Free Access
Issue |
Ann. For. Sci.
Volume 64, Number 6, September 2007
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Page(s) | 609 - 619 | |
DOI | https://doi.org/10.1051/forest:2007039 | |
Published online | 06 September 2007 |
References of
Ann. For. Sci. 64 (2007) 609-619
- Álvarez Álvarez P., Viveros forestales y uso de planta en repoblación en Galicia, Ph.D. thesis, Universidade de Santiago de Compostela, 2004.
- Álvarez González J.A., Castedo F., Ruiz A.D., López C., Gadow K.v., A two-step mortality model for even-aged stands of Pinus radiata D. Don in Galicia (Northwestern Spain), Ann. For. Sci. 61 (2004) 439-448 [CrossRef] [EDP Sciences].
- Amaro A., Reed D.D., Themido I., Tomé M., Stand growth modelling for first rotation Eucalyptus globulus Labill. in Portugal, in: Amaro A., Tomé M. (Eds.), Empirical and process-based models for forest tree and stand growth simulation, 1997, pp. 99-110.
- Amaro A., Tomé M., Themido I., ALBA, un modelo de crescimento em área basal para povoamentos de eucalipto, in: Puertas F., Rivas M. (Eds.), II Congreso Forestal Español-Irati 97, 1997, vol. IV, pp. 39-44.
- Amateis R.L., Modeling response to thinning in loblolly pine plantations, South. J. Appl. For. 24 (2000) 17-22.
- Amateis R.L., Radtke P.J., Burkhart H.E., TAUYIELD: A stand-level growth and yield model for thinned and unthinned loblolly pine plantations, Va. Polytech. Inst. State Univ. Sch. For. Wildl. Resour. Report No. 82, 1995.
- Bailey R.L., Clutter J.L., Base-age invariant polymorphic site curves, For. Sci. 20 (1974) 155-159.
- Bailey R.L., Ware K.D., Compatible basal area growth and yield model for thinned and unthinned stands, Can. J. For. Res. 13 (1983) 563-571.
- Barrio M., Castedo F., Diéguez-Aranda U., Álvarez González J.G., Parresol B.R., Rodríguez R., Development of a basal area growth system for maritime pine in northwestern Spain using the generalized algebraic difference approach, Can. J. For. Res. 36 (2006) 1461-1474 [CrossRef].
- Bates D.M., Watts D.G., Nonlinear regression analysis and its applications, John Wiley & Sons, New York, 1988.
- Bertalanffy L.v., Problems of organic growth, Nature 163 (1949) 156-158.
- Bertalanffy L.v., Quantitative laws in metabolism and growth, Q. Rev. Biol. 32 (1957) 217-231 [PubMed].
- Cao Q.V., Burkhart H.E., Lemin R.C. Jr., Diameter distributions and yields of thinned loblolly pine plantations, Va. Polytech. Inst. State Univ. Sch. For.Wildl. Resour. Publ. FWS-1-82, 1982.
- Castedo F., Modelo dinámico de crecimiento para las masas de Pinus radiata D. Don en Galicia. Simulación de alternativas selvícolas con inclusión del riesgo de incendio, Ph.D. thesis, Universidad de Santiago de Compostela, 2004.
- Castedo F., Álvarez González J.G., Construcción de una tarifa de cubicación con clasificación de productos para Pinus radiata D. Don en Galicia basada en una función de perfil del tronco, Invest. Agrar.: Sist. Recur. For. 9 (2000) 253-268.
- Castedo F., Diéguez-Aranda U., Barrio M., Sánchez Rodríguez M., Gadow K.v., A generalized height-diameter model including random components for radiata pine plantations in Northwestern Spain, For. Ecol. Manage. 229 (2006) 202-213 [CrossRef].
- Chikumbo O., Mareels I.M., Turner B.J., Predicting stand basal area in thinned stands using a dynamic model, For. Ecol. Manage. 116 (1999) 175-187 [CrossRef].
- Cieszewski C.J., Three methods of deriving advanced dynamic site equations demonstrated on inland Douglas-fir site curves, Can. J. For. Res. 31 (2001) 165-173 [CrossRef].
- Cieszewski C.J., Comparing fixed-and variable-base-age site equations having single versus multiple asymptotes, For. Sci. 48 (2002) 7-23.
- Cieszewski C.J., Developing a well-behaved dynamic site equation using a modified Hossfeld IV function Y3 = (axm)/(c + xm-1), a simplified mixed-model and scant subalpine fir data, For. Sci. 49 (2003) 539-554.
- Cieszewski C.J., GADA derivation of dynamic site equations with polymorphism and variable asymptotes from Richards, Weibull, and other exponential functions. University of Georgia PMRC-TR 2004-5, 2004.
