Pleistocene refugia in the Chihuahuan Desert: the phylogeographic and demographic history of the gymnosperm <i>Ephedra compacta</i>

Loera, Israel; Ickert‐Bond, Stefanie M.; Sosa, Victoria

doi:10.1111/jbi.13064

Cited by 34 publications

(30 citation statements)

References 80 publications

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“…According to vegetation records, pinyon‐juniper‐oak forest was the predominant vegetation of the Chihuahuan Desert at that time (van Devender, ; van Devender & Spaulding, ; Rebernig et al, ). This expansion around the time of the Last Glacial Maximum has been detected in other ENM studies on a number of plant groups in the Chihuahuan Desert (Angulo, Amarilla, Anton, & Sosa, ; Loera et al, ; Ruiz‐Sanchez et al, ; Scheinvar et al, ). Moreover, during the Pleistocene, cooler wetter climates were mostly present the Chihuahuan Desert, and mesic woodland essentially dominated the landscape (Holmgren, Penalba, Rylander, & Betancourt, ; MacKay & Elias, ).…”

Section: Discussionsupporting

confidence: 66%

“…Furthermore, instead of considering the Mexican Plateau as a centre of origin of the flora of the Chihuahuan Desert, phylogeographic research has hypothesized that the southern region of the Mexican Plateau acted as refugium for different plant lineages that migrated either from North or South America (Loera, Ickert‐Bond, & Sosa, ; Ruiz‐Sanchez, Rodriguez‐Gomez, & Sosa, ; Scheinvar, Gámez, Castellanos‐Morales, Aguirre‐Planter, & Eguiarte, ; Vásquez‐Cruz & Sosa, ).…”

Section: Introductionmentioning

confidence: 99%

“…Likewise climate change during the last glaciation in the Chihuahuan Desert has been documented, suggesting that wet conditions in the Pleistocene were attributed to winter rainfall in contrast with the current summer rainfall regime (Metcalfe, Say, Black, & McCulloch, ). The recorded effect of these climate changes in several plant groups suggests that the glacial‐interglacial cycles of the Pleistocene caused suitable habitat contraction and expansion probably affecting distribution range (Loera et al, ; Ruiz‐Sanchez et al, ; Scheinvar et al, ).…”

Section: Introductionmentioning

confidence: 99%

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Assembly and origin of the flora of the Chihuahuan Desert: The case of sclerophyllous Rosaceae

Vásquez‐Cruz

Sosa

2019

Journal of Biogeography

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Aim To test hypotheses on the origin and assembly of the flora of the Chihuahuan Desert using as a system the hard‐leaved shrubby lineages of the Rosaceae distributed in North American Deserts. Location North American Deserts, Chihuahuan Desert, Mexican Plateau, Tehuacán Valley. Taxa Rosaceae, Amygdaloideae (Amelanchier paniculata, Lindleya mespiloides, Malacomeles denticulata, Vauquelinia angustifolia, Vauquelinia australis, Vauquelinia corymbosa, Xerospiraea hartwegiana), Dryadoideae (Cercocarpus fothergilloides, Cercocarpus pringlei, Cercocarpus rzedowskii, Purshia plicata) Methods Phylogenetic analyses were conducted based on nine chloroplast and nuclear molecular markers of eleven newly sequenced species of Rosaceae distributed in the Chihuahuan Desert along with previous sequences of 41 species in 25 genera representative of the major clades in the family. Based on phylogeny, divergence times, migration, vicariance events and ancestral biogeographic areas were determined. Ecological niche‐based modelling will predict changes in distribution during Pleistocene climate oscillations. Traitgrams were constructed to visualize departure among lineages in the most significant climate variables. Results The lineages studied diverged during the Eocene‐Oligocene (53–33 Mya). The ancestral area for most of the taxa was in the Mojave and Chihuahuan Deserts. Most dispersal events occurred from the Mojave Desert to the central area of the Chihuahuan Desert on the Mexican Plateau. Ecological niche‐based modelling suggests a contraction of suitable habitat during the Last Interglacial period (~120,000–140,000 years), followed by expansion during the Last Glacial Maximum (~22,000 years) and the Middle Holocene (~6,000 years). Main conclusions Our results confirm the Axelrod's hypothesis of an origin of the flora of the Chihuahuan Desert in SW North America migrating to occupy North American arid lands. Vicariance and the expansion of arid lands allowed divergence, migration and permanence of the lineages studied on the Mexican Plateau. Divergence occurred prior to the onset of aridification. The Mexican Plateau acted as a refuge for hard‐leaved lineages during the Miocene. Shifts in ecological niches of related species allowed them to colonize new areas with different temperatures and precipitation. Current distribution of lineages is the most limited.

