Free Access
Issue
Ann. For. Sci.
Volume 60, Number 3, April 2003
Page(s) 237 - 245
DOI https://doi.org/10.1051/forest:2003015

References

  1. Amateis R.L., Burkhart H.E., Zhang S., TRULOB: Tree Register Updating for Loblolly Pine (an individual tree growth and yield model for managed loblolly pine plantations). Coop. Rep. 83. Blacksburg, VA: Virginia Polytechnic Institute and State University, Departament of Forestry, Loblolly Pine Growth and Yield Cooperative, 1995.
  2. Assmann E., Untersuchungen über die Höhenkurven von Fichtenbeständen, AFJZ, 1943.
  3. Assmann E., The principles of Forest Yield Study, Pergamon Press, Oxford, 1970.
  4. Bailey R.L., Brooks J.R., Determining site index and estimating timber volumes without measuring heights, South. J. Appl. For. 18 (1994) 15-18.
  5. Bennett F.A., Clutter J.L., Multiple-product yield estimates for unthinned slash pine plantations-pulpwood, sawtimber, gum, U.S.D.A. For. Serv. Res. Pap. SE-35, 1968.
  6. Burkhart H.E., Strub M.R., A model for simulation of planted loblolly pine stands, in: Fries J. (Ed.), Growth Models for Tree and Stand Simulation, Royal College of Forestry, Research Note 30, Stockholm, 1974, pp. 128-135.
  7. Burnham K.P., Anderson D.R., Model selection and inference: a practical information-theoretic approach, Springer-Verlag, New York, 1998.
  8. Ca nadas N., García C., Montero G., Relación altura-diámetro para Pinus pinea L. en el Sistema Central, in: Actas del Congreso de Ordenación y Gestión Sostenible de Montes, 1999 (in press).
  9. Castedo F., Ruiz A.D., Álvarez González J.G., Modelización de la relación altura-diámetro para Pinus pinaster Ait. en Galicia mediante la función de densidad bivariante SBB, Investigación Agraria, Sistemas y Recursos Forestales 10 (2001) 111-126.
  10. Clutter J.L., Allison B.J., A growth and yield model for Pinus radiata in New Zealand, in: Fries J. (Ed.), Growth Models for Tree and Stand Simulation, Royal College of Forestry, Research Note 30, Stockholm, 1974, pp. 136-160.
  11. Cox F., Modelos parametrizados de altura, Informe de convenio de investigación interempresas, 1994.
  12. Curtis R.O., Height-diameter and height-diameter-age equations for second-growth Douglas-fir, For. Sci. 13 (1967) 365-375.
  13. Curtis R.O., Stand density measures: an interpretation, For. Sci. 16 (1970) 303-314.
  14. Gadow K.V., Waldwachstum. Beilage zur Vorlesung für das Sommersemester. Universität Göttingen, 2001.
  15. Gaffrey D., Forstamts-und bestandesindividuelles Sortimentie- rungsprogramm als Mittel zur Planung, Aushaltung und Simula- tion. Diplomarbeit Forscliche Fakultät, Universität Göttingen, 1988.
  16. Harrison W.C., Burk T.E., Beck D.E., Individual tree basal area increment and total height equations for Appalachian mixed hardwoods after thinning, South. J. Appl. For. 10 (1986) 99-104.
  17. Hartley H.O., The modified Gauss-Newton method for the fitting of nonlinear regression functions by least squares, Technometrics 3 (1961) 269-280.
  18. Hohenadl W., Die Bestandesmessung, Fw. Cbl., 1936.
  19. Huang S., Titus S.J., Wiens D., Comparison of nonlinear height- diameter functions for major Alberta tree species, Can. J. For. Res. 22 (1992) 1297-1304.
  20. Hui G., Gadow K.v., Modelling Forest Development, Kluwer Academic Publishers, 1999.
