[
ABNT – Associação Brasileira de Normas Técnicas (2003) Determinação da densidade básica em madeira. NBR 11941-02, Rio de Janeiro.
]Search in Google Scholar
[
Albinio JC, Tomazello Filho M (1985) Variação da densidade básica da madeira e produtividade de Eucalyptus spp. Planaltina EMBRAPA CEPAC. Boletim de Pesquisa 26.
]Search in Google Scholar
[
Aguiar BI, Freitas MLM, Tavares YR, Tambarussi EV, Zanato B, Gandara FB, Paludeto JGZ, Silva DYBO, Silva JR, Moraes MLT, Longui EL, Zanatto ACS, Sebbenn AM (2019) Genetic controlo f silvicultural traits in Balfourodendron riedelianum (ENGL.) ENGL. Silvae Genetica 68:73–78. https://doi.org/10.2478/sg-2019-0013
]Search in Google Scholar
[
Bouffier L, Raffin A, Rozenberg P, Meredieu C, Kremer A (2009) What are the consequences of growth selection on wood density in the French maritime pine breeding programme? Tree Genetics & Genomes 5:11–25. https://doi.org/10.1007/s11295-008-0165-x
]Search in Google Scholar
[
Carvalho PER (2003) Espécies arbóreas brasileiras. Brasília, DF: Embrapa Informações Tecnológica; Colombo: Embrapa Floresta.
]Search in Google Scholar
[
Durigan G, Figliolia MB, Kawabata M, Garrido MAO, Baitello JB (2002) Sementes e mudas de árvores tropicais. São Paulo: Páginas & Letras.
]Search in Google Scholar
[
Farias JAC, Oliveira OS, Franco ETH (1995) Crescimento inicial do guatambu, Balfourodendron riedelianum (Eagl.), em diferentes intensidades luminosas. Ciência Florestal 5:69–86. http://dx.doi.org/10.5902/19805098311
]Search in Google Scholar
[
Fukatsu E, Hiraoka Y, Matsunaga K, Nakada R (2015) Genetic relationship between wood properties and growth traits in Larix kaempferi obtained from a diallel mating test. Journal of Wood Science 61:10–18. https://doi.org/10.1007/s10086-014-1436-9
]Search in Google Scholar
[
Gerendiain ZA, Peltola H, Pulkkinen P (2009) Growth and wood property traits in narrow crowned Norway spruce (Picea abies f. pendula) clones grown in southern Finland. Silva Fennica 43:369–382. https://doi.org/10.14214/sf.194
]Search in Google Scholar
[
Hong Z, Fries A, Wu HX (2014) High negative genetic correlations between growth traits and wood properties suggest incorporating multiple traits selection including economic weights for the future Scots pine breeding programs. Annals of Forest Science 71:463–472. https://doi.org/10.1007/s13595-014-0359-3
]Search in Google Scholar
[
Huang W, Carbone MA, Lyman RF, Anholt RRH, Mackay TFC (2020) Genotype by environment interaction for gene expression in Drosophila melanogaster. Nature Communication 11:5451. https://doi.org/10.1038/s41467-020-19131-y
]Search in Google Scholar
[
Hung TD, Brawner JT, Meder R, Lee DJ, Southerton S, Thinh HH, Dieters MJ (2015) Estimates of genetic parameters for growth and wood properties in Eucalyptus pellita F. Muell. to support tree breeding in Vietnam. Annals of Forest Science 72:205–217. https://doi.org/10.1007/s13595-014-0426-9
]Search in Google Scholar
[
Kien ND, Jansson G, Harwood C, Almqvist C (2010) Clonal variation and geno-type by environment interactions in growth and wood density in Eucalyptus camaldulensis at three contrasting sites in Vietnam. Silvae Genetica 59:17–28. https://doi.org/10.1515/sg-2010-0003
]Search in Google Scholar
[
Kubota TY, Moraes MA de, Silva ECB, Pupin S, Aguiar AV, Moraes MLT de, Freitas MLM, Sato AS, Machado JAR, Sebbenn AM (2015) Variabilidade genética para caracteres silviculturais em progênies de polinização aberta de Balfourodendron riedelianum (Engler). Scientia Forestalis 43:407–415.
