WOOD POTENTIAL OF 33-YEAR-OLD Corymbia citriodora FOR PULP AND PAPER IN THREE SOIL TYPES
DOI:
https://doi.org/10.24278/2178-5031.202032207Palabras clave:
Wood fbers, Quartzarenic neossol, Red latosol, Red nitosol, Wood densityResumen
The pulp and paper industry is important to the Brazilian economy. In the present study, we investigated Corymbia citriodora wood in three soil types: Quartzarenic Neossol, Red Latosol and Red Nitosol. We aimed to determine how differences in physical, chemical and water-holding capacity among these three types of soils can cause changes in wood density and anatomical ratios in C. citriodora wood, important parameters in the production of pulp and paper. We used standard techniques in the methodology. Soil types did infuence wood quality and could be used as a factor in considering the fnal quality of the product. Corymbia citriodora wood have not previously been considered for use in paper/pulp production. However, if we consider wood density as a key factor, wood from Red Nitosol - NV trees can be used since lower basic densities were identifed and are most appropriate for the production of printing and writing paper, owing to fber features. Otherwise, woods from Quartzarenic Neossol - RQ and Red Latosol - LV trees are more suitable for absorbent paper (tissue). We found that more clayey soil promotes lower basic density, and NV soil was found to be the most clayey of the studied soils. Based on nutritional information from soil, it appears that wood from LV soil trees would be the most suitable for present fewer problems in production. However, to be sure of this tentative conclusion, the contents of these nutrients would have to be analyzed in wood ash.
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AGNIHOTRI, A.; DUTT, D.; TYAGI, C.H. Complete characterization of bagasse of early species of Saccharum offciherum-CO 89003 for pulp and paper making. Bioresources, v. 5, n. 2, p. 1197-1214, 2010.
ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS - ABNT. NBR 11941-02: determinação da densidade básica em madeira. Rio de Janeiro, 2003.
BAAS, P. et al. Evolution of xylem physiology. In: POOLE, I., HEMSLEY, A. (Eds.). Evolution of Plant Physiology. London: Elsevier Academic Press, 2004. p. 273-295.
BALDIN, T. et al. Anatomia da madeira e potencial de produção de celulose e papel de quatro espécies jovens de Eucalyptus L’Hér. Ciência da Madeira, v. 8, n. 2, p. 114-126, 2017.
BEKTAS, I.; TUTUS, A.; EROGLU, H. A study of the suitability of Calabrian pine (Pinus brutia Ten.) for pulp and paper manufacture. Turkish Journal of Agriculture and Forestry, v. 23, p. 589-599, 1999.
BERLYN, G.P.; MIKSCHE, J.P. Botanical microtechnique and cytochemistry. Ames, Iowa: State University Press, 1976. 326p.
BOSCHETTI, W.T.N. et al. Características anatômicas para produção de celulose do lenho de reação de árvores inclinadas de eucalipto. Pesquisa agropecuária brasileira, v. 50, n. 6, p. 459-467, 2015.
BRACELPA - Confederação Nacional da Indústria. Associação Brasileira de Celulose e Papel. Florestas plantadas: oportunidades e desafos da indústria brasileira de celulose e papel no caminho da sustentabilidade. Brasília: CNI, 2012. 61p.
CASTRO, V.R. et al. The effect of soil nutrientes and moisture during ontogeny on apparent wood density of Eucalyptus grandis. Scientifc Reports, v. 10, p. 1-9, 2020.
CENTRO DE PESQUISAS METEOROLÓGICAS E CLIMÁTICAS APLICADAS À AGRICULTURA – CEPAGRI. Available at: <https://www.cpa.unicamp.br/;2019>. Accessed in: May 20th 2019.
CONFEDERATION OF EUROPEAN PAPER INDUSTRIES - CEPI. Pulping properties of hardwoods and softwood. 2019. Available at: <http://www.cepi.org/node/22335>. Accessed in: April 22th 2020.
CREMONEZ, V.G. et al. Wood basic density effect of Eucalyptus grandis in the paper making. Revista Matéria, v. 24, n. 3. p. 1-11, 2019.
EMPRESA BRASILEIRA DE PESQUISA AGROPECUÁRIA – EMBRAPA. Manual de métodos de análises de solo, 2 ed, Rio de Janeiro: Ministério da Agricultura e do Abastecimento, 1997. 212p.
______. WRB/FAO and Soil Taxonomy, Available at: <https://www.embrapa.br/solos/sibcs/correlacao-com-wrb-fao-e-soil-taxonomy/>. Accessed in: May 20th 2019.
EMPRESA BRASILEIRA DE PESQUISA AGROPECUÁRIA – EMBRAPA. Transferência de Tecnologia Florestal: Perguntas e Respostas. Available at: <https://www.embrapa.br/forestas/transferencia-de-tecnologia/eucalipto/perguntas-e-respostas>. Accessed in: May 13th 2020.
