Abstract
As forests in neotropical regions, particularly in develo** countries, are devastated, interventions to restore biodiversity and its ecological functions are needed. Rural producers have thus been encouraged to grow trees for wood production as an economic activity. The objective of this study was to quantify the increment of wood density of four forest species from different successional classes of a mixed system of restoration in a neotropical forest in Brazil. Tree discs were sampled at breast height and analyzed radially by X-ray densitometry to obtain apparent density and basic density. Three trees each of a species from the pioneer, early and late secondary successional stages and of the dominant species in the climax community. The radial profiles indicated increasing density from the pith to bark of trunks, except for some variations due to wood defects and growth. Average density was 0.576 g cm−3, 0.655 g cm−3, 0.706 g cm−3 and 0.775 g cm−3, respectively, for Peltophorum dubium, Schinus terebinthifolius, Cariniana estrellensis and Hymenaea courbaril. Radial profiles indicated higher amplitudes in the apparent densities for slow-growing species. X-ray densitometry generated parameters such as minimum, average and maximum densities, and radial density variations. These parameters are important for understanding the ecological functional role of successional classes of the Atlantic Forest from the Neotropical region.
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References
ABNT [Associação Brasileira de Normas Técnicas] (1997) Projeto de Estruturas de Madeira: NBR 7190. Rio de Janeiro, ABNT, p 1-107
ABNT [Associação Brasileira de Normas Técnicas] (2003) Madeira—Determinação da densidade básica: NBR 11941. Rio de Janeiro, ABNT, p 1-6
Albuquerque AR, Castro VR, Lobão MS, Sarto C, Tomazello Filho M, Guedes FTP (2016) Comparative analysis of anatomy and microdensitometry of the growth rings of hardwoods and conifers, with emphasis on dendrochronology. Sci For 44(111):595–610
Alvarado JR, Tomazello Filho M, Pollito PAZ, Lobão MS (2010) Variação da densidade do lenho e relação com a largura dos anéis de crescimento de árvores de mogno, Swietenia macrophylla, da floresta tropical amazônica do Peru. Sci For 38(86):171–179
Amaral ACB, Tomazello Filho M (1998) Avaliação das características dos anéis de crescimento de Pinus taeda pela técnica de microdensitometria de raios-X. Rev Ciência Tecnol 6(12):17–23
Amazonas NT, Forrester DI, Silva CC, Almeida DRA, Rodrigues RR, Brancalion PHS (2018) High diversity mixed plantations of Eucalyptus and native trees: an interface between production and restoration for the tropics. For Ecol Manag 417(2):247–256
Anholetto Jr CR (2013) Dendroecologia e composição isotópica (δ13C) dos anéis de crescimento de árvores de Cedrela odorata, Meliaceae, na Caatinga e Mata Atlântica do Estado de Sergipe. Dissertation Esalq-USP, p. 1–91. https://teses.usp.br/teses/disponiveis/11/11150/tde-30102013-105715/publico/Claudio_Roberto_Anholetto_Junior.pdf
Balducci L, Deslauriers A, Giovannelli A, Beaulieu M, Delzon S, Rossil S, Rathgeber CBK (2014) How do drought and warming influence survival and wood traits of Picea mariana saplings? J Exp Bot 66:377–389
Beech E, Rivers M, Old Field S, Smith PP (2017) Global Tree Search: the first complete global database of tree species and country distributions. J Sustain For 36(5):454–489
Brancalion PHS, Chazdon RL (2017) Beyond hectares: four principles to guide re-forestation in the context of tropical forest and landscape restoration. Restor Ecol 25(4):491–496
