Free access
Ann. For. Sci.
Volume 62, Number 6, September-October 2005
Page(s) 493 - 501
References of Ann. For. Sci. 62 493-501
  1. Alexandrian D., Esnault F., Calabri G., Forest fires in the Mediterranean area, Unasylva 157, 1999.
  2. Asociación y colegio de Ingenieros de Montes, Cuadro de precios unitarios de la actividad forestal, Madrid, 2000.
  3. Bare B.B., Opalach D., Optimising species composition in uneven-aged forest stands, For. Sci. 33 (1987) 958-970.
  4. Bazaraa M.S., Shetty C.M., Nonlinear programming: Theory and algorithms, Wiley, New York, 1979.
  5. Caulfield J.P., A Stochastic Efficiency Approach for Determining the Economic Rotation of a Forest Stand, For. Sci. 34 (1988) 441-457.
  6. Clutter J.L., Forston J.C., Piennar L.V., Brister B.H., Bailey R.L., Timber management - a quantitative approach, Wiley, New York, 1983.
  7. Díaz Balteiro L., Prieto Rodríguez A., Modelos de planificación forestal basados en la programación lineal. Aplicación al monte "Pinar de Navafría" (Segovia), Investig. Agr. Recur. For. 8 (1999) 63-93.
  8. Dieter M., Land expectation values for spruce and beech calculated with Monte Carlo Modelling Techniques, For. Pol. Econ. 2 (2001) 157-166.
  9. Englin J., Baxall P., Hauer G., An empirical examination of optimal rotations in a multiple-use forest in the presence of fire risk, J. Agric. Res. Econ. 25 (2000) 14-27.
  10. Espelta J.M., Retana J., Habrouk A., An economic and ecological multi-criteria evaluation of reforestation methods to recover burned Pinus nigra forest in NE Spain, For. Ecol. Manage. 180 (2003) 185-198 [CrossRef].
  11. González J.R., Palahí M., Trasobares A., Pukkala T., A fire risk model for forest stands in Catalonia, Manuscript, 2005.
  12. Haight R.G., Monserud R.A., Optimizing any-aged management of mixed-species stands: II. Effects of decision criteria, For. Sci. 36 (1990) 125-144.
  13. Hooke R., Jeeves T.A., "Direct search" solution of numerical and statistical problems, J. Assoc. Comput. Mach. 8 (1961) 212-229.
  14. Lanly J.P., Foresterie circumméditerranéenne et coopération internationale, C. R. Acad. Agric. France 83 (1997) 55-64.
  15. Martell D.L., The Optimal rotation of a flammable forest stand, Can. J. For. Res. 10 (1980) 30-34.
  16. Montero M., Rojo A., Del Rio M., Aspectos selvícolas y económicos de los pinares de Pinus sylvestris L. en el Sistema Central, procedings of the open seminar: "Explotación y conservación del monte mediterráneo: una apuesta para el futuro", Universidad de Málaga, Ronda, Malaga, 1996.
  17. Möykkynen T., Miina J., Pukkala T., Optimizing the management of a Picea abies stand under risk of butt rot, For. Path. 30 (2000) 65-76.
  18. Palahí M., Modelling the stand development and optimising the management of even-aged Scots pine forests in north-east Spain, Doctoral thesis at the University of Joensuu, Finland, 2002, 58 p. + App.
  19. Palahí M., Pukkala T., Optimising the management of Scots pine (Pinus sylvestris L.) stands in Spain based on individual-tree models, Ann. For. Sci. 60 (2003) 105-114 [EDP Sciences] [CrossRef].
  20. Palahí M., Pukkala T., Miina J., Montero G., Individual-tree growth and mortality models for Scots pine (Pinus sylvestris L.) in north-east Spain, Ann. For. Sci. 60 (2003) 1-10 [EDP Sciences] [CrossRef].
  21. Palahí M., Tomé M., Pukkala T., Trasobares A., Montero G., Site Index model for Scots pine (Pinus sylvestris L.) in north-east Spain, For. Ecol. Manage. 187 (2003) 35-47.
  22. Pita Carpenter A., Tablas de cubicación por diámetros normales y alturas totales, Instituto Forestal de Investigaciones y Experiencias, Ministerio de Agricultura, Madrid, 1967.
  23. Pukkala T., Miina J., A method for stochastic multiobjective optimisation of stand management, For. Ecol. Manage. 98 (1997) 189-203 [CrossRef].
  24. Reed W.J., The effects of the risk of fire on the optimal rotation of a forest, J. Environ. Manage. 11 (1984) 180-190.
  25. Reed W.J., Errico D., Assessing the long-run yield of a forest stand subject to the risk of fire, Can. J. For. Res. 20 (1985) 961-969.
  26. Roise J.P., An approach for optimizing residual diameter class distributions when thinning even-aged stands, For. Sci. 32 (1986) 871-881.
  27. Routledge R.D., The effect of potential catastrophic mortality and other unpredictable events on optimal forest rotation policy, For. Sci. 26 (1980) 389-399.
  28. Scarascia-Mugnozza G., Oswald H., Piussi P., Radoglou K., Forests of the Mediterranean region: gaps in knowledge and research needs, For. Ecol. Manage. 132 (2000) 97-109 [CrossRef].
  29. Tábara D., La percepció dels problemes del medi ambient, Beta Editorial, Barcelona, 1996.
  30. Thorsen B., Helles F., Optimal stand management with endogenous risk of sudden destruction, For. Ecol. Manage. 108 (1998) 287-299 [CrossRef].
  31. Trasobares A., Pukkala T., Optimising the management of uneven-aged Pinus sylvestris L. and Pinus nigra Arn. Mixed stands in Catalonia, north-east Spain, Ann. For. Sci. 61 (2004) 747-758 [EDP Sciences] [CrossRef].
  32. Trasobares A., Pukkala T., Miina J., Growth and yield model for uneven-aged mixtures of Pinus sylvestris L. and Pinus nigra Arn. in Catalonia, north-east Spain, Ann. For. Sci. 61 (2004) 9-24 [EDP Sciences] [CrossRef].
  33. Valsta L., Possibilities to optimize stand treatment based on individual trees, Scand. For. Econ. 29 (1987) 151-160.
  34. Valsta L., A comparison of numerical methods for optimizing even aged stand management, Can. J. For. Res. 20 (1990) 961-969.
  35. Valsta L., An optimization model for Norway spruce management based on individual-tree growth models, Acta For. Fenn. 232 (1992) 1-20.
  36. Valsta L., Stand management optimization based on growth simulators, Research Notes Finnish Forest Research Institute 453 (1993) 51 + 81 p.
  37. Vélez R., Causes of forest fires in the Mediterranean Basin, EFI Proceedings 45 (2002) 35-42.