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4. | | OLIVEIRA, J. F. de; PORRO, R. Análise do desempenho de sabiazeiros cultivados em babaçuais em sistemas agroflorestais agroextrativistas no Médio Mearim, Maranhão. In: SEMINÁRIO DE INICIAÇÃO CIENTÍFICA DA EMBRAPA AMAZÔNIA ORIENTAL, 25., 2022, Belém, PA. Anais... Belém, PA: Embrapa Amazônia Oriental, 2023. p. 46-47. (Embrapa Amazônia Oriental. Eventos técnicos & científicos, 1). Biblioteca(s): Embrapa Amazônia Oriental. |
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5. | | BRAZ, E. M.; THAINES, F.; MATTOS, P. P. de; GARRASTAZU, M. C.; CYSNEIROS, V.; MOURA, L. A. Áreas de ocorrência de espécies madeireiras no Mato Grosso. In: CONFERÊNCIA IUFRO 2023 AMÉRICA LATINA, 2023, Curitiba. Anais... Colombo: Embrapa Florestas, 2023. p. 119. (Embrapa Florestas. Eventos técnicos & científicos, 2). Biblioteca(s): Embrapa Florestas. |
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6. | | VEDOVATO, L. B.; CARVALHO, L. C. S.; ARAGÃO, L. E. O. C.; BIRD, M.; PHILLIPS, O. L.; ALVAREZ, P.; BARLOW, J.; BARTHOLOMEW, D. C.; BERENGUER, E.; CASTRO, W.; FERREIRA, J. N.; FRANÇA, F. M.; MALHI, Y.; MARIMON, B.; MARIMON JÚNIOR, B. H.; MONTEAGUDO, A.; OLIVEIRA, E. A.; PEREIRA, L. O.; PONTES-LOPES, A.; QUESADA, C. A.; SILVA, C. V. J.; ESPEJO, J. E. S.; SILVEIRA, M.; FELDPAUSCH, T. R. Ancient fires enhance Amazon forest drought resistance. Frontiers in Forests and Global Change, v. 6, 1024101, 2023. Biblioteca(s): Embrapa Amazônia Oriental. |
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8. | | LEITE, F. F. G. D.; SANTOS, F. M.; SILVEIRA, J. G. da; VERONEZE, A. J.; MULLER, M. D.; FERREIRA, I. G. M.; ALVES, B. J. R. Assessment of carbon capture and storage through silvopastoral systems designed for tree harvesting for different end uses. In: CONGRESO INTERNACIONAL DE SISTEMAS SILVOPASTORILES, 12.; CONGRESO DE LA RED GLOBAL DE SISTEMAS SILVOPASTORILES, 2.; IV SEMINARIO NACIONAL DE SISTEMAS SILVOPASTORILES, 4., 2023, Montevideo; CONGRESO NACIONAL SISTEMAS SILVOPASTORILES, 5., 2023, Buenos Aires. Sistemas silvopastoriles: hacia una diversificación sostenible. Cali: CIPAV, 2023. p. 979-991. Biblioteca(s): Embrapa Agrobiologia; Embrapa Gado de Leite. |
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12. | | PORFIRIO-DA-SILVA, V. A "Integração pecuária-floresta" (Silvipastoril): oportunidades e desafios. In: CONGRESO INTERNACIONAL DE SISTEMAS SILVOPASTORILES, 12.; CONGRESO DE LA RED GLOBAL DE SISTEMAS SILVOPASTORILES, 2.; IV SEMINARIO NACIONAL DE SISTEMAS SILVOPASTORILES, 4., 2023, Montevideo; CONGRESO NACIONAL SISTEMAS SILVOPASTORILES, 5., 2023, Buenos Aires. Sistemas silvopastoriles: hacia una diversificación sostenible. Cali: CIPAV, 2023. p. 9-22. Biblioteca(s): Embrapa Florestas. |
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13. | | PIOTTO, D.; CALMON, M.; ROLIM, S. G.; PIÑA-RODRIGUES, F. C. M.; BRIENZA JUNIOR, S.; FREITAS, M. L. M.; VERDADE, L. M.; VIANI, R. A. G.; ARCO-VERDE, M. F.; OLIVEIRA, R. E. de; AMARAL, T. M.; SILVA, C. E. S. da. P&D de silvicultura de espécies nativas - Programa pré-competitivo para o setor florestal do Brasil. In: CONFERÊNCIA IUFRO 2023 AMÉRICA LATINA, 2023, Curitiba. Anais... Colombo: Embrapa Florestas, 2023. p. 139. (Embrapa Florestas. Eventos técnicos & científicos, 2). Biblioteca(s): Embrapa Amazônia Oriental; Embrapa Florestas. |
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16. | | LIMA, M. D. R.; MORAES, L. G.; SILVA, R. de C. C.; BARROS JUNIOR, U. de O.; BUFALINO, L.; SOARES, A. A. V.; ASSIS-PEREIRA, G.; GONÇALVES, D. de A.; TOMAZELLO-FILHO, M.; PROTÁSIO, T. de P. Tachigali vulgaris energy forests: understanding spacing, age, and stem type effects on tree growth patterns and wood density. New Forests, v. 54, n. 3, p. 491-513, 2023. Biblioteca(s): Embrapa Amazônia Oriental. |