Brancalion PHS, Viani RAG, Strassburg BBN, Rodrigues RR (2012) Finding the money for tropical forest restoration. Unasylva 63(239):41–50
Castro VRC, Tomazello Filho M, Surdi PG (2014) Avaliacão do perfil radial do lenho de árvores de Pinus (Pinus caribaea var. hondurensis Barr. Et Golf) por densitometria de raios-X. Sci For 42(103):353–360
Chazdon RL (2008) Chance and determinism in tropical forest succession. In: Carson W, Schnitzer S (eds). Tropical forest community ecology. Wiley, p 384–409. http://www.lerf.eco.br/img/publicacoes/2012_09%20Chance%20and%20Determinism%20in%20Tropical%20Forest%20Succession.pdf
Chazdon RL, Brancalion PHS, Lamb D, Laestadius L, Calmon M, Kumar C (2017) A policy-driven knowledge agenda for global forest and landscape restoration. Conserv Lett 10(1):125–132
Engel VL, Parrota JA (2001) An evaluation of direct seeding for reforestation of degraded lands in central São Paulo state, Brazil. For Ecol Manag 152:169–181
FAO (2016) Global Forest Resources Assessment 2015. How are the world’s forests changing? FAO Forestry. Rome, p 1–54. http://www.fao.org/3/a-i4793e.pdf
Fearnside PM (1997a) Wood density for estimating forest biomass in Brazilian Amazonia. For Ecol Manag 90:59–87
Fearnside PM (1997b) Wood density for estimating forest biomass in Brazilian Amazonia For Ecol. Manag 90:59–87
Ferreira ATB, TomazelloFilho M (2009) Caracterização dos anéis de crescimento de árvores de Pinus caribaea var. hondurensis Barr. et Golf por densitometria de raios X. Sci For 37(83):287–298
Ferretti AR, Kageyama PY, Arbocz GF, Santos JD, Barros MIA, Lorza RF, Oliveira C (1995) Classificação das espécies arbóreas em grupos ecológicos para revegetação com nativas no estado de São Paulo. Florest Estat 3(7):73–77
Gandolfi S, Leitão Filho HF, Bezerra CLF (1995) Estudo florístico e caráter sucessional das espécies arbustivo arbóreas de uma floresta mesófila semidecídua no município de Guarulhos SP. Rev Bras Biol 55(4):753–767
Hietz P, Valencia R, Wright SJ (2013) Strong radial variation in wood density follows a uniform pattern in two neotropical rain forests Funct. Ecol 27:684–692
Jankowsky IP, Chimelo JP, Cavalcante AA, Galina AM, Nagamura JCS (1990) Madeiras brasileiras. Spectrum, p 1–172. http://www.scielo.br/scielo.php?script=sci_nlinks&ref=000113&pid=S0100-6762201400030001800018&lng=pt
Kelty MJ (2006) The role of species mixtures in plantation forestry. For Ecol Manag 233(3):195–204
Knapic S, Louzada JL, Leal S, Pereira H (2007) Radial variation of wood density components and ring width in cork oak trees. Ann For Sci 64:211–218
Lamb D (2005) Restoration of degraded tropical forest landscapes. Science 80(310):1628–1632
Lima IL, Longui EL, Cerato C, Freitas MLM, Florsheim SMB, Zanatto ACS (2015) Basic specific gravity and anatomy of Peltophorum dubium wood as a function of provenance and radial position. Rev Inst Flor 27(1):19–29
Lobão MS, Chagas MP, Costa DSP, Ferreira DTB, Sette Júnior CR, Carvalho IL, Tomazello Filho M (2010) Agrupamento de espécies florestais pela similaridade das características físico-anatômicas e usos da madeira. Cerne 16:97–105
Moreira WS (1999) Relações entre propriedades físico-mecânicas e características anatômicas e químicas da madeira. Thesis, UFV, pp 1–199. https://www.locus.ufv.br/bitstream/123456789/9167/1/texto%20completo.pdf
Nogueira Junior LR (2010) Estoque de carbono na fitomassa e mudanças nos atributos do solo em diferentes modelos de restauração da Mata Atlântica. Thesis, Esalq/USP, p 1–94. https://teses.usp.br/teses/disponiveis/11/11150/tde-21102010-093438/publico/Lauro_Nogueira.pdf>
Oliver J, Rathgeber C, Bravo F (2015) Climate change, tree-ring width and wood density of pines in Mediterranean environments. IAWA J 36(3):257–269