- Cieszewski C.J., Bailey R.L., Generalized algebraic difference approach: theory based derivation of dynamic equations with polymorphism and variable asymptotes, For. Sci. 46 (2000) 116-126.
- Cieszewski C.J., Harrison M., Martin S.W., Practical methods for estimating non-biased parameters in self-referencing growth and yield models, University of Georgia PMRC-TR 2000-7, 2000.
- Clutter J.L., Compatible growth and yield models for loblolly pine, For. Sci. 9 (1963) 354-371.
- Clutter J.L., Jones E.P., Prediction of growth after thinning in old-field slash pine plantations, USDA For. Serv. Res. Pap. SE-217, 1980.
- Clutter J.L., Fortson J.C., Pienaar L.V., Brister H.G., Bailey R.L., Timber management: a quantitative approach, John Wiley & Sons, Inc. New York, 1983.
- Diéguez-Aranda U., Burkhart H.E., Rodríguez R., Modelling dominant height growth of radiata pine (Pinus radiata D. Don) plantations in northwestern Spain, For. Ecol. Manage. 215 (2005) 271-284 [CrossRef].
- Diéguez-Aranda U., Castedo F., Álvarez González J.G., Funciones de crecimiento en área basimétrica para masas de Pinus sylvestris L. procedentes de repoblación en Galicia, Invest. Agrar.: Sist. Recur. For. 14 (2005) 253-266.
- Espinel S., Cantero A., Sáenz D., Un modelo de simulación para rodales de Pinus radiata D. Don en el País Vasco, in: Puertas F., Rivas M. (Eds.), II Congreso Forestal Español- Irati 97, 1997, vol. IV, pp. 201-206.
- Falcao A., DUNAS - A growth model for the National Forest of Leiría, in: Amaro A., Tomé M. (Eds.), Empirical and process-based models for forest tree and stand growth simulation, 1997, pp. 145-153.
- Fonseca T.J.F., Modelação do crescimento, mortalidade e distribuição diamétrica, do pinhal bravo no vale do Tâmega, Ph.D. thesis, Universidade de Trás-os-Montes e Alto Douro, 2004.
- Gadow K.v., Real P., Álvarez González J.G., Modelización del crecimiento y la evolución de los bosques, IUFRO World Series, vol. 12, Vienna, 2001.
- García O., A stochastic differential equation model for the height growth of forest stands, Biometrics 39 (1983) 1059-1072.
- Hamilton C.J., The effects of high intensity thinning on yield, Forestry 54 (1981) 1-15 [CrossRef].
- Hasenauer H., Burkhart H.E., Amateis R.L., Basal area development in thinned and unthinned loblolly pine plantations, Can. J. For. Res. 27 (1997) 265-271 [CrossRef].
- Hein S., Dhôte J.F., Effect of species composition, stand density and site index on the basal area increment of oak trees (Quercus sp.) in mixed stands with beech (Fagus sylvatica L.) in Northern France, Ann. For. Sci. 63 (2006) 457-467 [CrossRef] [EDP Sciences].
- Hirsch R.P., Validation samples, Biometrics 47 (1991) 1193-1194 [PubMed].
- Hossfeld J.W., Mathematik für Forstmänner, Ökonomen und Cameralisten (Gotha, 4. Bd., S. 310), 1822.
- Hynynen J., Predicting the growth response to thinning for Scots pine stands using individual-tree growth models, Silva. Fenn. 29 (1995) 225-247.
- Knoebel B.R., Burkhart H.E., Beck D.E., A growth and yield model for thinned stands of yellow-poplar, For. Sci. Monograph 27, 1986.
- Kotze H., Vonck D., A growth simulator and pruning scheduler for Pinus patula in Mpumalanga-North Province, South Africa, in: Amaro A., Tomé M. (Eds.), Empirical and process-based models for forest tree and stand growth simulation, 1997, pp. 205-221.
- Kozak A., Kozak R.A., Does cross-validation provide additional information in the evaluation of regression models? Can. J. For. Res. 33 (2003) 976-987 [CrossRef].
- Krumland B., Eng H., Site index systems for major young-growth forest and woodland species in northern California, Cal. Dep. Forestry and Fire Protection, Calif. For. Rep. No. 4, 2005.
- Lei Y., Modelling forest growth and yield of Eucalyptus globulus Labill. in central-interior Portugal, Ph.D. thesis, Universidade de Trás-os-Montes e Alto Douro, 1998.
- López Sánchez C.A., Gorgoso J., Castedo F., Rojo A., Rodríguez R., Álvarez J.G., Sánchez F., A height-diameter model for Pinus radiata D. Don in Galicia (Northwest Spain), Ann. For. Sci. 60 (2003) 237-245 [CrossRef] [EDP Sciences].
