Abstract
The genus Polianthes (Agavaceae) is endemic to Mexico and is important at the scientific, economical, and cultural level since prehispanic times. Habitat destruction is one of the main factors affecting populations of Polianthes species, yet little is known about the geographic distribution of this genus, and thus its vulnerability to habitat change. We compared three different approaches to measure the Polianthes species area of distribution to assess the risk of species extinction applying the MER (Method of Evaluation of Risk extinction of wild species for Mexico): area of occupancy, extent of occurrence, and ecological modeling. We also found the richness areas of distribution of this genus. We compared the species distributions with Terrestrial Protected Regions (TPR) and Natural Protected Areas (NPA). Although the three methods used to calculate the species area of distribution agree about the highly restricted nature of Polianthes species. The area of occupancy sub-estimate the species distribution, while the extent of occurrence over-estimate it for species with disjoint distribution. Thus, we recommend the use of ecological modeling to improve the assessment of the current species distribution area to apply the MER. Most Polianthes species are distributed in the Sierra Madre Occidental and Transvolcanic Belt. Three species do not occur in any of the NPA or TPR, one species has suitable habitat in three TPR but has not been recorded there, and one species, P. palustris, is likely extinct.
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References
Anderson RP, Martínez-Meyer E (2004) Modeling species’ geographic distributions for preliminary conservation assessments: an implementation with the spiny pocket mice (Heteromys) of Ecuador. Biol Conserv 116:167–179
Arriaga L, Espinoza-Rodríguez JM, Aguilar-Zúñiga C, Martínez-Romero E, Gómez-Mendoza L, Loa-Loza E, Larson J (2000) Regiones prioritarias terrestres de México. Comisión Nacional para el Conocimiento y Uso de la Biodiversidad, México, DF
Austin MP (2002) Case studies of the use of environmental gradients in vegetation and fauna modelling: theory and practice in Australia and New Zealand. In: Scott JM, Heglund PJ, Morrison ML, Haufler JB, Raphael MG, Wall WA, Samson FB (eds) Predicting species occurrences. Issues of accuracy and scale. Island Press, London, pp 73–82
Brooks TM, Mittermeier RA, Mittermeier CG, da Fonseca GAB, Rylands AB, Konstant WR, Flick P, Pilgrim J, Oldfield S, Magin G, Hilton-Taylor C (2002) Habitat loss and extinction in the hotspots of biodiversity. Conserv Biol 16:909–923
Brown JH, Stevens GC, Kaufman DM (1996) The geographic range: size, shape, boundaries, and internal structure. Annu Rev Ecol Syst 27:597–623
Elith J, Graham C, Anderson RP, Dudik M, Ferrier S, Guisan A, Hijmans RJ, Huettmann F, Leathwick JR, Lehmann A, Li J, Lohmann LG, Loiselle BA, Manin G, Moritz C, Nakamura M, Nakazawa Y, Overton JMcC, Peterson AT, Phillips SJ, Richardson KS, Scachetti-Prereira R, Schapire RE, Soberón J, Williams S, Wisz MS, Zimmermann NE (2006) Novel methods improve prediction of species’ distributions from occurrence data. Ecography 29:129–151
Escalante PP, Navarro SA, Peterson AT (1993) A geographic, ecological and historical analysis of land bird diversity in Mexico. In: Ramamoorthy TP, Bye R, Lot A, Fa J (eds) The biological diversity of Mexico: origins and distribution. Oxford Press, New York, USA, pp 281–307
ESRI (1999) ArcView GIS ver 3.2. Environmental System Research Inc., USA
Fa JE, Morales LM (1993) Patterns of mammalian diversity in Mexico. In: Ramamoorthy TP, Bye R, Lot A, Fa J (eds) The biological diversity of Mexico: origins and distribution. Oxford Press, New York, USA, pp 319–361