Padilha DL, Marco Júnior P (2018) A gap in the woods: wood density knowledge as impediment to develop sustainable use in Atlantic Forest. For Ecol Manag 424(15):448–457
Pagotto MA, De Soto L, Carvalho A, Nabais C, Tomazello Filho M, Ribeiro A, Lisi CS (2017) Evaluation of X-ray densitometry to identify tree-ring boundaries of two deciduous species from semi-arid forests in Brasil. Dendrochronologia 42:94–103
Parolin P (2002) Radial gradients in wood specific gravity in trees of Central Amazonian floodplains. IAWA J 23(4):449–457
Paula A, Silva AF, Marco Júnior P, Santos FAM, Souza AL (2004) Sucessão ecológica da vegetação arbórea em uma Floresta Estacional Semidecidual, Viçosa, MG, Brasil. Acta Bot Bras 18(3):407–423
Piotto D (2008) A meta-analysis comparing tree growth in monocultures and mixed plantations. For Ecol Manag 255(3–4):781–786
Quintek Measurement Systems (1999) QMS tree ring analyzer model QTRS-01X. Users Guide, Knoxville, pp 1–72
R Core Team (2014) R: a language and environment for statistical computing. R foundation for statistical computing, p 1–2. https://www.gbif.org/pt/tool/81287/r-a-language-and-environment-for-statistical-computing
Rezende MA, Escobedo JF, Ferraz ESB (1988) Retratibilidade volumétrica e densidade aparente da madeira em função da umidade. IPEF 39:33–40
Rodrigues RR, Brancalion PHS, Isernhagen I (2009) Pacto pela restauração da mata atlântica: referencial dos conceitos e ações de restauração florestal. Instituto BioAtlântica, p 50–206 http://www.lerf.esalq.usp.br/divulgacao/produzidos/livros/pacto2009.pdf
Rodrigues RR, Gandolfi S, Nave AG, Aronson J, Barreto TE, Vidal CY, Brancalion PHS (2011) Large-scale ecological restoration of high diversity tropical forests in SE Brazil. For Ecol Manag 261:1605–1613
Roque RM, Tomazello Filho M (2007) Relationships between anatomical features and intra-ring wood density profiles in Gmelina arborea applying x-ray densitometry. Cerne 13(4):384–392
Santos SR, Sansígolo CA (2007) Influência da densidade básica da madeira de clones de Eucalyptus grandis x Eucalyptus urophylla na qualidade da polpa branqueada. Ciência Florestal 17(1):53–63. http://www.scielo.br/pdf/cflo/v17n1/1980-5098-cflo-17-01-00053.pdf
Sette Júnior CR, Tomazello Filho M, Dias CTS, Chagas MP, Laclau JP (2009) Efeito da aplicação de potássio e sódio nas características do lenho de árvores de Eucalyptus grandis w.hill, aos 24 meses de idade. Floresta 39(3):535–546. https://doi.org/10.5380/rf.v39i3.15353
Slik JWF, Arroyo-Rodríguez V, Aiba S-I, Alvarez-Loayza P, Alves LF, Ashton P, Balvanera P, Bastian ML, Bellingham PJ, van den Berg E, Bernacci L, Da Bispo PC, Blanc L, Böhning-Gaese K, Boeckx P, Bongers F, Boyle B, Bradford M, Brearley FQ, Hockemba MB-N, Bunyavejchewin S, Matos DCL, Castillo-Santiago M, Catharino ELM, Chai S-L, Chen Y, Colwell RK, Chazdon RL, Clark C, Clark DB, Clark DA, Culmsee H, Damas K, Dattaraja HS, Dauby G, Davidar P, DeWalt SJ, Doucet J-L, Duque A, Durigan G, Eichhorn KAO, Eisenlohr PV, Eler E, Ewango C, Farwig N, Feeley KJ, Ferreira L, Field R, Filho AT, De Fletcher OC, Forshed O, Franco G, Fredriksson G, Gillespie T, Gillet J-F, Amarnath G, Griffith DM, Grogan J, Gunatilleke N, Harris D, Harrison R, Hector A, Homeier J, Imai N, Itoh A, Jansen PA, Joly CA, de Jong BHJ, Kartawinata K, Kearsley E, Kelly DL, Kenfack D, Kessler M, Kitayama K, Kooyman R, Larney E, Laumonier Y, Laurance S, Laurance WF, Lawes MJ, DO Amaral IL, Letcher SG, Lindsell J, Lu X, Mansor A, Marjokorpi A, Martin EH, Meilby H, Melo FPL, Metcalfe DJ, Medjibe VP, Metzger JP, Mohandass JMD, Montero JC, De Valeriano MM, Mugerwa B, Nagamasu H, Nilus R, Ochoa-Gaona