[ALLEN, C. D., A. K. MACALADY, H. CHENCHOUNI, D. BACHELET, N. MCDOWELL, M. VENNETIER, T. KIZBERGER, A. RIGLING, D. D. BRESHEARS, E. H. HOGG, P. GONZALEZ, R. FENSHAM, Z. ZHANG, J. CASTRO, N. DEMIDOVA, J. H. LIM, G. ALLARD, S.W. RUNNING, A. SEMERCI and N. COBB (2010): A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests. Forest Ecology and Management 259: 660-684.10.1016/j.foreco.2009.09.001]Search in Google Scholar
[BLANCO-GARCÍA, A., C. SÁENZ-ROMERO, C. MARTORELL, P. ALVARADO-SOSA and R. LINDIG-CISNEROS (2011): Nurse plant and mulching effects on three conifer species in a Mexican temperate forest. Ecological Engineering 37: 994-998.10.1016/j.ecoleng.2011.01.012]Search in Google Scholar
[CROOKSTON, N. L. and G. E. REHFELDT (2011): Research on Forest Climate Change: Potential Effects of Global Warming on Forests and Plant Climate Relationships in Western North America and Mexico. http://forest.moscowfsl.wsu.edu/climate/. Updated November 2011.]Search in Google Scholar
[GÓMEZ-MENDOZA, L. and L. ARRIAGA (2007): Modeling the effect of climate change on the distribution of oak and pine species of Mexico. Conservation Biology 21: 1545-1555.10.1111/j.1523-1739.2007.00814.x18173478]Search in Google Scholar
[LAUER, W. (1978): Timberline studies in central Mexico. Artic Alpine Res. 10: 383-396.10.2307/1550769]Search in Google Scholar
[LENOIR, J., J. C. GÉGOUT, P. A. MARQUET, P. de RUFFRAY and H. BRISSE (2008): A significant upward shift in plant species optimum elevation during the 20th century. Science 320: 1768-1771.10.1126/science.115683118583610]Search in Google Scholar
[MÁTYÁS, C. (2010): Forecasts needed for retreating forests. Nature 464: 1271.10.1038/4641271a20428144]Search in Google Scholar
[MÁTYÁS, C., I. BERKI, B. CZÚCZ, B. GÁLOS, N. MÓRICZ and E. RASZTOVITS (2010): Future of beech in Southern Europe from the perspective of evolutionary ecology. Acta Silvatica et Lignaria Hungarica 6: 91-110.]Search in Google Scholar
[PEÑUELAS, J., R. OYAGA, M. BOADA and A. S. JUMP (2007): Migration, invasion and decline: changes in recruitment and forest structure in a warming-linked shift of European beech forest in Catalonia (NE Spain). Ecography 30: 830-838.10.1111/j.2007.0906-7590.05247.x]Search in Google Scholar
[PERRY, J. P. (1991): The Pines of Mexico and Central America. Timber Press. Portland, Oregon, USA.]Search in Google Scholar
[REHFELDT, G. E. (1991): A model of genetic variation for Pinus ponderosa in the Inland Northwest (USA): applications in gene resource management. Can. J. For. Res. 21: 1491-1500.]Search in Google Scholar
[REHFELDT, G. E. (2006): A spline model of climate for the Western United States. Gen. Tech. Rep. RMRS-GTR-165. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fort Collins, Colorado, USA.]Search in Google Scholar
[REHFELDT, G. E., N. L. CROOKSTON, M.V. WARWELL and J. S. EVANS (2006): Empirical analyses of plant-climate relationship for the western United States. International Journal of Plant Sciences 167(6): 1123-1150.10.1086/507711]Search in Google Scholar
[REHFELDT, G., N. CROOKSTON, C. SÁENZ-ROMERO and E. CAMPBELL (2012): North American vegetation model for land-use planning in a changing climate: a solution to large classification problems. Ecological Applications 22: 119-141.10.1890/11-0495.122471079]Search in Google Scholar