Feria ATP, Peterson AT (2002) Prediction of bird community composition based on point-occurrence data and inferential algorithms: a valuable tool in biodiversity assessments. Divers Distrib 8:49–56
García-Mendoza A (1995) Riqueza y endemismos de la familia Agavaceae en México. In: Linares E, Chiang F, Bye R, Elias TS (eds) Conservación de Plantas en Peligro de extinción: Diferentes Enfoques. Instituto de Biología, Jardín Botánico, UNAM, México, DF, pp 51–75
García-Mendoza A (2004) Agaváceas. In: García-Mendoza AJ, Ordoñez MJ, Briones-Salas M (eds) Biodiversidad de Oaxaca. Instituto de Biología, UNAM-Fondo Oaxaqueño para la Conservación de la Naturaleza-Worldlife Fund, México, DF, pp 159–169
Guisan A, Zimmermann NE (2000) Predictive habitat distribution models in ecology. Ecol Model 135:147–186
Illoldi-Rangel P, Sánchez-Cordero V, Peterson AT (2004) Predicting distribution of Mexican mammals using ecological niche modeling. J Mammal 85:658–662
Instituto Nacional de Ecología (1999) Red del Sistema Nacional de Áreas Naturales Protegidas. México, DF
IUCN (1997) Cactus and succulent plants. Status survey and conservation plan. Sara Oldfield (comp). Gland, Switzerland and Cambridge, UK
Lim BK, Peterson AT, Engstrom MD (2002) Robustness of ecological niche modeling algorithms for mammals in Guyana. Biodivers Conserv 11:1237–1246
Lomolino MV, Riddle BR, Brown JH (2005) Biogeography. 3rd edn. Sinauer Associates, Inc, Sunderland, MA
Martínez-Meyer E, Peterson AT, Navarro Sigüenza AG (2004) Evolution of seasonal ecological niches in the Passerina buntings (Aves: Cardinalidae). Proc Roy Soc Lond B 271:1151–1157
Mas JF, Velásquez A, Díaz-Gallegos JR, Mayorga-Saucedo R, Alcantara C, Bocco G, Castro R, Fernández T, Pérez-Vega A (2004) Assessing land use/cover changes: a nationwide multidate spatial database for Mexico. Int J Appl Earth Observ Geoinform 5:249–261
McVaugh R (1989) Liliaceae. In: Anderson WR (ed) Flora Novo-Galiciana. A descriptive account of the vascular plants of western Mexico, vol.15. Annals arboretum. The University of Michigan Herbarium, USA, pp 20–293
Morrone JJ, Espinosa-Organista D, Llorente-Bousquets J (2002) Mexican biogeographic provinces: preliminary scheme, general characterizations, and synonymies. Acta Zool Mex 85:83–108
Nakazawa Y, Peterson AT, Martínez-Meyer E, Navarro-Sigüenza AG (2004) Seasonal niches of Neartic-Neotropical migratory birds: implications for the evolution of migration. Auk 121:610–618
Olson ME, Lomeli JA, Cacho I (2005) Extinction treat in the Pedilanthus clade (Euphorbia, Euphorbiaceae), with special reference to the recently rediscovered E. conzatti (P. pulchellus). Am J Bot 92:634–641
Ortega-Huerta MA, Peterson AT (2004) Modelling spatial patterns of biodiversity for conservation prioritization in North-eastern Mexico. Divers Distrib 10:39–54
Peterson AT (2001) Predicting species’ geographic distribution based on ecological niche modelling. Condor 103:599–605
Peterson AT, Cohoon KC (1999) Sensitivity of distributional prediction algorithms to geographical data completeness. Ecol Model 117:159–164
Peterson AT, Vieglais DA (2001) Predicting species invasions using ecological niche modelling. BioScience 51:363–371
Peterson AT, Watson M (1998) Problems with aerial definitions of endemism: the effects of spatial scaling. Divers Distrib 4:189–194
Peterson AT, Ball LG, Cohoon KC (2002a) Predicting distributions of tropical birds. Ibis 144(on-line):E27–E32
Peterson AT, Ortega-Huerta M, Bartley G, Sánchez-Cordero V, Soberón J, Buddemeier RH, Stockwell D (2002b) Future projections for Mexican faunas under global climate change scenarios. Nature 416:626–629