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Section: Discussionsupporting

confidence: 66%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Assembly and origin of the flora of the Chihuahuan Desert: The case of sclerophyllous Rosaceae

Vásquez‐Cruz

Sosa

2019

Journal of Biogeography

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“…Overall, results of current ENM and palaeomodeling show that the area currently occupied by studied species is substantially larger than it was during the LIG period and the LGM, suggesting that it has been gradually expanding northward since the LIG period. Previous phylogeographic studies that included plant populations of the Valles Centrales and the Tehuaca´n-Cuicatla´n Valley have shown that their ranges contracted during interglacials and then expanded to colonize northern xeric regions during the glacial periods (the Meztitla´n Valley and the Chihuahuan Desert; e.g., Loera, Ickert-Bond, & Sosa, 2017;Ruiz-Sanchez et al, 2012;Scheinvar et al, 2017) or expanded during the warm/humid LIG period and contracted to one or more southerly refugia during cold/dry glacial maxima (Cornejo-Romero et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Genetic Differentiation and Fragmentation in Response to Climate Change of the Narrow Endemic Psittacanthus auriculatus

Ornelas

Licona-Vera

Vásquez-Aguilar

2018

Tropical Conservation Science

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The state of Oaxaca is positioned in a rather unique biogeographical position with the highest diversity of vascular plants in Mexico. The isolation of xeric valleys surrounded by complex mountain ranges in Oaxaca supplies an excellent opportunity to investigate the influence of the Pleistocene events on xeric species. To test for the alternative hypotheses of Pleistocene glacial refugia, we used sequences of two chloroplast markers to examine the phylogeographic patterns of the endemic mistletoe species Psittacanthus auriculatus (Loranthaceae) across its known range in Oaxaca and conducted ecological niche modeling (ENM) to explore changes of its distribution range through present, future, and palaeo periods. Our results revealed two groups corresponding to the distribution of individuals/populations from the northern locations (western valleys), and those from southern localities at central valleys of Oaxaca. A significant genetic signal of differentiation, demographic stability, and contraction of suitable habitat during the Last Glacial Maximum predicted by ENMs strongly supported a scenario of habitat fragmentation during the Late Pleistocene. We conclude that the genetic differentiation of P. auriculatus is consistent with a model of range contraction during glacial cycles and expansion during interglacials with no major range changes under future scenarios of climate change. The findings verified the profound effects of Pleistocene climatic fluctuations on this endemic mistletoe species, and the low genetic diversity within populations highlights, paradoxically, the urgency of preserving vulnerable populations of endemic yet parasitic mistletoes.

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“…There is evidence that arid environments have experienced drastic climate changes during the last glacial period (Metcalfe, 2006), especially during the Last Inter Glacial (LIG; 1.2×10 5 -1.4×10 5 years ago) and the Last Glacial Maximum (LGM; about 2.2×10 4 years ago) periods. Some studies show that several native species from arid environments have had changes in their distribution range in response to past climatic fluctuations, as is the case of Berberis trifoliolata (Berberidaceae; Angulo et al, 2017), Ephedra compacta (Ephedraceae; Loera et al, 2017), Larrea tridentata (Zygophyllaceae; Hunter et al, 2001) and Lindleya mespiloides (Rosaceae; Vásquez-Cruz and Sosa, 2016). Because T. frutescens is mainly distributed in arid environments, it is likely that those climatic oscillations affected its distribution range.…”

Section: Introductionmentioning

confidence: 99%

A look into the past, present and future potential distributions of Talinopsis frutescens, a North American endemic lineage closely related to Cactaceae

Miguel-Vázquez

Ocampo

2019

J. Arid Land

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Talinopsis frutescens (Anacampserotaceae, a family that is close related to Cactaceae) is a succulent species endemic to North America. The aim of this study was to explore, using Ecological Niche Modeling (ENM), changes in potential distribution ranges considering different climate scenarios: past conditions during the Last Inter Glacial (LIG) and the Last Glacial Maximum (LGM), the present and projections for 2070 (RCP 2.6 to 8.5). A pattern of contraction is observed during the LIG, which agrees with other studies focused in species from arid environments. This pattern was followed by a migration towards the south during the LGM and a possible recent expansion to the north as is observed in the present scenario. All future projections show the same contraction and fragmentation patterns, resulting in three discontinuous areas: the northern part of the Chihuahuan Desert, the southern-central part of the Mexican Plateau, and the smallest one in the Tehuacán-Cuicatlán Valley. Our projections for future scenarios agree with other studies and support that global climate change tends to alter the current distribution of arid environment species.

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Pleistocene refugia in the Chihuahuan Desert: the phylogeographic and demographic history of the gymnosperm Ephedra compacta

Cited by 34 publications

References 80 publications

Assembly and origin of the flora of the Chihuahuan Desert: The case of sclerophyllous Rosaceae

Assembly and origin of the flora of the Chihuahuan Desert: The case of sclerophyllous Rosaceae

Genetic Differentiation and Fragmentation in Response to Climate Change of the Narrow Endemic Psittacanthus auriculatus

A look into the past, present and future potential distributions of Talinopsis frutescens, a North American endemic lineage closely related to Cactaceae

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