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Priority areas to collect germplasm of Malacomeles (Rosaceae) in Mexico based on diversity and species richness indices

Published online by Cambridge University Press:  11 May 2012

Carlos A. Núñez-Colín*
Affiliation:
Campo Experimental Bajío, Instituto Nacional de Investigaciones Forestales, Agrícolas y Pecuarias, km. 6.5 Carretera Celaya–San Miguel de Allende, Apartado Postal 112, Celaya, Guanajuato38110, México
Miguel Á. Hernández-Martínez
Affiliation:
Campo Experimental Bajío, Instituto Nacional de Investigaciones Forestales, Agrícolas y Pecuarias, km. 6.5 Carretera Celaya–San Miguel de Allende, Apartado Postal 112, Celaya, Guanajuato38110, México
Diana Escobedo-López
Affiliation:
Campo Experimental Bajío, Instituto Nacional de Investigaciones Forestales, Agrícolas y Pecuarias, km. 6.5 Carretera Celaya–San Miguel de Allende, Apartado Postal 112, Celaya, Guanajuato38110, México
Carlos Ortega-Rodríguez
Affiliation:
Plantel San Felipe, Instituto Tecnológico Superior de Irapuato, Prolongación 5 de Mayo S/N, Contiguo a la Colonia Florida, San Felipe, 37600Guanajuato, México
*
*Corresponding author. E-mail: lit007a@gmail.com

Abstract

The genus Malacomeles (Decne.) G. N. Jones (Rosaceae subtribe Pyrinae) represents several fruit shrubs, which is mainly distributed in North and Central America, from southern USA to Honduras and Guatemala, although the main distribution of this genus is in Mexico. Five species of the genus Malacomeles have been reported to exist in Mexico. Malacomeles is widely distributed in several mountainous ranges in Mexico, although it is unknown where most of the diversity of the Malacomeles genus is located in the country. The aim of this biogeographic study was to determine the areas of highest diversity of the genus Malacomeles in Mexico based on species richness and diversity indices in order to identify the best regions of Mexico to collect germplasm. The results indicated that most of the diversity of the genus Malacomeles is concentrated in northeast Mexico, mainly in the biogeographic province of Sierra Madre Oriental. In this province, the highest values on three biodiversity indices were found. Thus, this area can be considered as the priority area to collect the germplasm of Malacomeles. M. denticulata is the predominant and the most interesting species in Mexico from the viewpoint of collecting plant genetic resources; this species is mainly distributed in the provinces of Trans-Mexican Volcanic Axis, Mexican Plateau and Sierra Madre del Sur, where secondary priority areas to collect germplasm are located.