]Search in Google Scholar
[
Land SB, Dicke SG, Tuskan GA (1983) Genetic, site and within-tree variation in specific gravity and moisture of young sycamore trees. Tappi Journal 66:149–153.
]Search in Google Scholar
[
Li L, Wu HX (2005) Efficiency of early selection for rotation-aged growth and wood density traits in Pinus radiata. Canadian Journal of Forest Research 35:2019–2029. https://doi.org/10.1139/x05-134
]Search in Google Scholar
[
Lima IL, Mastelin SM, Longui EL, Freitas MLM, Romero D, Zanatto ACS, Florsheim SMB (2011) Densidade básica da madeira e dimensões celulares da madeira de Balfourodendron riedelianum em função da procedência e posição radial. Revista do Instituto Florestal 23:217–230. https://doi.org/10.24278/2178-5031.2011232296
]Search in Google Scholar
[
Masendra IN, Ishiguri F, Hidayati F, Nirsatmanto A, Sunarti SS, Kartikaningtyas D, Takashima Y, Takahashi Y, Ohshima J, Yokota S (2023) Variations of growth and wood traits in standing trees of the third-generation Acacia mangium families in Indonesia. Silvae Genetica 72:150–161. https://doi.org/10.2478/sg-2023-0016
]Search in Google Scholar
[
Montes SC, Hernandez RE, Beaulieu J, Weber JC (2006) Genetic variation and correlations between growth and wood density of Calycophyllum sprucea-num at an early age in the Peruvian Amazon. Silvae Genetica 55:217–228. http://dx.doi.org/10.1515/sg-2006-0029
]Search in Google Scholar
[
Moura PG, Parca MLS, Solva MAS (1991) Variação da densidade básica da madeira de espécies e procedências de Pinus centro-americanos em três locais na região dos cerrados. Boletim de Pesquisa Florestal 22/23:29–44.
]Search in Google Scholar
[
Nabais C, Hansen JK, David-Schwartz R, Klisz M, López R, Rozenberg, P (2018) The effect of climate on wood density: What provenance trials tell us? Forest Ecology and Management 408:148–156. https://doi.org/10.1016/j.foreco.2017.10.040
]Search in Google Scholar
[
Pliura A, Yu Q, Zhang SY, Mackay J, Périnet P, Bousquet J (2005) Variation in wood density and shrinkage and their relationship to growth of selected young poplar hybrid crosses. Forest Science 51:472–482. https://doi.org/10.1093/forestscience/51.5.472
]Search in Google Scholar
[
Pliura A, Zhang SY, MacKay J, Bousquet J (2007) Genotypic variation in wood density and growth traits of poplar hybrids at four clonal trials. Forest Ecology and Management 238:92–106. https://doi.org/10.1016/j.foreco.2006.09.082
]Search in Google Scholar
[
Poupon V, Gezan SA, Schueler S, Lstiburek M (2023) Genotype x environment interaction and climate sensitivity in growth and wood density of European larch. Forest Ecology and Management 542:121259. https://doi.org/10.1016/j.foreco.2023.121259
]Search in Google Scholar
[
Resende MDV (2016) Software Selegen–REML/BLUP: a useful tool for plant breeding. Crop Breeding and Applied Biotechnology 16:330–339. http://dx.doi.org/10.1590/1984-70332016v16n4a49
]Search in Google Scholar
[
Riva LC, Moraes MA, Cambuim J, Zulian DF, Sato LM, Caldeira FA, Panosso AR, Moraes MLT (2020) Genetic control of wood quality of Myracrodruon urundeuva populations under anthropogenic disturbance. Crop Breeding and Applied Biotechnology 20:e320920411. http://dx.doi.org/10.1590/1984-70332020v20n4a64
]Search in Google Scholar
[
Santos FW, Moraes MLT, Florshein SMB, Lima IL, Silva JM, Freitas MLM, Sebbenn AM (2010) Variação genética para caracteres anatômicos e retração volumétrica e sua correlação com a densidade básica da madeira em uma população base de Eucalyptus camaldulensis Dehn. Scientia Forestalis 38:159–170.