FENGEL, D.; WEGENER, G. Wood: chemistry, ultrastructure, reactions. Berlin: Walter de Gruyter, 1989. 632p.
FOELKEL, C.E.B. Eucalyptus online book & newsletter. São Paulo: Associação Brasileira Técnica de Celulose e Papel, 2009. 97p.
FOOD AND AGRICULTURE ORGANIZATION - FAO. Yearbook of Forest Products 2010-2014.2016. Available at: <http://www.fao.org/3/ai5542m.pdf>. Accessed in: May 13th 2020.
GURGEL-GARRIDO, L.M.A. et al. Programa de melhoramento genético forestal do Instituto Florestal. IF Série Registros, v. 18, p. 1-53, 1997.
HOADLEY, B. Understanding Wood: A Craftsman’s Guide to Wood Technology. Taunton Press Inc; 2nd Revised Edition, 2000. 288p.
HORA, A.B. Panoramas setoriais 2030: papel e celulose. In: Panoramas setoriais 2030: desafos e oportunidades para o Brasil. Rio de Janeiro: Banco Nacional de Desenvolvimento Econômico e Social, 2017. 79-91p.
HORN, R. Morphology of Pulp Fiber from Hardwoods and Infuence on Paper Strength. USDA Forest Service. Research Paper FPL 312, For. Prod. Lab., Madison, WI, USA. 1978. 11p.
IAWA COMMITTEE. IAWA list of microscopic features for hardwood identifcation. IAWA Bulletin, v.10, p. 219-332, 1989.
JOHANSEN, D. Plant microtechnique. New York: McGraw-Hill Book Company Inc.,1940. 523 p.
KIAEI, M.; TAJIK, M.; VAYSI, R. 2014. Chemical and biometrical properties of plum wood and its application in pulp and paper production. Maderas. Ciencia y tecnologia, v. 16, n. 3, p. 313-322, 2014.
LACHENBRUCH, B.; MOORE, J.R.; EVANS, R. Radial variation in wood structure and function in woody plants, and hypotheses for its occurrence. In:
MEINZER, F.C.; LACHENBRUCH, B.; DAWSON, T.E. (Eds.) Size-and age-related changes in tree structure and function. New York: Springer, 2011, p. 121-164.
MOKFIENSKI, A. et al. A importância relativa da densidade da madeira e do teor de carboidratos no rendimento de polpa e na qualidade do produto. Ciência Florestal, v. 18, n. 3, p. 401-413, 2008.
OGUNJOBI, K.M.; ADETOGUN, A.C.; SHOFIDIYA, S.A. Investigation of pulping potentials of waste from conversion of Anogeissus leiocarpus. Journal of Polymer and Textile Engineering, v. 1, n. 2, p. 26-30, 2014.
OHSHIMA, J. et al. Representative heights for assessing whole-tree values and the within-tree variations of derived wood properties in Eucalyptus camaldulensis and E. globulus. Wood Fibre Science, v. 37, n. 1, p. 51-65, 2005.
PIRRALHO, M.et al. Evaluation on paper making potential of nine Eucalyptus species based on wood anatomical features. Industrial Crops and Products, v. 54, p. 327–334, 2014.
RAIJ, B. VAN. et al. Análise química para avaliação da fertilidade de solos tropicais. Campinas: Instituto Agronômico, 2001. 285p.
RIGATTO, P.A.; DEDECEK, R.A.; MATOS, J.L.M. Infuência dos atributos do solo sobre a qualidade da madeira de Pinus taeda para produção de celulose kraft. Revista Árvore, v. 28, n. 2, p. 267-273, 2004.
ROSSI, M. et al. Caracterização do Meio Físico da Estação Experimental de Luiz Antônio: Ênfase em Solos. Relatório Interno do Instituto Florestal, 2016. 38p.
SAIKIA, S.N.; GOSWAMI, T.; ALI, F. Evaluation of pulp and paper making characteristics of certain fast growing plants. Wood Science and Technology, v. 31, p. 467-475, 1997.
SANSÍGOLO, C.A.; RAMOS, E.S. Quality of wood and pulp from a clone of Eucalyptus grandisplanted at three locations. Cerne, v. 17, n. 1, p. 47-60, 2011.
SANTOS, S.D.; SANSÍGOLO, C.A. Infuência da densidade básica da madeira de clones de Eucalyptus grandis x Eucalyptus urophylla na qualidade da polpa branqueada. Ciência Florestal, v. 17, n. 1, p. 53-63, 2007.
TAPPI. Preparation of mechanical pulps for testing (Revision of T 262 sp-02), 2006. 10p. Available at: <https://www.tappi.org/content/sarg/t262.pdf>. Accessed in: October 18th 2019