S, Onrizal PN, Parolin P, Parren M, Parthasarathy N, Paudel E, Permana A, Piedade MTF, Pitman NCA, Poorter L, Poulsen AD, Poulsen J, Powers J, Prasad RC, Puyravaud J-P, Razafimahaimodison J-C, Reitsma J, dos Santos JR, Spironello WR, Romero-Saltos H, Rovero F, Rozak AH, Ruokolainen K, Rutishauser E, Saiter F, Saner P, Santos BA, Santos F, Sarker SK, Satdichanh M, Schmitt CB, Schöngart J, Schulze M, Suganuma MS, Sheil D, Pinheiro E, De Sist SP, Stevart T, Sukumar R, Sun IF, Sunderland T, Suresh HS, Suzuki E, Tabarelli M, Tang J, Targhetta N, Theilade I, Thomas DW, Tchouto P, Hurtado J, Valencia R, van Valkenburg JLCH, Do Van Vasquez TR, Verbeeck H, Adekunle V, Vieira SA, Webb CO, Whitfeld T, Wich SA, Williams J, Wittmann F, Wöll H, Yang X, Yao CYA, Yap SL, Yoneda T, Zahawi RA, Zakaria R, Zang R, de Assis RL, Luize BG, Venticinque EM (2015) An estimate of the number of tropical tree species. Appl Biol Sci Environ Sci 112(33):4628–4629
Sos Mata Atlântica Fundação (2015) Atlas dos Remanescentes Florestais da Mata Atlântica—Período 2013–2014. Fundação SOS Mata Atlântica, p 3–60p. https://www.sosma.org.br/wp-content/uploads/2019/06/Atlas-mata-atlanticaDIGITAL.pdf
Souza VR, Carpim MA, Barrichelo LEG (1986) Densidade básica entre procedências, classes de diâmetro e posição em árvores de Eucalyptus grandis e Eucalyptus saligna. IPEF 3:63–72
Stape JL, Gandara FB, Santos JD, Gusson E, Mendes JCT (2006) Modelos de recuperação de áreas degradadas da Mata Atlântica com espécies nativas em duas regiões do Brasil visando o sequestro de carbono. Petrobrás Project Final Report, p 10–164. https://www.ipef.br/pesquisas/
Swaine MD, Whitmore TC (1988) On the definition of ecological species groups in tropical rain forests. Vegetatio 75(1–2):81–86
Thornthwaite CW, Mather JC (1955) The water balance. Centeron: Drexel Institute of Technology, Philadelphia, p 1–104. http://www.scielo.br/scielo.php?script=sci_nlinks&ref=000064&pid=S0006-8705200500020001900006&lng=pt
Tomazello Filho M, Botosso PC, Lisi CS (2001) Análise e aplicação dos anéis de crescimento das árvores como indicadores ambientais: dendrocronologia e dendroclimatologia. In: Indicadores ambientais: conceitos e aplicações. EDUC Ed, p 1–143
Tomazello Filho M, Chagas MP, Roque RM (2005) Manual de aplicação de densitometria de raios-X em amostras de madeira, CRAD e CERD. Fealq Ed, p 1–32 p
Tomazello Filho M, Brazolin S, Chagas MP, Oliveira JTS, Ballarin AW, Benjamin CA (2008) Application of X-ray technique in nondestructive evaluation of Eucalypt wood. Maderas Ciênc Tecnol 10(2):139–145
Vivian MA, Modes KS, Beltrame R, Souza JT, Santini EJ, Haselein CR (2010) Propriedades físico-mecânicas da madeira de canafístula aos 10 anos de idade. Ciênc Rural 40(5):1097–1102
Xavier CN (2016) Avaliação não destrutiva da qualidade da madeira e do fuste de árvores de Peltophorum dubium (Spreng.) Taub em área de restauração florestal. Dissertation, Federal Rural University of Rio de Janeiro, p 1–69 https://tede.ufrrj.br/jspui/handle/jspui/1362
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We thank Petrobrás for financing the implementation project and the Institute for Research and Forest Studies (IPEF) for the assistance in obtaining study material.
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Dias Júnior, A.F., Pincelli, A.L.M.S., Câmara da Silva, A.P. et al. Integrating species and successional classes for wood production in a mixed forest restoration system in a neotropical region. J. For. Res. 32, 2313–2321 (2021). https://doi.org/10.1007/s11676-021-01297-w
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DOI: https://doi.org/10.1007/s11676-021-01297-w