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20. | | GAMBETTA, R.; MARQUES, R. M.; PARRELLA, R. A. da C.; MARAFON, A. C.; BASTOS, J.; WOJCIECKOWSKI, F. O. Produção de biogás a partir de biomassas lignocelulósicas sorgo e capim-elefante. In: ENCONTRO DE PESQUISA E INOVAÇÃO DA EMBRAPA AGROENERGIA, 7., 2023, Brasília, DF. Anais... Brasília, DF: Embrapa, 2023. p. 163. Biblioteca(s): Embrapa Agroenergia; Embrapa Milho e Sorgo; Embrapa Tabuleiros Costeiros. |
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Registro Completo
Biblioteca(s): |
Embrapa Amazônia Oriental. |
Data corrente: |
01/12/2023 |
Data da última atualização: |
01/12/2023 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 2 |
Autoria: |
MORAES, L. G.; LIMA, M. D. R.; ASSIS-PEREIRA, G.; GONÇALVES, D. de A.; VIDAURRE, G. B.; BUFALINO, L.; GUEDES, F. T. P.; TOMAZELLO-FILHO, M.; PROTÁSIO, T. de P. |
Afiliação: |
LARISSA GONÇALVES MORAES, UNIVERSIDADE FEDERAL RURAL DA AMAZÔNIA; MICHAEL DOUGLAS ROQUE LIMA, UNIVERSIDADE FEDERAL RURAL DA AMAZÔNIA; GABRIEL ASSIS-PEREIRA, UNIVERSIDADE DE SÃO PAULO; DELMAN DE ALMEIDA GONCALVES, CPATU; GRAZIELA BAPTISTA VIDAURRE, UNIVERSIDADE FEDERAL DO ESPÍRITO SANTO; LINA BUFALINO, UNIVERSIDADE FEDERAL RURAL DA AMAZÔNIA; FERNANDA TRISLTZ PERASSOLO GUEDES, UNIVERSIDADE DE SÃO PAULO; MÁRIO TOMAZELLO-FILHO, UNIVERSIDADE DE SÃO PAULO; THIAGO DE PAULA PROTÁSIO, UNIVERSIDADE FEDERAL RURAL DA AMAZÔNIA. |
Título: |
Forking and planting spacing impacts on wood density, X‑ray density, and heartwood proportion of Tachigali vulgaris. |
Ano de publicação: |
2023 |
Fonte/Imprenta: |
Trees, v. 37, p. 1567-1581, 2023. |
DOI: |
https://doi.org/10.1007/s00468-023-02443-z |
Idioma: |
Inglês |
Conteúdo: |
Promising Amazonia species for forest energy crops require further investigation into how silviculture affects wood quality. This study sought to investigate how planting spacing and stem type (forked and non-forked) affect the basic wood density, X-ray density, and heartwood development of Tachigali vulgaris in a homogeneous plantation in Amazonia. The experiment was established with initial planting spacings of 3.0 × 1.5 m, 3.0 × 2.0 m, 3.0 × 2.5 m, 3.0 × 3.0 m, 3.0 × 3.5 m, and 3.0 × 4.0 m. 102-month-old trees were harvested for the work. Disks sampled along the stem height were tested for wood basic density and density measured by X-ray densitometry (air-dry density by growth ring) analyses. Disks obtained at the 1.3 m height were photographed and submitted to image manipulation for heartwood/sapwood analysis. The lowest average wood density was 0.512 g cm−3 in the 3.0 × 1.5 m spacing, and the highest was 0.538 g cm−3 in the 3.0 × 4.0 m spacing. Among non-forked trees, 66% had medium-density (≥ 0.500 g cm−3) and 34% low-density (< 0.500 g cm−3) wood. In contrast, forked trees had only 55% of trees with medium-density wood. The X-ray density profiles reduced from 0.713 to 0.582 g cm−3 in the increasing longitudinal direction and from 0.393 to 0.973 g cm−3 in the radial direction. Forking did not influence the heartwood proportion (60.03–61.54%). The 3.0 × 3.0 m spacing favored the wood quality concerning density class and variability, while the widest spacings improved heartwood formation. The forking increases the chances of low-density wood and its variations along the stem. Thus, future genetic studies should focus on this phenomenon to increase the productivity of Tachigali vulgaris energy forests. MenosPromising Amazonia species for forest energy crops require further investigation into how silviculture affects wood quality. This study sought to investigate how planting spacing and stem type (forked and non-forked) affect the basic wood density, X-ray density, and heartwood development of Tachigali vulgaris in a homogeneous plantation in Amazonia. The experiment was established with initial