Influence of climatic variables on the radial increment of Pinus taeda L. growth rings

Authors

DOI:

https://doi.org/10.33448/rsd-v9i3.2472

Keywords:

Climate variables; Longitudinal analysis; Multivariate statistics; Dendrochronology; Forest increment.

Abstract

Pinus taeda is cultivated in different regions of the world under different climatic conditions. The research was carried out aimed to evaluate the influence of climatic variables on the radial increment of growth rings in Pinus taeda L. trees. The evaluations were carried out on trees grown in Guarapuava, southern central region of Paraná state, Brazil. The half-yearly increments of growth rings were measured separately in autumn and spring. Nine climatic variables were considered and used factorial analysis to identify possible influences on the development of growth rings. Principal component analysis (PCA) was applied to evaluate increment data in semiannual periods and longitudinal statistical analysis to evaluate the increment of the rings over different years. It has been found that this species presents radial increment of growth rings benefited by higher temperature and rainfall indices in the growing season itself or in period immediately preceding.

References

Barichivich, J., Sauchyn, D. J. & Lara, A. (2009). Climate signals in high elevation tree-rings from the semiarid Andes of north-central Chile: Responses to regional and large-scale variability. Palaeogeography, Palaeoclimatology, Palaeoecology, Long-term multi-proxy climate reconstructions and dynamics in South America (LOTRED-SA). State of the art and perspectives, 281(3–4), 320–333.

Borsato, V. A. (2011). A dinâmica atmosférica no centro-sul do Brasil no verão e as influências do El Niño oscilação sul (ENOS). Revista do Departamento de Geografia, 22(1), 135–157.

Caren, L. & Prestes, A. G. (2016). Dendroclimatological reconstruction of spring-summer precipitation for Fazenda Rio Grande, PR, with samples of Araucaria angustifolia (Bertol.) Kuntze. Revista Árvore, 40(2), 347–354.

IAPAR-Instituto Agronômico do Paraná. Class_clim (2017). Acesso em: 26 jan. 2018, em: <http://www.iapar.br/modules/conteudo/conteudo.php?conteudo=597>.

IBÁ-Indústria Brasileira de Árvores. (2016). Relatório anual. São Paulo-SP, 100p.

Inoue, M. T., Figueiredo Filho, A. & Lima, R. (2011). Influência do espaço vital de crescimento na altura e diâmetro de Pinus taeda L. Scientia Forestalis, Piracicaba, 9, n.91, 377-385.

Kanieski, M. R, Santos T. L., Graf Neto, J., Souza, T., Galvão, F. & Roderjan C.V. (2012). Influência da Precipitação e da Temperatura no Incremento Diamétrico de Espécies Florestais Aluviais em Araucária-PR. Floresta e Ambiente, 19(1), 17-25.

Khaledian, Y. Ebrahimi, S., Natesan, U. Basatnia, N., Nejad, B. B., Bagmohammadi, H. & Zeraatpisheh, M. (2018). Assessment of water quality using multivariate statistical analysis in the Gharaso River, Northern Iran. Urban ecology, water quality and climate change, (84)1, 227-253.

Knutti, R., Rogelj, J., Sedláček, J. & Fischer, E. M. (2016). A scientific critique of the two-degree climate change target. Nature Geoscience, 9(1)13–18.

Larson, P.R., Kretschmann, R. E., Isebrants, A. I. K. (2001). Formation and properties of juvenile wood in southern pines: a synopsis. Madison: USDA Forest Service, 42p.

Machado, S. A., Zamin, N. T., Nascimento, R. G. M., Santos, A. A. P. dos (2014). Efeito de Variáveis Climáticas no Crescimento Mensal de Pinus taeda e Araucaria angustifolia em Fase Juvenil. Floresta e Ambiente, (21)2, 170–181.

Maroco, J. (2011). Análise estatística com utilização do SPSS. Edições Sílabo, Lisboa (5ª ed.).

Mattos, P. P., Santos, A. T. dos, Oliveira, Y. M. M. de, & Rosot, M. (2007). Dendrocronologia de espécies da Floresta Ombrófila Mista do Município de Candói, PR. Pesquisa Florestal Brasileira, (54), 153–156.

Nascimento, L. P. do, Reis, D. A. dos, Roeser, H. M. P. & Fonseca, S. A. da F. (2019). Relationship between land use and water quality in a watershed impacted by iron ore tailings and domestic sewage. Revista Ambiente & Água, (14)5, e2383 – 1-11.

NOAA - National Oceanic And Atmospheric Adm. Climate Pred. Center. U.S.A., 2017. Acesso: 19 outubro/17, em: https://www.cpc.ncep.noaa.gov/products/precip/CWlink/MJO/enso.shtml

Oliveira, B. R. U.de, Latorraca, J. V. de F., Tomazello Filho, M., Garcia, R. A., Carvalho, A. A. M. de. (2011). Correlações dendroclimatológicas do Eucalyptus grandis Hill ex Madien na região de Rio Claro, RJ. Ciência Florestal, (21)3, 499–508.

Oliveira, F. L. de, Lima, I. L. de, Garcia, J. N. & Florshem, S. M. B. (2006). Propriedades da madeira de Pinus taeda L. em função da idade e posição radial na tora. Instituto Florestal de São Paulo, (18)1, 59–70.

Oliveira, J. M. de, Santarosa, E., Roig & Pilar, D. (2007). Amostragem Temporal de Anéis de Crescimento: Uma Alternativa para Determinar Ritmo de Atividade Cambial. Revista Brasileira de Biociências, (5)1, 615-617.

Reis, D. A. dos, Santiago, A. da F., Nascimento, L. P. do, Oliveira, E. G. de, Marques, L. S. & Roeser, H. M. P. (2017) Influência dos fatores ambientais e antrópicos nas águas superficiais no rio Matipó, afluente do rio Doce. Gestão de Águas da América Latina, (14)2, 2017.

Souza, M. J. H., Ribeiro, A., Leite, H. G., Leite, F. P., Minuzzi, R. B. (2006). Relationship between water availability and eucalyptus productivity at different ages in Guanhães region, Minas Gerais state. Revista Brasileira de Engenharia Agrícola e Ambiental, (10)3, 629–638.

Teixeira, L. A. R., Jadoski, S. O., Faggian, R., Sposito, V. & Mrázová, J. (2018). Estimativa das alterações de temperatura no ciclo de cultivo de trigo e cevada para o ano de 2050 em Guarapuava, Paraná-Brasil. Pesquisa Aplicada & Agrotecnologia, 11(3), 41-49.

Zanon, M. & Finger, C. (2010). Relação de variáveis meteorológicas com o crescimento das árvores de Araucaria angustifolia (Bertol.) Kuntze em povoamentos implantados. Ciência Florestal, (20)3, 467–476.

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Published

19/02/2020

How to Cite

BERNERT, M. R.; JADOSKI, S. O.; WATZLAWICK, L. F.; LIMA, V. A. de; ZERBIELI, L. C. Influence of climatic variables on the radial increment of Pinus taeda L. growth rings. Research, Society and Development, [S. l.], v. 9, n. 3, p. e84932472, 2020. DOI: 10.33448/rsd-v9i3.2472. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/2472. Acesso em: 28 apr. 2024.

Issue

Vol. 9 No. 3

Section

Agrarian and Biological Sciences

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