nonstructural carbohydrates and wood extractives across the trunk. – Trees, 8, 165–171.MagelE.Jay-AllemandC.ZieglerH.1994Formation of heartwood substances in the stemwood of Robinia pseudoacacia L. II. Distribution of nonstructural carbohydrates and wood extractives across the trunkTrees816517110.1007/BF00196843Search in Google Scholar
Martawijaya, A., Kartasujana, I., Kadir, K., Prawira, S.A. 2005. Indonesian Wood Atlas, Volume 1. (Atlas Kayu Indonesia Jilid 1). Bogor, Indonesia, Badan Penelitian dan Pengembangan Kehutanan. 66 pp. (In Indonesian).MartawijayaA.KartasujanaI.KadirK.PrawiraS.A.2005Indonesian Wood Atlas, Volume 1. (Atlas Kayu Indonesia Jilid 1)Bogor, IndonesiaBadan Penelitian dan Pengembangan Kehutanan66 pp. (In Indonesian).Search in Google Scholar
Masendra, Arisandi, R., Purba, B.A.V., Sumantri, F., Ihda, F.V., Wati, F.Z., Lukmandaru, G. 2020. Extractives contributing to the color of Swietenia macrophylla's bark. – Wood Research Journal, 11(1), 20–26.MasendraArisandiR.PurbaB.A.V.SumantriF.IhdaF.V.WatiF.Z.LukmandaruG.2020Extractives contributing to the color of Swietenia macrophylla's barkWood Research Journal111202610.51850/wrj.2020.11.1.20-26Search in Google Scholar
Miranda, I., Gominho, J., Lourenço, A., Pereira, H. 2006. The influence of irrigation and fertilization on heartwood and sapwood contents in 18-years-old Eucalyptus globulus trees. – Canadian Journal of Forest Research, 36, 2675–2683.MirandaI.GominhoJ.LourençoA.PereiraH.2006The influence of irrigation and fertilization on heartwood and sapwood contents in 18-years-old Eucalyptus globulus treesCanadian Journal of Forest Research362675268310.1139/x06-130Search in Google Scholar
Miranda, I., Pereira, H. 2002. The variation of chemical composition and pulping yield with age and growth factors in young Eucalyptus globulus. – Wood and Fiber Science, 34(1), 140–145.MirandaI.PereiraH.2002The variation of chemical composition and pulping yield with age and growth factors in young Eucalyptus globulusWood and Fiber Science341140145Search in Google Scholar
Miranda, I., Sousa, V., Ferreira, J., Pereira, H. 2017. Chemical characterization and extractives composition of heartwood and sapwood from Quercus faginea. – PLoS ONE, 12(6), e0179268. https://doi.org/10.1371/journal.pone.0179268.MirandaI.SousaV.FerreiraJ.PereiraH.2017Chemical characterization and extractives composition of heartwood and sapwood from Quercus fagineaPLoS ONE126e0179268https://doi.org/10.1371/journal.pone.0179268.10.1371/journal.pone.0179268547068528614371Search in Google Scholar
Mishra, G., Collings, D.A., Altaner, C.M. 2018. Physiological changes during heartwood formation in young Eucalyptus bosistoana trees. – IAWA Journal, 39(4), 382–394.MishraG.CollingsD.A.AltanerC.M.2018Physiological changes during heartwood formation in young Eucalyptus bosistoana treesIAWA Journal39438239410.1163/22941932-20170210Search in Google Scholar
Morais, M.C., Pereira, H. 2012. Variation of extractives content in heartwood and sapwood of Eucalyptus globulus trees. – Wood Science and Technology, 46, 709–719.MoraisM.C.PereiraH.2012Variation of extractives content in heartwood and sapwood of Eucalyptus globulus treesWood Science and Technology4670971910.1007/s00226-011-0438-7Search in Google Scholar
Nahed, G.A.A., Hashish, K.I., Mahgoub, M.H., Mazhar, A.A.M. 2017. Ability of Swietenia mahagoni seedlings to remove of wastewater pollutants and bio-fertilization effect on growth and chemical constituents. – Agricultural Engineering International: CIGR Journal, 19, 227–233.NahedG.A.A.HashishK.I.MahgoubM.H.MazharA.A.M.2017Ability of Swietenia mahagoni seedlings to remove of wastewater pollutants and bio-fertilization effect on growth and chemical constituentsAgricultural Engineering International: CIGR Journal19227233Search in Google Scholar
