Hybridization of Quercus castanea (Fagaceae) across a red oak species gradient in Mexico

Valencia-Cuevas, Leticia; Mussali-Galante, Patricia; Castillo-Mendoza, Elgar; Rangel-Altamirano, Guadalupe; Tovar-Sánchez, Efraı́n

doi:10.1007/s00606-014-1151-4

Cited by 22 publications

(18 citation statements)

References 62 publications

(113 reference statements)

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“…For example, Valencia (1994) proposed that a group of oaks conformed by Q. affinis, Q. crassipes, Q. crassifolia, Q. laurina, Q. mexicana, and Q. rubramenta may experience genetic exchange when they occur in sympatric/mixed stands. This last scenario has been corroborated by Tovar-Sánchez and Oyama (2004) for the Q. crassipes × Q. crassifolia complex, González-Rodríguez et al (2004) for the Q. laurina × Q. affinis complex, and Valencia-Cuevas et al (2015) for Q. castanea, Q. laurina, and Q. crassifolia. The species mentioned above are distributed along the Mexican Valley, a fact that may facilitate the genetic exchange with Q. crassipes.…”

Section: Genetic Diversity Of Quercus Crassipes and Q Rugosasupporting

confidence: 51%

“…Oaks (Fagaceae, Quercus) are an ideal system to study the effects of host-plant species genetic diversity on their associated canopy communities because of their high levels of genetic variation (e.g., Tovar-Sánchez et al 2008;Valencia-Cuevas et al 2014, 2015; many of their species show a wide geographical distribution and canopy dominance (Valencia 2004), and constitute the habitat of different species. Therefore, some of them can be considered as foundation species.…”

Section: Introductionmentioning

confidence: 99%

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Effect of host-plant genetic diversity on oak canopy arthropod community structure in central Mexico

Tovar-Sánchez

Valencia-Cuevas

Mussali-Galante

et al. 2015

Rev. Chil. de Hist. Nat.

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Background: Recently it has been proposed that the genetic diversity of foundation species influences the structure and function of the community by creating locally stable conditions for other species and modulating ecosystem dynamics. Oak species are an ideal system to test this hypothesis because many of them have a wide geographical distribution, and they are dominant elements of the forest canopy. In this study we explored the response of canopy arthropod community structure (diversity and biomass) to the level of genetic diversity of Quercus crassipes and Q. rugosa, two important canopy species. Also, we examined the effect of oak species and locality on some community structure parameters (diversity, biomass, rare species, and richness of arthropod fauna) of canopy arthropods. In total, 160 canopies were fogged in four localities at the Mexican Valley (ten trees per species per locality per season). Results: Q. crassipes registered the highest number of rare species, diversity index, biomass, and richness in comparison with Q. rugosa. We found a positive and significant relationship between genetic diversity parameters and canopy arthropod diversity. However, canopy arthropod biomass registered an inverse pattern. Our results support the hypothesis that the genetic diversity of the host-plant species influences the assemblage of the canopy arthropod community. Conclusions: The pattern found in our study provides a powerful tool when trying to predict the effects of the genetic diversity of the host-plant species on different community structure parameters, which permits assignment of a new conservation status to foundation species based on their genetic diversity.

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Section: Genetic Diversity Of Quercus Crassipes and Q Rugosasupporting

confidence: 51%

Section: Introductionmentioning

confidence: 99%

Effect of host-plant genetic diversity on oak canopy arthropod community structure in central Mexico

Tovar-Sánchez

Valencia-Cuevas

Mussali-Galante

et al. 2015

Rev. Chil. de Hist. Nat.

