[Bawa, K. S., P. S. Ashton and S. M. Nor (1990): Reproductive ecology of tropical forest plants: management issues, pp 3–13. In: Reproductive Ecology of Tropical Forest Plants, edited by K. S. Bawa and M. Hadley, UNESCO, Paris.]Search in Google Scholar
[Becker, W. A. (1984): Manual of Quantitative Genetics, 4th Edition. Academic Enterprises, Pullman.]Search in Google Scholar
[Boivin-Chabot, S., H. A. Margolis and J. C. Weber (2004): Variation in coppice-shoot growth among provenances of Calycophyllum spruceanum Benth. in the Peruvian Amazon Basin. Forest Ecology and Management 198: 249–260.10.1016/j.foreco.2004.04.009]Search in Google Scholar
[Campbell, R. K. and F. C. Sorensen (1978): Effect of test environment on expression of clines and on delimitation of seed zones in Douglas-fir. Theoretical and Applied Genetics 51: 233–46.10.1007/BF00273770]Search in Google Scholar
[Cony, M. A. (1996): Genetic variability in Prosopis flexuosa D.C., a native tree of the Monte phytogeographic province, Argentina. Forest Ecology and Management 87: 41–49.10.1016/S0378-1127(96)03839-X]Search in Google Scholar
[Cornelius, J., F. Mesén, E. Corea and M. Henson (1996): Variation in growth and form of Alnus acuminata Kunth. grown in Costa Rica. Silvae Genetica 45: 24–30.]Search in Google Scholar
[Cornelius, J. and F. Mesén (1997): Provenance and family variation in growth rate, stem straightness, and foliar mineral concentration in Vochysia guatemalensis. Canadian Journal of Forest Research 27: 1103–1109.10.1139/x97-039]Search in Google Scholar
[Dvorak, W. S., H. Urueña, L. A. Moreno and J. Goforth (1998): Provenance and family variation in Sterculia apetala in Colombia. Forest Ecology and Management 111: 127–135.10.1016/S0378-1127(98)00316-8]Search in Google Scholar
[Encarnación, F. (1983): Nomenclatura de las Especies Forestales Comunes en el Perú. Proyecto PNUD/FAO/PER/81/002 Fortalecimiento de los Programas de Desarrollo Forestal en la Selva Central, Documento de Trabajo No. 7, Lima.]Search in Google Scholar
[Falconner, D. S. and T. F. C. Mackay (1996): Introduction to Quantitative Genetics. Addison Wesley Longman Limited, Edinburgh.]Search in Google Scholar
[FAO (2007): Bolaina blanca. Available from http://www.fao.org/ag/agl/agll/rla128/inia/inia-p4/inia-p4-10.htm.]Search in Google Scholar
[Ginwal, H. S., P. Kumar, V. K. Sharma, A. K. Mandal and C. E. Harwood (2004): Genetic variability and early growth performance of Eucalyptus tereticornis Sm. in provenance cum progeny trials in India. Silvae Genetica 53: 148–153.10.1515/sg-2004-0027]Search in Google Scholar
[Greaves, B. L., N. M. G. Borralho, C. A. Raymond, R. Evans and P. H. Whiteman (1997): Age-age correlations in, and relationships between basic density and growth in Eucalyptus nitens. Silvae Genetica 46: 264–270.]Search in Google Scholar
[Hamrick, J. L., M. J. Godt and S. L. Sherman Broyles (1992): Factors influencing levels of genetic diversity in woody plant species. New Forests 6: 95–124.10.1007/BF00120641]Search in Google Scholar
[Hodge, G. R., W. S. Dvorak, H. Urueña and L. Rosales (2002): Growth, provenance effects and genetic variation of Bombacopsis quinata in field tests in Venezuela and Colombia. Forest Ecology and Management 158: 273–289.10.1016/S0378-1127(00)00720-9]Search in Google Scholar
[Hodge, G. R. and W. S. Dvorak (2004): The CAMCORE international provenance/progeny trials of Gmelina arborea: genetic parameters and potential gain. New Forests. 28: 147–166.10.1023/B:NEFO.0000040942.34566.a7]Search in Google Scholar
[MacDonald, A. C., N. M. G. Borralho and B. M. Potts (1997): Genetic variation for growth and wood density in Eucalyptus globulus ssp. globulus in Tasmania (Australia). Silvae Genetica 46: 236–241.]Search in Google Scholar
[PROSEMA (2009): Asociación de Productores de Semilla Certificada, Plantones y Madera de Alta Calidad de la Cuenca del Aguaytía. Available from http://prosema.wordpress.com]Search in Google Scholar
[Rochon, C., H. A. Margolis and J. C. Weber (2007): Genetic variation in growth of Guazuma crinita (Mart.) trees at an early age in the Peruvian Amazon. Forest Ecology and Management 243: 291–298.10.1016/j.foreco.2007.03.025]Search in Google Scholar
[SAS Institute Inc. (2004): SAS/STAT Users’ Guide, version 9.1. SAS Institute Inc., Cary.]Search in Google Scholar
[Shimizu, J. Y., L. A. Spence, E. G. Martins and A. J. Araujo (2002): Genetic and phenotypic variations in early growth performances of grevillea trees for use in agroforestry systems. International Forestry Review 4: 28–132.10.1505/IFOR.4.2.128.17444]Search in Google Scholar
[Sotelo Montes, C., H. Vidaurre and J. C. Weber (2003): Variation in stem-growth and branch-wood traits among provenances of Calycophyllum spruceanum Benth. from the Peruvian Amazon. New Forests 26: 1–16.10.1023/A:1024425519480]Search in Google Scholar
[Sotelo Montes, C., R. Hernández, J. Beaulieu and J. C. Weber (2006): Genetic variation and correlations between growth and wood density of Calycophyllum spruceanum Benth. at an early age in the Peruvian Amazon. Silvae Genetica 55: 217–228.10.1515/sg-2006-0029]Search in Google Scholar
[Toledo, E. and C. Rincón (1996): Utilización Industrial de Nuevas Especies Forestales en el Perú. Cámara Nacional Forestal, Instituto Nacional de Recursos Naturales, Organización Internacional de las Maderas Tropicales, Lima.]Search in Google Scholar
[Valdivia, H. and C. Sotelo Montes (1993): Posibilidad de utilizar la madera rolliza de bolaina blanca (Guazuma crinita Mart.) como material de construcción. Revista Forestal del Perú 20: 87–93.]Search in Google Scholar
[Weber, J. C. and C. Sotelo Montes (2005): Variation and correlations among stem growth and wood traits of Calycophyllum spruceanum Benth. from the Peruvian Amazon. Silvae Genetica 54: 31–41.10.1515/sg-2005-0005]Search in Google Scholar
[Weber, J. C. and C. Sotelo Montes (2008): Variation in tree growth and wood density of Guazuma crinita Mart. in the Peruvian Amazon. New Forests 36: 29–52.10.1007/s11056-007-9080-5]Search in Google Scholar
[Weber, J. C., C. Sotelo Montes, J. Ugarte and A. J. Simons (2009): Phenotypic selection of Calycophyllum spruceanum on farms in the Peruvian Amazon: evaluating a low-intensity selection strategy. Silvae Genetica 58: 172–179.10.1515/sg-2009-0023]Search in Google Scholar