Nascimento, M.S., Santana, A.L.B.D., Maranhão, C.A., Oliveira, L.S., Bieber, L. 2013. Phenolic extractives and natural resistance of wood. Intech.Open. [WWW document]. – URL http://dx.doi.org/10.5772/56358. [Accessed 14 June 2021].NascimentoM.S.SantanaA.L.B.D.MaranhãoC.A.OliveiraL.S.BieberL.2013Phenolic extractives and natural resistance of woodIntech.Open[WWW document]. – URL http://dx.doi.org/10.5772/56358. [Accessed 14 June 2021].10.5772/56358Search in Google Scholar
Neverova, N.A., Levchuk, A.A., Ostroukhova, L.A., Medvedeva, E.N., Onuchina, N.A., Babkin, V.A. 2013. Distribution of extractive substances in wood of the Siberian larch (Larix sibirica Ledeb.). – Russian Journal of Bioorganic Chemistry, 39(7), 712–719.NeverovaN.A.LevchukA.A.OstroukhovaL.A.MedvedevaE.N.OnuchinaN.A.BabkinV.A.2013Distribution of extractive substances in wood of the Siberian larch (Larix sibirica Ledeb.)Russian Journal of Bioorganic Chemistry39771271910.1134/S1068162013070108Search in Google Scholar
Niamké, F.B., Amusant, N., Charpentier, J.-P., Chaix, G., Baissac, Y., Boutahar, N., Adima, A.A., Kati-Coulibaly, S., Jay-Allemand, C. 2011. Relationships between biochemical attributes (non-structural carbohydrates and phenolics) and natural durability against fungi in dry teak wood (Tectona grandis L. f.). – Annals of Forest Science, 68, 201–211.NiamkéF.B.AmusantN.CharpentierJ.-P.ChaixG.BaissacY.BoutaharN.AdimaA.A.Kati-CoulibalyS.Jay-AllemandC.2011Relationships between biochemical attributes (non-structural carbohydrates and phenolics) and natural durability against fungi in dry teak wood (Tectona grandis L. f.)Annals of Forest Science6820121110.1007/s13595-011-0021-2Search in Google Scholar
Niamké, F.B., Amusant, N., Kokutse, A.D., Chaix, G., Charpentier, J.-P., Adima, A.A., Katikoulibaly, S., Jay-Allemand, C. 2010. Radial distribution of non-structural carbohydrates in Malaysian teak. – International Journal of Biological and Chemical Science, 4(3), 710–720.NiamkéF.B.AmusantN.KokutseA.D.ChaixG.CharpentierJ.-P.AdimaA.A.KatikoulibalyS.Jay-AllemandC.2010Radial distribution of non-structural carbohydrates in Malaysian teakInternational Journal of Biological and Chemical Science4371072010.4314/ijbcs.v4i3.60498Search in Google Scholar
Nobuchi, T., Janmahasatien, S., Sakai, M. 1996. Seasonal changes of wood formation and some characteristics of heartwood formation in teak (Tectona grandis L.) plantation. – Kasetsart Journal: Natural Science, 30(2), 254–263.NobuchiT.JanmahasatienS.SakaiM.1996Seasonal changes of wood formation and some characteristics of heartwood formation in teak (Tectona grandis L.) plantationKasetsart Journal: Natural Science302254263Search in Google Scholar
Piispanen, R., Saranpää, P. 2001. Variation of non-structural carbohydrates in silver birch (Betula pendula Roth) wood. – Trees, 15, 444–451.PiispanenR.SaranpääP.2001Variation of non-structural carbohydrates in silver birch (Betula pendula Roth) woodTrees1544445110.1007/s004680100125Search in Google Scholar
Prayitno, T.A. 1992. Chemical properties of Salam wood (Zyzigium poliantha Wight). (Sifat kimia kayu salam (Zyzigium poliantha Wight). – Buletin, Fakultas Kehutanan, Universitas Gadjah Mada, 22, 53–65. (In Indonesian).PrayitnoT.A.1992Chemical properties of Salam wood (Zyzigium poliantha Wight). (Sifat kimia kayu salam (Zyzigium poliantha Wight)Buletin, Fakultas Kehutanan, Universitas Gadjah Mada225365(In Indonesian).Search in Google Scholar
Rababah, T.M., Ereifej, K.I., Esoh, R.B., Al-u’datt, M.H., Alrababah, M.A., Yang, W. 2011. Antioxidant activities, total phenolics and HPLC analyses of the phenolic compounds of extracts from common Mediterranean plants. – Natural Product Research, 25(6), 596–605.RababahT.M.EreifejK.I.EsohR.B.Al-u’dattM.H.AlrababahM.A.YangW.2011Antioxidant activities, total phenolics and HPLC analyses of the phenolic compounds of extracts from common Mediterranean plantsNatural Product Research25659660510.1080/14786419.2010.488232Search in Google Scholar
