2017
DOI: 10.7717/peerj.3932
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Influence of current climate, historical climate stability and topography on species richness and endemism in Mesoamerican geophyte plants

Abstract: BackgroundA number of biotic and abiotic factors have been proposed as drivers of geographic variation in species richness. As biotic elements, inter-specific interactions are the most widely recognized. Among abiotic factors, in particular for plants, climate and topographic variables as well as their historical variation have been correlated with species richness and endemism. In this study, we determine the extent to which the species richness and endemism of monocot geophyte species in Mesoamerica is predi… Show more

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Cited by 56 publications
(53 citation statements)
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“…Patterns of WE and WPE were similar, and particularly for endemism are consistent with earlier research on a number of taxonomic groups: (i) ferns, in which species richness was identified in the SE and in Chiapas, and weighted endemism in several areas in the Sierra Madre Oriental, in the Trans‐Mexican Volcanic Belt and Sierra Madre del Sur (Sanginés‐Franco et al, ); (ii) gymnosperms, for which areas of endemism coincided in the Sierra Madre Oriental and a small area in Oaxaca (Contreras‐Medina & Luna‐Vega, ); (iii) the monocot tribe Tigridieae (Iridaceae), for which endemism coincided in the eastern part of the Trans‐Mexican Volcanic Belt and the Sierra Madre Oriental, as well as in the Tehuacán Valley and in the Sierra Madre del Sur (Munguía‐Lino et al, ); (iv) oaks, Quercus spp., for which areas of endemism were identified in the Sierra Madre Occidental and in the Trans‐Mexican Volcanic Belt (Rodríguez‐Correa et al ); (v) the genus Bursera in which three areas of endemism were identified on the Central Mexican Pacific Coast, in the western Balsas River Basin and in the Tehuacán Valley (De‐Nova et al, ; Gámez et al, ); and (vi) cacti from the Chihuahuan Desert where high degrees of endemism were identified on the Mexican Plateau, as well as in the southern area of the Sierra Madre Oriental (Hernández & Gómez‐Hinostrosa, ). In addition, for one functional group, the monocot geophytes, significant areas of endemism were identified in the Trans‐Mexican Volcanic Belt, the Sierra Madre Oriental, and in the Tehuacán Valley, which also agrees with our results (Sosa & Loera, ). Moreover, the southernmost mountainous area in the Baja California peninsula was identified as having high degree of endemism (Riemann & Ezcurra, ).…”
Section: Discussionsupporting
confidence: 92%
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“…Patterns of WE and WPE were similar, and particularly for endemism are consistent with earlier research on a number of taxonomic groups: (i) ferns, in which species richness was identified in the SE and in Chiapas, and weighted endemism in several areas in the Sierra Madre Oriental, in the Trans‐Mexican Volcanic Belt and Sierra Madre del Sur (Sanginés‐Franco et al, ); (ii) gymnosperms, for which areas of endemism coincided in the Sierra Madre Oriental and a small area in Oaxaca (Contreras‐Medina & Luna‐Vega, ); (iii) the monocot tribe Tigridieae (Iridaceae), for which endemism coincided in the eastern part of the Trans‐Mexican Volcanic Belt and the Sierra Madre Oriental, as well as in the Tehuacán Valley and in the Sierra Madre del Sur (Munguía‐Lino et al, ); (iv) oaks, Quercus spp., for which areas of endemism were identified in the Sierra Madre Occidental and in the Trans‐Mexican Volcanic Belt (Rodríguez‐Correa et al ); (v) the genus Bursera in which three areas of endemism were identified on the Central Mexican Pacific Coast, in the western Balsas River Basin and in the Tehuacán Valley (De‐Nova et al, ; Gámez et al, ); and (vi) cacti from the Chihuahuan Desert where high degrees of endemism were identified on the Mexican Plateau, as well as in the southern area of the Sierra Madre Oriental (Hernández & Gómez‐Hinostrosa, ). In addition, for one functional group, the monocot geophytes, significant areas of endemism were identified in the Trans‐Mexican Volcanic Belt, the Sierra Madre Oriental, and in the Tehuacán Valley, which also agrees with our results (Sosa & Loera, ). Moreover, the southernmost mountainous area in the Baja California peninsula was identified as having high degree of endemism (Riemann & Ezcurra, ).…”
Section: Discussionsupporting
confidence: 92%
“…Georeferences were obtained following two approaches. For the vascular non‐endemic species we consulted the Global Biodiversity Information Facility (GBIF) (http://www.gbif.org), and for endemic species, records were supplemented with: (i) our previous research (Sosa & De‐Nova, ; Gándara & Sosa, ; Sosa & Loera, ); (ii) consulting specimens from Mexican herbaria (ANSM, ENCB, IBUG, IEB, MEXU, and XAL; acronyms based on Thiers, , http://sweetgum.nybg.org/science/ih/); and (iii) consulting additional biodiversity databases such as SEINet (http://swbiodiversity.org/seinet), and Tropicos (http://www.tropicos.org). The identity of records was verified prior to their inclusion in the database.…”
Section: Methodsmentioning
confidence: 99%
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“…This pattern is similar to the results obtained by others (Cruz-C ardenas et al, 2013;Vargas-Amado et al, 2013;Mungu ıa-Lino et al, 2015;Villaseñor, 2016). The richness analyzes on the Mexican (Cu ellar-Mart ınez & Sosa, 2016) and Mesoamerican monocotyledonous geophytes (Sosa & Lorea, 2017) uncovered the same pattern.…”
Section: Areas Of Richnesssupporting
confidence: 89%