planting spacings of 3.0 × 1.5 m, 3.0 × 2.0 m, 3.0 × 2.5 m, 3.0 × 3.0 m, 3.0 × 3.5 m, and 3.0 × 4.0 m. 102-month-old trees were harvested for the work. Disks sampled along the stem height were tested for wood basic density and density measured by X-ray densitometry (air-dry density by growth ring) analyses. Disks obtained at the 1.3 m height were photographed and submitted to image manipulation for heartwood/sapwood analysis. The lowest average wood density was 0.512 g cm−3 in the 3.0 × 1.5 m spacing, and the highest was 0.538 g cm−3 in the 3.0 × 4.0 m spacing. Among non-forked trees, 66% had medium-density (≥ 0.500 g cm−3) and 34% low-density (< 0.500 g cm−3) wood. In contrast, forked trees had only 55% of trees with medium-density wood. The X-ray density profiles reduced from 0.713 to 0.582 g cm−3 in the increasing longitudinal direction and from 0.393 to 0.973 g cm−3 in the radial direction. Forking did not influence the heartwood proportion (60.03–61.54%). The 3.0 × 3.0 m spacing favored the wood quality concerning density class and variability, while the widest spacings improved he... Mostrar Tudo |
Palavras-Chave: |
Energy forests; Tachigali vulgaris. |
Thesagro: |
Floresta; Madeira; Silvicultura. |
Thesaurus NAL: |
Silviculture; Wood quality. |
Categoria do assunto: |
K Ciência Florestal e Produtos de Origem Vegetal |
Marc: |
LEADER 02733naa a2200313 a 4500 001 2159006 005 2023-12-01 008 2023 bl uuuu u00u1 u #d 024 7 $ahttps://doi.org/10.1007/s00468-023-02443-z$2DOI 100 1 $aMORAES, L. G. 245 $aForking and planting spacing impacts on wood density, X‑ray density, and heartwood proportion of Tachigali vulgaris.$h[electronic resource] 260 $c2023 520 $aPromising Amazonia species for forest energy crops require further investigation into how silviculture affects wood quality. This study sought to investigate how planting spacing and stem type (forked and non-forked) affect the basic wood density, X-ray density, and heartwood development of Tachigali vulgaris in a homogeneous plantation in Amazonia. The experiment was established with initial planting spacings of 3.0 × 1.5 m, 3.0 × 2.0 m, 3.0 × 2.5 m, 3.0 × 3.0 m, 3.0 × 3.5 m, and 3.0 × 4.0 m. 102-month-old trees were harvested for the work. Disks sampled along the stem height were tested for wood basic density and density measured by X-ray densitometry (air-dry density by growth ring) analyses. Disks obtained at the 1.3 m height were photographed and submitted to image manipulation for heartwood/sapwood analysis. The lowest average wood density was 0.512 g cm−3 in the 3.0 × 1.5 m spacing, and the highest was 0.538 g cm−3 in the 3.0 × 4.0 m spacing. Among non-forked trees, 66% had medium-density (≥ 0.500 g cm−3) and 34% low-density (< 0.500 g cm−3) wood. In contrast, forked trees had only 55% of trees with medium-density wood. The X-ray density profiles reduced from 0.713 to 0.582 g cm−3 in the increasing longitudinal direction and from 0.393 to 0.973 g cm−3 in the radial direction. Forking did not influence the heartwood proportion (60.03–61.54%). The 3.0 × 3.0 m spacing favored the wood quality concerning density class and variability, while the widest spacings improved heartwood formation. The forking increases the chances of low-density wood and its variations along the stem. Thus, future genetic studies should focus on this phenomenon to increase the productivity of Tachigali vulgaris energy forests. 650 $aSilviculture 650 $aWood quality 650 $aFloresta 650 $aMadeira 650 $aSilvicultura 653 $aEnergy forests 653 $aTachigali vulgaris 700 1 $aLIMA, M. D. R. 700 1 $aASSIS-PEREIRA, G. 700 1 $aGONÇALVES, D. de A. 700 1 $aVIDAURRE, G. B. 700 1 $aBUFALINO, L. 700 1 $aGUEDES, F. T. P. 700 1 $aTOMAZELLO-FILHO, M. 700 1 $aPROTÁSIO, T. de P. 773 $tTrees$gv. 37, p. 1567-1581, 2023.
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