Ramamoorthy TP, Elliot M (1993) Mexican Lamiaceae. In: Ramamoorthy TP, Bye R, Lot A, Fa J (eds) The biological diversity of México: origins and distribution. Oxford Press, New York, USA, pp 513–539
Rapoport EH (1982) Aerographic-geographic strategies of species. Pergamon Press, New York
Raxworthy CJ, Martínez-Meyer E, Horning N, Nussbaum RA, Schneider GE, Ortega-Huerta MA, Peterson AT (2003) Predicting distributions of known and unknown reptile species in Madagascar. Nature 426:837–841
Sánchez-Cordero V, Cirelli V, Munguia M, Sarkar S (2005a) Place prioritization for biodiversity representation using species’ ecological niche modeling. Biodivers Inform 2:11–23
Sánchez -Cordero V, Iloldi-Rangel P, Linaje M, Sarkar S, Peterson AT (2005b) Deforestation and extant distributions of Mexican endemic mammals. Biol Conserv 126:465–473
SEMARNAT (Secretaría de Medio Ambiente y Recursos Naturales) (2002) Norma Oficial Mexicana NOM-059-ECOL-2001, Protección ambiental-Especies nativas de México de flora y fauna silvestres-Categorías de riesgo y especificaciones para su inclusión, exclusión o cambio-Lista de especies en riesgo. Diario Oficial de la Federación. 6 de marzo de 2002, Primera sección, México, DF
Soberón J, Peterson AT (2005) Interpretation of models of fundamental ecological niches and species’ distributional areas. Biodivers Inform 2:1–10
Solano CE (2000) Sistemática del género Polianthes L. (Agavaceae). Tesis de Doctorado. Facultad de Ciencias, División de Estudios de Posgrado, UNAM, México, DF
Stockwell D, Noble R (1992) Induction of sets of rules from animal distribution data a robust and informative method of data analysis. Math Comput Simul 33:385–390
Stockwell D, Peterson AT (2002) Effects of sample size on accuracy of species distribution models. Ecol Model 148:1–13
Stockwell D, Peterson AT (2003) Comparison of resolution of methods for mapping biodiversity patterns from point-occurance data. Ecol Ind 3:213–221
Valdés RJ, Cabral CI (1993) Chronology of Mexican grasses. In: Ramamoorthy TP, Bye R, Lot A, Fa J (eds) The biological diversity of Mexico: origins and distribution. Oxford Press, New York, USA, pp 439–446
Vargas JH, Consiglio T, Jørgensen PM, Croat TB (2004) Modelling distribution patterns in a species-rich plant genus, Anthurium (Araceae), in Ecuador. Divers Distrib 10:211–216
Willis F, Moat J, Paton A (2003) Defining a role for herbarium data in Red list assessments: a case study of Plectranthus from eastern and southern tropical Africa. Biodivers Conserv 12:1537–1552
Acknowledgements
This paper has been supported by Comision Nacional para el Conocimiento y Uso de la Biodiversidad (Conabio, project FB291/H-230/96), led by the first author. We thank Carlos Correa D., for his kind assistance during field work. We also thank Abisaí García-Mendoza, Bette Loiselle, Daniel Cadena, and Trish Consiglio for their helpful comments on this manuscript. Modeling was developed at GEOMATICA lab at FES Zaragoza, UNAM with the kind assistance of Eliseo Cantellano. Curators at the following herbaria were most helpful with specimen loans: A, CHAPA, ENCB, FEZA, GH, GUADA, HUAA, IEB, MICH, MEXU, NY, RSA, UAMIZ, UAT, US and XAL. Data were also gathered from REMIB.
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Solano, E., Feria, T.P. Ecological niche modeling and geographic distribution of the genus Polianthes L. (Agavaceae) in Mexico: using niche modeling to improve assessments of risk status. Biodivers Conserv 16, 1885–1900 (2007). https://doi.org/10.1007/s10531-006-9091-0
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DOI: https://doi.org/10.1007/s10531-006-9091-0