Diagrama de manejo da densidade para povoamento de Pinus taeda L. manejado sem desbast

Paulo Sérgio Pigatto Schneider, Frederico Dimas Fleig, Paulo Renato Schneider, César Augusto Guimarães Finger, Djalma Millers Chaves, Antônio Maurício Moreira


igual a 0,00034, não significativo a 0,01% de probabilidade, demonstrando que os valores reais e os estimados não diferem estatisticamente entre si.


diagrama; sem desbaste; densidade; <i>Pinus taeda</i>

Texto completo:



ARCHIBALD, D. J.; BOWLING, C. Jack pine density management diagram for boreal Ontario. Northeast Science & Technology, NEST Technical Note TN-005. 1995, 19p.

BURKHART, H. E. Estimating growth and mortality. Virginia: Virginia Polytechnic Institute and State University, 1974. 15p.

CELLINI, J. M. et al. Modelos de perfil de tronco en Nothofagus pumilio (Polp. et Endl.) Krasser y su utilización en el cálculo del volumen total. Invest. Agr.: Sist. Recur. For., Ministerio de Agricultura, Instituto Forestal de Investigaciones y Experiencias, Madrid, v.11, n.2, p.245-261, 2002.

DEAN, T. J.; JOKELA, E. J. A density-management diagram for slash pine plantations in the lower coast plain. Southern Journal of Applied Forestry, Society of American Foresters, v.16, n.4, p.51-54, november, 1992.

DEL RIO, M.; MONTERO, G.; BRAVO, F. Analysis of diameter-density relationships and self-thinning in non-thinned even-aged Scots pine stands. Forest Ecology and Management, Amsterdan, v.142, p.79-87, march, 2001.

DREW, T. J.; FLEWELLING, J. W. Some recent Japanese theories of yield density relationships and their application to Monterey pine plantations. Forest Science, Bethesda, v.23, n.4, p.517-534, december, 1977.

DREW, T. J.; FLEWELLING, J. W. Stand density management: an alternative approach and its application to Douglas-fir plantations. Forest Science, Bethesda, v.25, n.3, p.518-532, september,1979.

GINRICH, S. F. Measuring and evaluating stocking and stand density in upland harwood forests in the central states. Forest Science, Bethesda, v.13, n.1, p.38-53, mach, 1967.

HARRINGTON, T. B. Silvicultural approaches for thinning Southern Pines: Method, intensity and timing. USA. University of Georgia. Publ. n. FSP001. 17p. 1997.

LEE, Y. L. Predicting mortality for even-aged stands of lodgepole pine. Forestry Chronicle, Mattawa, v. 47, n.1, p.29-32, 1971.

LONG, J. N.; SMITH, F. W. Relation between size and density in developing stands: a description and possible mechanisms Forest Ecology and Management, Amsterdan, v.7, p.191-206, january, 1985.

MOTTA, F. S.; BEIRSDORF, M. J. C.; GARCEZ, R. B. Zoneamento agrícola do Rio Grande do Sul e Santa Catarina: normas agro-climáticas. Pelotas: Ministério da Agricultura. 1971. 80p.

OSAWA, A.; ALLEN, R. B. Allometric theory explains self-thinning relationships of mountain beech and Red pine. Ecology, v.74, n.4, p.1020-1032, april, 1993.

PALAHI, M.; MIIMA, J.; MONTERO, E. Stand-level yield model for scots pine (Pinus sylvestris L.) in north-east Spain. Invest. Agr. Sist. Recur. For., Ministerio de Agricultura, Instituto Forestal de Investigaciones y Experiencias, Madrid, v.11, n.2, p.409-424. 2002.

REID, R. Silvicultural management of Australian blackwood (Acacia melanoxylon) in plantations and multi-purpose forests. In: GOVE, J. H. Structural stocking guides: a new look at an old friend. National Research Council Canada, Canadá, v.34, n.5, may, 2004.

REINEKE, L. H. Perfecting a stand-density index for even-aged forests. Candian Agricultural Research, Ottawa, v.46, p.627-638, 1933.

SANTA CATARINA. Gabinete de Planejamento e Coordenação Geral. Subchefia de Estatística. Geografia e Informática. Atlas de Santa Catarina, Rio de Janeiro: Aerofoto Cruzeiro. 1986. 173p.

SAS Institute Inc. SAS/STAT user’s guide. Version 8 (computer manual). SAS Institute Inc., Cary. N.C. 1999.

SMITH, D. J.; WOODS, M. E. Red pine and white pine density management diagrams for Ontario. Tech. Rep. n.48. Ontario Ministry of Natural Resources, Southcentral Sciences Division, Sault Ste. Marie, ON. 1997. 31p.

SMITH, N. J.; HANN, D. W. A growth model based on the self-thinning rule. Canadian Journal of Forest Research, New Westminster, v.16, n.2, p.330-334, april, 1986.

STERBA, H.; MONSERUD, R.A. The maximum density concept applied to uneven-aged mixed-species stands. Forest Science, Bethesda, v.39, n.3, p.432-452, august, 1993.

TANG, S. et al. A growth and self-thinning model for pure even-aged stands: theory and applications. Forest Ecology and Management. Amsterdan, v.70, p.67-73, december, 1994.

TANG, S.; MENG, F. R.; MENG, C. H. The impact of initial stand density and site index on maximum stand density index and self-thinning index in a stand self-thinning model. Forest Ecology and Management, Amsterdan, v.75, p.61-68, july, 1995.

WEST, P. W.; BOUROUGH, C. J. Tree supervision and the self-thinning. Rule in a monoculture of Pinus radiata D.Don. Annals of Botany, Oxford, v.52, p.149-158. 1983.

WESTOBY, M. The place of the self-thinning rule in population dynamics. American Naturalist, Chicago, v.118, n.4, p.581-587, october, 1981.

YODA, K. et al. Self-thinning in over crowed pure stands under cultivated and natural conditions. Journal Biological. Osaka, v.14, p.107-129, 1963.

ZEIDE, B. Analysis of the 3/2 power law of self-thinning. Forest Science, Bethesda, v.33, n.2, p.17-537, june, 1987.

ZEIDE, B. Self-thinning and stand density. Forest Science, Bethesda, v.37, n.2, p.517-523, june, 1991.

ZEIDE. B. Tolerance and self-tolerance of trees. Forest Ecology and Management, Amsterdan, v.13, p.149-166, november, 1985.

DOI: http://dx.doi.org/10.5902/19805098898

Licença Creative Commons