[RICKER, M., G. GUTIÉRREZ-GARCÍA and D. C. DALY (2007): Modeling long-term tree growth curves in response to warming climate: test cases from a subtropical mountain forest and a tropical rainforest in México. Canadian Journal of Forest Research 37: 977-989.10.1139/X06-304]Search in Google Scholar
[SÁENZ-ROMERO, C., R. GUZMÁN-REYNA and G. E. REHFELDT (2006): Altitudinal genetic variation among Pinus oocarpa populations in Michoacán, México; implications for seed zoning, conservation of forest genetic resources, tree breeding and global warming. Forest Ecology and Management 229: 340-350.10.1016/j.foreco.2006.04.014]Search in Google Scholar
[SÁENZ-ROMERO, C. and B. L. TAPIA-OLIVARES (2008): Genetic variation in frost damage and seed zone delineation within an altitudinal transect of Pinus devoniana (Pinus michoacana) in Mexico. Silvae Genetica 57: 165-170.10.1515/sg-2008-0025]Search in Google Scholar
[SAÉNZ-ROMERO, C., G. E. REHFELDT, N. L. CROOKSTON, P. DUVAL, R. ST-AMANT, J. BEAULIEU and B. A. RICHARDSON (2010): Spline models of contemporary, 2030, 2060 and 2090 climates for Mexico and their use in understanding climate-change impacts on the vegetation. Climatic Change 102: 595-623.10.1007/s10584-009-9753-5]Search in Google Scholar
[SÁENZ-ROMERO, C., G. E. REHFELDT, P. DUVAL and R. A. LINDIG-CISNEROS (2012a): Abies religiosa habitat prediction in climatic change scenarios and implications for monarch butterfly conservation in Mexico. Forest Ecology and Management 275: 98-106.10.1016/j.foreco.2012.03.004]Search in Google Scholar
[SÁENZ-ROMERO, C., G. E. REHFELDT, J. C. SOTO-CORREA, S. AGUILAR-AGUILAR, V. ZAMARRIPA-MORALES and J. LÓPEZ-UPTON (2012b): Altitudinal genetic variation among Pinus pseudostrobus populations from Michoacán, Mexico. Two location shadehouse test results. Revista Fitotecnia Mexicana 35(2): 111-120.10.35196/rfm.2012.2.111]Search in Google Scholar
[SAS INSTITUTE INC. (2004): SAS/STAT Computer Software. Release 9.1. 3rd Edition. SAS Institute Inc, Cary, North Carolina, USA.]Search in Google Scholar
[TCHEBAKOVA, N. M., G. E. REHFELDT and E. I. PARFENOVA (2005): Impacts of climate change on the distribution of Larix spp. and Pinus sylvestris and their climatypes in Siberia. Mitigation and Adaptation Strategies for Global Change 11: 861-882.]Search in Google Scholar
[THOMAS, S. C. (2011). Genetic vs. phenotypic responses of trees to altitude. Tree Physiology 31: 1161-1163.]Search in Google Scholar
[TUKANEN, S. (1980) Climatic parameters and indices in plant geography. Acta Phytogreographica Suecica 67: 1-105.]Search in Google Scholar
[VIVEROS-VIVEROS, H., C. SÁENZ-ROMERO, J. J. VARGASHERNÁNDEZ, J. LÓPEZ-UPTON, G. RAMÍREZ-VALVERDE and A. SANTACRUZ-VARELA (2009): Altitudinal genetic variation in Pinus hartwegii Lindl. I: Height growth, shoot phenology, and frost damage in seedlings. Forest Ecology and Management 257: 836-842.10.1016/j.foreco.2008.10.021]Search in Google Scholar
[VIVEROS-VIVEROS, H., B. L. TAPIA-OLIVARES, C. SÁENZ -ROMERO, J. J. VARGAS-HERNÁNDEZ, J. LÓPEZ-UPTON, A. SANTACRUZ-VARELA and G. RAMÍREZ-VALVERDE (2010): Isoenzymatic variation of Pinus hartwegii Lindl. along an altitudinal gradient in Michoacán, México. Agrociencia 44: 723-733.]Search in Google Scholar