Rastogi, R.P., Mehrotra, B.N. 1993. Compendium of Indian Medicinal Plants, Vol. 2. New Delhi, Publications and Information Directorate, CSIR. 615–616.RastogiR.P.MehrotraB.N.1993Compendium of Indian Medicinal Plants2New DelhiPublications and Information Directorate, CSIR615616Search in Google Scholar
Rencoret, J., Gutiérrez, A., Nieto, L., Jiménez-Barbero, J., Faulds, C.B., Kim, H., Ralph, J., Martínez, Á.T., del Río, J.C. 2011. Lignin composition and structure in young versus adult Eucalyptus globulus plants. – Plant Physiology, 155(2), 667–682.RencoretJ.GutiérrezA.NietoL.Jiménez-BarberoJ.FauldsC.B.KimH.RalphJ.MartínezÁ.T.del RíoJ.C.2011Lignin composition and structure in young versus adult Eucalyptus globulus plantsPlant Physiology155266768210.1104/pp.110.167254Search in Google Scholar
Rutiaga Quiñones, J.G., Windeisen, E., Strobel, C. 1998a. Extractive content of Swietenia macrophylla King. (Extraktstoffgehalt von Swietenia macrophylla King). – European Journal of Wood and Wood Product, 56(4), 228. (In German with English summary).Rutiaga QuiñonesJ.G.WindeisenE.StrobelC.1998aExtractive content of Swietenia macrophylla King. (Extraktstoffgehalt von Swietenia macrophylla King)European Journal of Wood and Wood Product564228(In German with English summary).10.1007/s001070050306Search in Google Scholar
Rutiaga Quiñones, J.G., Windeisen, E., Strobel, C. 1998b. Polysaccharide von Swietenia macrophylla King. – European Journal of Wood and Wood Product, 56(4), 234. (In German with English summary).Rutiaga QuiñonesJ.G.WindeisenE.StrobelC.1998bPolysaccharide von Swietenia macrophylla KingEuropean Journal of Wood and Wood Product564234(In German with English summary).10.1007/s001070050308Search in Google Scholar
Santana, W.M.S., Calegario, N., Arantes, M.D.C., Trugilho, P.F. 2012. Effect of age and diameter class on the properties of wood from clonal Eucalyptus. – Cerne, 18(1), 1–8.SantanaW.M.S.CalegarioN.ArantesM.D.C.TrugilhoP.F.2012Effect of age and diameter class on the properties of wood from clonal EucalyptusCerne1811810.1590/S0104-77602012000100001Search in Google Scholar
Setyawan, C., Susanto, S., Lee, C.Y. 2019. Spatial modelling of watershed health assessment by using GIS. – IOP Conference Series: Earth and Environmental Science, 355, 012018.SetyawanC.SusantoS.LeeC.Y.2019Spatial modelling of watershed health assessment by using GISIOP Conference Series: Earth and Environmental Science355012018.10.1088/1755-1315/355/1/012018Search in Google Scholar
Singleton, V.L., Orthofer, R., Lamuela-Raventós, R.M. 1999. Analysis of total phenols and other oxidation substrates and antioxidants by means of Folin-Ciocalteu reagent. – Methods in Enzymology, 299, 152–178.SingletonV.L.OrthoferR.Lamuela-RaventósR.M.1999Analysis of total phenols and other oxidation substrates and antioxidants by means of Folin-Ciocalteu reagentMethods in Enzymology29915217810.1016/S0076-6879(99)99017-1Search in Google Scholar
Stolarski, M.J., Szczukowski, S., Tworkowski, J., Wróblewska, H., Krzyżaniak, M. 2011. Short rotation willow coppice biomass as an industrial and energy feedstock. – Industrial Crops and Products, 33, 217–223.StolarskiM.J.SzczukowskiS.TworkowskiJ.WróblewskaH.KrzyżaniakM.2011Short rotation willow coppice biomass as an industrial and energy feedstockIndustrial Crops and Products3321722310.1016/j.indcrop.2010.10.013Search in Google Scholar
Sukardiman, Ervina, M. 2020. The recent use of Swietenia mahagoni (L.) Jacq. as antidiabetes type 2 phytomedicine: A systematic review. – Heliyon, 6(3), e03536. https://doi.org/10.1016/j.heliyon.2020.e03536.SukardimanErvinaM.2020The recent use of Swietenia mahagoni (L.) Jacq. as antidiabetes type 2 phytomedicine: A systematic reviewHeliyon63e03536https://doi.org/10.1016/j.heliyon.2020.e03536.10.1016/j.heliyon.2020.e03536706862332190758Search in Google Scholar