  21. Hui G., Gadow K.v., Zur Entwicklung von Einheitshöhenkurven am Beispiel der Baumart Cunninghamia lanceolata, AFJZ 164 (1993) 218-220.
  22. Johnson N.L., Bivariate distributions based on simple translation systems, Biometrika 36 (1949) 297-304.
  23. Krenn K., Die Bestandesmassenermittlung mit Hilfe stehender Probestämme, Frankfurt/M., 1944.
  24. Lappi J., A longitudinal analysis of Height/Diameter curves, For. Sci. 43 (1997) 555-570.
  25. Larsen D.R., Hann D.W., Height-diameter equations for seventeen tree species in southwest Oregon, Oreg. State. Univ. For. Res. Lab. 46, 1987.
  26. Laar A.v., Akça A., Forest Mensuration. 1. Aufl., Cuvillier Verlag, Göttingen, 1997.
  27. Lenhart J.D., Yield of old-field loblolly pine plantations in the Georgia Piedmont, Ph. D. Thesis, Univ. Ga., Athens, 1968.
  28. Michailoff J.L., Über die Anwendung der Methode der Kleinsten Quadrate bei der Aufstellung von Massentafeln mit einem Eingange, Skopie, 1951.
  29. Mirkovich J.L., Normale visinske krive za chrast kitnak i bukvu v NR Srbiji. Zagreb. Glasnik sumarskog fakulteta 13, 1958.
  30. Mønness E.N., Diameter distributions and height curves in even- aged stands of Pinus sylvestris L., Medd. No. Inst. Skogforsk 36 (1982) 1-43.
  31. Naslund M., Die Durchforstungsversuche der forstlichen Versuchsanstalt Schwedens im Krefernwald, M.S.S., 1937.
  32. Pascoa F., Estructura, crecimento e produçao em povoamentos de pinheiro bravo. Um modelo de simulaçao, Ph. D. thesis, Universidade Técnica de Lisboa, 1987.
  33. Pienaar L.V., PMRC Yield Prediction System for Slash Pine Plantations in the Atlantic Coast Flatwoods, PMRC Technical Report, Athens, 1991.
  34. Prodan M., Peters R., Cox F., Real P., Mensura Forestal. Instituto Interamericano de Cooperación para la Agricultura (IICA), Costa Rica, 1997.
  35. Sánchez F., Rodríguez R., Rojo A., Álvarez J., Resultados preliminares del estudio de curvas de calidad de estación y de los factores ecológicos implicados en la productividad de Pinus radiata D. Don en Galicia (Espa na), in: Actas del Primer Congreso Latinoamericano IUFRO: "El manejo sustentable de los recursos forestales, desafío del siglo XXI'', 1998.
  36. SAS INSTITUTE INC., SAS/STAT TM User's guide, Release 8.0 Edn, Cary, NC, USA, 1999.
  37. Schröder J., Álvarez González J.G., Developing a generalized diameter-height model for maritime pine in Northwestern Spain, Forstwissenschaftliches Centralblatt 120 (2001) 18-23.
  38. Sloboda V.B., Gaffrey D., Matsumura N., Regionale und lokale Systeme von Höhenkurven für gleichaltrige Waldbestände, Allg. Forst. Jagdztg. 164 (1993) 225-228.
  39. Speidel E., Beiträge zu den Wuchsgesetzen des Hochwaldes und der Durchforstunsglehre, Tübingen, 1983.
  40. Tomé M., Modelaçao do crescimento da árvore individual em povoamentos de Eucalyptus globulus Labill. (1 a rotaçao) na regiao centro de Portugal, Ph. D. Thesis, Instituto Superior de Agronomía, Lisboa, Portugal, 1989.
  41. Vanclay J.K., Modelling forest growth-applications to mixed tropical forests, CAB International, Wallingford, 1994.
  42. Zhang S.A., Burkhart H.E., Amateis R.L., The influence of thinning on tree height and diameter relationships in loblolly pine plantations, South. J. Appl. For. 21 (1997) 199-205.

Abstract

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