- Lundqvist B., On the height growth in cultivated stands of pine and spruce in Northern Sweden, Medd. Fran Statens Skogforsk. Band 47 (1957) 1-64.
- Matney T.G., Sullivan A.D., Compatible stand and stock tables for thinned and unthinned loblolly pine stands, For. Sci. 28 (1982) 161-171.
- McDill M.E., Amateis R.L., Measuring forest site quality using the parameters of a dimensionally compatible height growth function, For. Sci. 38 (1992) 409-429.
- McTague J.P., Bailey R.L., Compatible basal area and diameter distribution models for thinned loblolly pine plantations in Santa Catarina, Brazil, For. Sci. 33 (1987) 43-51.
- Myers R.H., Classical and modern regression with applications, 2nd ed., Duxbury Press, Belmont, California, 1990.
- Northway S.M., Fitting site index equations and other self-referencing functions, For. Sci. 31 (1985) 233-235.
- Pienaar L.V., An approximation of basal area growth after thinning based on growth in unthinned plantations, For. Sci. 25 (1979) 223-232.
- Pienaar L.V., Shiver B.D., An analysis and models of basal area growth in 45-year-old unthinned and thinned slash pine plantation plots, For. Sci. 30 (1984) 933-942.
- Pienaar L.V., Shiver B.D., Basal area prediction and projection equations for pine plantations, For. Sci. 32 (1986) 626-633.
- Pienaar L.V., Turnbull K.J., The Chapman-Richards generalization of von Bertalanffy's growth model for basal area growth and yield in even-aged stands, For. Sci. 19 (1973) 2-22.
- Pienaar L.V., Shiver B.D., Grider G.E., Predicting basal area growth in thinned slash pine plantations, For. Sci. 31 (1985) 731-741.
- Richards F.J., A flexible growth function for empirical use, J. Exp. Bot. 10 (1959) 290-300 [CrossRef].
- Rodríguez R., Sánchez F., Gorgoso J., Castedo F., López C., Gadow K.v., Evaluating standard treatment options for Pinus radiata plantations in Galicia (north-western Spain), Forestry 75 (2002) 273-284 [CrossRef].
- Ryan T.P., Modern regression methods, John Wiley & Sons, New York, 1997.
- Sánchez F., Rodríguez R., Rojo A., Álvarez J.G., López C., Gorgoso J., Castedo F., Crecimiento y tablas de producción de Pinus radiata D. Don en Galicia, Invest. Agrar.: Sist. Recur. For. 12 (2003) 65-83.
- Sánchez J., Methodology to increase resolution of the Growth and Yield simulator for Pinus radiata D. Don in Chile, in: Álvarez J.G., Goulding C., Rojo A., Rodríguez R., Zoralioglu T., Ruiz A.D. (Eds.), Proceedings of the IUFRO Conference: The economics and management of high productivity plantations, 2004.
- SAS Institute Inc., SAS/ETS 9.1 User's Guide. Cary, NC: SAS Institute Inc., 2004.
- SAS Institute Inc., SAS/STAT 9.1 User's Guide. Cary, NC: SAS Institute Inc., 2004.
- Sharma M., Smith M., Burkhart H.E., Amateis R.L. Modeling the impact of thinning on height development of dominant and codominante trees, Ann. For. Sci. 63 (2006) 349-354 [CrossRef] [EDP Sciences].
- Sullivan A.D., Clutter J.L., A simultaneous growth and yield model for loblolly pine, For. Sci. 18 (1972) 76-86.
- Tomé M., Falcao A., Amaro A., Globulus V1.0.0: A regionalised growth model for Eucalypt plantations in Portugal, in: Ortega A., Gezan S. (Eds.), Proceedings of the IUFRO Conference: Modelling growth of fast-grown tree species, 1997, pp. 138-145.
- Tomé M., Ribeiro F., Soares P., O modelo Globulus 2.1, Universidad Técnica de Lisboa-ISA, Relatórios Técnico-científicos do GIMREF n° 1, 2001.
- Van Laar A., Akça A., Forest Mensuration. Cuvillier Verlag, Göttingen, 1997.
- Woollons R.C., Hayward W.J., Revision of a growth and yield model for radiata pine in New Zealand, For. Ecol. Manage. 11 (1985) 191-202 [CrossRef].
- Xunta de Galicia, O monte galego en cifras. Dirección Xeral de Montes e Medio Ambiente Natural, Consellería de Medio Ambiente, Santiago de Compostela, 2001.
- Zarnoch S.J., Feduccia D.P., Baldwin V.C., Dell T.R., Growth and yield predictions for thinned and unthinned slash pine plantations on cutover sites in the West Gulf region, USDA Forest Service Res. Pap. SO-264, 1991.