Szczepkowski, A., Nicewicz, D., Koczoń, P. 2007. The relationship between tree health and chemical composition of beech (Fagus sylvatica L.) and oak (Quercus robur L.) wood of Polish provenances. – Acta Scientiarum Polonorum Silvarum Colendarum Ratio et Industria Lignaria, 6(3), 77–88.SzczepkowskiA.NicewiczD.KoczońP.2007The relationship between tree health and chemical composition of beech (Fagus sylvatica L.) and oak (Quercus robur L.) wood of Polish provenancesActa Scientiarum Polonorum Silvarum Colendarum Ratio et Industria Lignaria637788Search in Google Scholar
Taylor, A.M., Baek, S.H., Jeong, M.K., Nix, G. 2008. Wood shrinkage prediction using NIR spectroscopy. – Wood and Fiber Science, 40(2), 301–307.TaylorA.M.BaekS.H.JeongM.K.NixG.2008Wood shrinkage prediction using NIR spectroscopyWood and Fiber Science402301307Search in Google Scholar
Umezawa, T. 2000. Chemistry of extractives. – Hon, D.N.-S., Shiraishi, N. (eds.). Wood and Cellulosic Chemistry, 2nd Edition. New York, Marcel Dekker, 213–242.UmezawaT.2000Chemistry of extractivesHonD.N.-S.ShiraishiN.(eds.).Wood and Cellulosic Chemistry2nd EditionNew YorkMarcel Dekker213242Search in Google Scholar
van Putten, R.-J., Winkelman, J.G.M., Keihan, F., van der Waal, J.C., de Jong, E., Heeres, H.J. 2014. Experimental and modelling studies on the solubility of D-arabinose, D-fructose, D-glucose, D-mannose, sucrose and D-xylose in methanol and methanol-water mixtures.– Industrial and Engineering Chemistry Research, 53(19), 8285–8290.van PuttenR.-J.WinkelmanJ.G.M.KeihanF.van der WaalJ.C.de JongE.HeeresH.J.2014Experimental and modelling studies on the solubility of D-arabinose, D-fructose, D-glucose, D-mannose, sucrose and D-xylose in methanol and methanol-water mixturesIndustrial and Engineering Chemistry Research53198285829010.1021/ie500576qSearch in Google Scholar
Wadsworth, F.H., Gonzalez, E. 2008. Sustained mahogany (Swietenia macrophylla) plantation heartwood increment. – Forest Ecology and Management, 255, 320–323.WadsworthF.H.GonzalezE.2008Sustained mahogany (Swietenia macrophylla) plantation heartwood incrementForest Ecology and Management25532032310.1016/j.foreco.2007.09.053Search in Google Scholar
Yazaki, Y. 2015. Wood colors and their coloring matters: a review. – Natural Product Communications, 10(3), 505–512.YazakiY.2015Wood colors and their coloring matters: a reviewNatural Product Communications10350551210.1177/1934578X1501000332Search in Google Scholar
Yeh, T.-F., Braun, J.L., Goldfarb, B., Chang, H.-M., Kadla, J.F. 2006. Morphological and chemical variations between juvenile wood, mature wood, and compression wood of loblolly pine (Pinus taeda L.). – Holzforschung, 60(1), 1–8.YehT.-F.BraunJ.L.GoldfarbB.ChangH.-M.KadlaJ.F.2006Morphological and chemical variations between juvenile wood, mature wood, and compression wood of loblolly pine (Pinus taeda L.)Holzforschung6011810.1515/HF.2006.001Search in Google Scholar
Zobel, B.J., Sprague, J.R. 1998. Juvenile Wood in Forest Trees. Berlin, Heidelberg, Springer-Verlag. 300 pp.ZobelB.J.SpragueJ.R.1998Juvenile Wood in Forest TreesBerlin, HeidelbergSpringer-Verlag300 pp.10.1007/978-3-642-72126-7Search in Google Scholar
Zulkahfi, Z. Irawati, D., Listyanto, T., Rodiana, D., Lukmandaru, G. 2020. Extractives content and colour properties of 11-year-old Perhutani superior teakwood from Ngawi Forest Management Unit. – Jurnal Ilmu Kehutanan, 14(2), 213–227. (In Indonesian with English summary).ZulkahfiZ.IrawatiD.ListyantoT.RodianaD.LukmandaruG.2020Extractives content and colour properties of 11-year-old Perhutani superior teakwood from Ngawi Forest Management UnitJurnal Ilmu Kehutanan142213227(In Indonesian with English summary).Search in Google Scholar