]Search in Google Scholar
[
Schaberg PG, Murakami PF, Collins KM, Hansen CF, Hawley GJ (2022) Phenology, cold injury and growth of American chestnut in a range-wide provenance test. Forest Ecology and Management 513:120178. https://doi.org/10.1016/j.foreco.2022.120178
]Search in Google Scholar
[
SAS (1999) Institute INC. SAS procedures guide. Version 8 (TSMO). Cary. Sebbenn AM, Kageyama PY, Zanatto ACS (2002) Estimativas de ganhos na seleção em populações Cariniana legalis (Mart.) O. Ktze. Incorporando informações do sistema de reprodução. Revista do Instituto Florestal 14:65–77. https://doi.org/10.24278/2178-5031.2002141401
]Search in Google Scholar
[
Sebbenn AM, Siqueira ACFN, Vencovski R, Machado JAR (1999) Interação genótipo x ambiente na conservação ex situ de Peltophorum dubium (Spreng) Taub. em duas regiões do Estado de São Paulo. Revista do Instituto Florestal 11:65–78. https://doi.org/10.24278/2178-5031.1999111517
]Search in Google Scholar
[
Sebbenn AM, Freitas MLM, Zanatto ACS, Moraes E, Moraes MA (2007) Conservação ex situ e pomar de sementes em banco de germoplasma de Balfourodendron riedelianum. Revista Instituto Florestal 19:101–112. https://doi.org/10.24278/2178-5031.2007192353
]Search in Google Scholar
[
Siqueira ACMF, Sebbenn AM, Ettori LC, Nogueira JCB (2000) Variação genética entre e dentro de populações de Balfourodendron riedelianum (Engler) Engler para conservação ex situ. Revista do Instituto Florestal 12:89–103. https://doi.org/10.24278/2178-5031.20001226
]Search in Google Scholar
[
SNIF (2024) Sistema Nacional de Informações Florestais-SNIF. Serviço Florestal Brasileiro. https://snif.florestal.gov.br/pt-br/especies-florestais
]Search in Google Scholar
[
Soro A, Lenz P, Hassegawa M, Roussel J-R, Bousquet J, Achim A (2022) Genetic influence on components of wood density variation in white spruce. Forestry: An International Journal of Forest Research 95:153–165. https://doi.org/10.1093/forestry/cpab044
]Search in Google Scholar
[
Tung ESC, Freitas MLM, Florshein SMB, Lima IL, Longui EL, Santos FW, Moraes MLT, Sebbenn AM (2010) Variação genética para caracteres silviculturais e anatômicos da madeira em progênies de Myracrodruon urundeuva (Engler) Fr. Allem. Scientia Forestalis 38:499–508.
]Search in Google Scholar
[
Tung ESC, Freitas MLM, Florshein SMB, Lima IL, Longui EL, Santos FW, Moraes MLT, Sebbenn AM (2011) Variação, divergência e correlações genéticas entre caracteres silviculturais e densidade básica da madeira em progênies de Myracrodruon urundeuva (Engler) Fr. Allem. Revista do Instituto Florestal 23:1–12. https://doi.org/10.24278/2178-5031.2011231281
]Search in Google Scholar
[
Vencovsky R, Barriga P (1992) Genética biométrica no fitomelhoramento. Revista Brasileira de Genética, Ribeirão Preto.
]Search in Google Scholar
[
Williams CG, Megraw RA (1994). Juvenile-mature relationships for wood density in Pinus taeda. Canadian Journal of Forest Research 24:714–722. http://dx.doi.org/10.1139/x94-095
]Search in Google Scholar
[
Wright JW (1978) A simplified design for combined provenance and progeny testing. Silvae Genetica 27:68–70.
]Search in Google Scholar
[
Zhang H, Zhang S, Chen S, Xia D, Yang C, Zhao X (2022) Genetic variation and superior provenances selection for wood properties of Larix olgensis at four trials. Journal of Forest Research 33:1867–1879. https://doi.org/10.1007/s11676-021-01449-y
]Search in Google Scholar