Type
Research Article
Copyright
Copyright © NIAB 2012

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References

Borys, MW and Leszczyñska-Borys, H (2001) El potencial genético frutícola de la república Mexicana. Coatepec Harinas: Fundación Salvador Sánchez Colín – CICTAMEX, p. 48.Google Scholar
Comisión Nacional para el Conocimiento y Uso de la Biodiversidad (CONABIO) (2011) Red Mundial de Información sobre la Biodiversidad-Especímenes (REMIB). In: Website of the Comisión Nacional para el Conocimiento y Uso de la Biodiversidad de México. Available at: http://www.conabio.gob.mx/remib/doctos/remib_esp.htlm (consulted 30 April 2011).Google Scholar
García, E (1988) Modificaciones al Sistema de Clasificación Climática de Köppen, para adaptarlo a las condiciones de la República Mexicana. Mexico City: Universidad Nacional Autónoma de México, p. 217.Google Scholar
Greene, CS (1975) A comparison of diversity indices. In: Bascom, WS (ed.) Coastal Water Research Project Annual Report Number 15. Segundo, CA: Southern California Coastal Water Research Project, pp. 7983.Google Scholar
Guarino, L, Jarvis, A, Hijmans, RJ and Maxted, N (2002) Geographic information systems (GIS) and the conservation and use of plant genetic resources. In: Engels, JMM, Ramanatha Rao, V, Brown, AHD and Jackson, MT (eds) Managing Plant Genetic Diversity. Rome: International Plant Genetic Resources Institute (IPGRI), pp. 387404.Google Scholar
Hernández-Martínez, MA, Espinosa-Trujillo, E and Núñez-Colín, CA (2010) Perspectivas del membrillo cimarrón (Amelanchier denticulata [Kunth] Koch) como un frutal alternativo para el centro de México. Journal of the Interamerican Society for Tropical Horticulture 54: 4953.Google Scholar
Hernández-Martínez, MA, Núñez-Colín, CA, Guzmán-Maldonado, SH, Espinosa-Trujillo, E and Herrera-Hernández, MG (2011) Variabilidad morfológica mediante caracteres de semilla de poblaciones de Amelanchier denticulta (Kunth) Koch, originarias de Guanajuato, México. Revista Chapingo Serie Horticultura 17: 161172.CrossRefGoogle Scholar
Hinton, J and Hinton, GS (1995) Checklist of Hinton's collections of the flora of south-central Nuevo Leon and adjacent Coahuila. Acta Botánica Mexicana 30: 41112.CrossRefGoogle Scholar
Hijmans, RJ, Guarino, L, Bussink, C, Mathur, P, Cruz, M, Barrantes, I and Rojas, E (2004) DIVA-GIS Versión 4. Sistema de información geográfica para el análisis de datos de distribución de especies, Guía de usuario. Lima: International Potato Center, p. 83.Google Scholar
Jones, GN (1945) Malacomeles, a genus of Mexican and Guatemalan shrubs. Madroño 8: 3339.Google Scholar
Mazza, G and Davidson, CG (1993) Saskatoon berry: a fruit crop for the prairies. In: Janick, J and Simon, JE (eds) New Crops. New York, NY: Wiley, pp. 516519.Google Scholar
Morrone, JJ (2005) Hacia una síntesis biogeográfica de México. Revista Mexicana de Biodiversidad 76: 207252.CrossRefGoogle Scholar
Núñez-Colín, CA (2009) The tejocote (Crataegus species): a Mexican plant genetic resource that is wasted: a review. Acta Horticulturae 806: 339346.CrossRefGoogle Scholar
Núñez-Colín, CA (2010) Distribución y caracterización eco-climática del membrillo cimarrón (Amelanchier denticulata (Kunth) Koch) en México. Revista Chapingo Serie Horticultura 16: 195206.CrossRefGoogle Scholar
Núñez-Colín, CA and Hernández-Martínez, MA (2011) The Mexican serviceberry (Amelanchier denticulata): a new potential berry fruit crop from semi-arid areas. Acta Horticulturae 918: 917924.CrossRefGoogle Scholar
Payne, JA and Krewer, GW (1990) Mayhaw: a new fruit crop for the south. In: Janick, J and Simon, JE (eds) Advances in New Crops. Portland: Timber Press, pp. 317321.Google Scholar
Phipps, JB (1997) Monograph of Northern Mexican Crataegus (Rosaceae, subfam. Maloideae). SIDA Botanical Miscellany 15: 194.Google Scholar
Phipps, JB, Robertson, KR, Smith, PG and Rohrer, JR (1990) A checklist of the subfamily Maloideae (Rosaceae). Canadian Journal of Botany 68: 22092269.CrossRefGoogle Scholar
Ramamoorthy, TP, Bye, R, Lot, A and Fa, J (1993) Biological Diversity of Mexico, Origins and Distribution. New York, NY: Oxford University Press, p. 812.Google Scholar
Robertson, KR, Phipps, JB, Rohrer, JR and Smith, PG (1991) A synopsis of genera in Maloideae (Rosaceae). Systematic Botany 16: 376394.CrossRefGoogle Scholar
Rzedowski, J and Calderón de Rzedowski, G (2005) Flora del Bajío y regiones adyacentes: Familia Rosaceae, Fascículo 135. Pátzcuaro: Instituto de Ecología A.C. Centro Regional del Bajío, 157 p.Google Scholar
Shen, TJ, Chao, A and Lin, CF (2003) Predicting the number of new species in further taxonomic sampling. Ecology 84: 798804.CrossRefGoogle Scholar
Stushnoff, C (1991) Amelanchier species. Acta Horticulturae 290: 549566.CrossRefGoogle Scholar
Turner, BL (2011) Recension of the genus Malacomeles (Rosaceae). Phytologia 93: 99106.Google Scholar
Vibrans, H, Hanan Alipi, AM, Mondragón Pichardo, J and Tenorio Lezama, P (2006) Ficha técnica de Amelanchier denticulata (Kunth) K. Koch. In: Vibrans, H (ed.) Malezas de México. Available at: http://www.conabio.gob.mx/malezasdemexico/rosaceae/amelanchier-denticulata/fichas/ficha.htm#1.%20Nombres. Mexico City: Comisión Nacional para el Conocimiento y Uso de la Biodiversidad (CONABIO).Google Scholar
Villarreal-Quintanilla, JA and Encina-Domínguez, JA (2005) Plantas vasculares endémicas de Coahuila y algunas áreas adyacentes, México. Acta Botánica Mexicana 70: 146.Google Scholar
Villaseñor, JL (2003) Diversidad y distribución de las Magnoliophyta de México. Interciencia 28: 160168.Google Scholar
Villaseñor, JL, Maeda, P, Rosell, JA and Ortiz, E (2007) Plant families as predictors of plant biodiversity in Mexico. Diversity and Distributions 13: 871876.CrossRefGoogle Scholar
Zagaja, SW (1988) Exploración de recursos genéticos. In: Moore, JN and Janick, J (eds) Métodos genotécnicos en frutales. Mexico City: AGT Editor, pp. 312.Google Scholar
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