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“…This is because many oak species can be considered foundation species due to their wide geographic distribution (Valencia 2004) and dominance in the canopy of forests (TovarSánchez et al 2013) and because they are habitat to different species. They also show a high frequency of natural hybridization (Curtu et al 2007;Peñaloza-Ramírez et al 2010;Valencia-Cuevas et al 2015), a condition that can promote an increase in genetic diversity (Tovar-Sánchez et al 2008;Valencia-Cuevas et al 2014) and the appearance of new features in host plants (Tovar-Sánchez and Oyama 2004) which can be exploited by arthropod communities. However, to date, there are few studies that have evaluated the structure of arthropod communities associated with the canopy of oaks from a genetic perspective.…”

Section: Reviewmentioning

confidence: 99%

“…Interspecific hybridization is a common phenomenon in plants (Whittemore and Schaal 1991;Avise 1994;Rieseberg 1995;López-Caamal and Tovar-Sánchez 2014), especially common among species of the genus Quercus (Curtu et al 2007;Peñaloza-Ramírez et al 2010;Valencia-Cuevas et al 2015). Particularly, for 20 years, the hybrid zones have been attractive as unique scenarios to study the effects of natural hybridization on plant-insect interactions (Fritz et al 1994(Fritz et al , 1998Whitham et al 1999;Wimp et al 2004;Yarnes et al 2008).…”

Section: Host Plant Hybridizationmentioning

confidence: 99%

“…Considering the high frequency of hybridization between species of oaks (Spellenberg 1995;Howard et al 1997;Tovar-Sánchez and Oyama 2004;Curtu et al 2007;Peñaloza-Ramírez et al 2010;Valencia-Cuevas et al 2015) and that hybrid host plants facilitate the establishment of herbivore species (Whitham 1989;Boecklen and Spellenberg 1990;Floate and Whitham 1993;Tovar-Sánchez and Oyama 2006a), one would expect that the change of host by herbivores between species of the genus Quercus would be well documented. However, actually, this subject has been little studied.…”

Section: Hybrid Bridges and Change Of Host Speciesmentioning

confidence: 99%

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Oak canopy arthropod communities: which factors shape its structure?

Valencia-Cuevas

Tovar-Sánchez

2015

Rev. Chil. de Hist. Nat.

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Canopy of forest ecosystems has been recognized as a habitat that supports a wide variety of plants, vertebrates, invertebrates, and microbes. Within the invertebrate group, arthropods are characterized by their great abundance, diversity, and functional importance. Particularly in temperate forests, species of the genus Quercus (oaks) are one of the most important tree canopy groups, for its diversity and dominance. Different studies have shown that the oak canopy contains a high diversity of arthropods suggesting their importance as habitat for this group of organisms. In this review, we investigated the factors that determine the establishment, organization, and maintenance of arthropod communities in the oak canopy. In general, it was found that there is a lack of literature that addresses the study of oak canopy arthropod communities. Also, the following patterns were found: (a) the research has covered a wide variety of topics; however, there are differences in the depth to which each topic has been analyzed, (b) there are ambiguous criteria to define the structure of the canopy, (c) groups with different habitat preferences belonging to different guilds and uneven development stages have been studied, avoiding generalizations about patterns found, (d) the standardization in sampling techniques and collection has been difficult, (e) bias exists towards the study of phytophagous insects belonging to the Coleoptera, Hymenoptera, and Lepidoptera orders, and (f) there are few studies in other groups of arthropods, for example, acorn borers, whose activity has an impact on the fitness and dispersion of the host plants. Finally, we propose that the detection and study of patterns in oak canopy communities can be of great value to propose management and conservation strategies in these forests.

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Influence of a climatic gradient on genetic exchange between two oak species

Bürge

Parker

Mulligan

et al. 2019

American J of Botany

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Premise In plant groups with limited intrinsic barriers to gene flow, it is thought that environmental conditions can modulate interspecific genetic exchange. Oaks are known for limited barriers to gene flow among closely related species. Here, we use Quercus as a living laboratory in which to pursue a fundamental question in plant evolution: Do environmental gradients restrict or promote genetic exchange between species? Methods We focused on two North American oaks, the rare Quercus dumosa and the widespread Q. berberidifolia. We sampled intensively along a contact zone in California, USA. We sequenced restriction site‐associated DNA markers and measured vegetative phenotype. We tested for genetic exchange, the association with climate, and the effect on phenotype. Results There is evidence for genetic exchange between the species. Admixed plants are found in areas of intermediate climate, while less admixed plants are found at the extremes of the climatic gradient. Genetic and phenotypic patterns are out of phase in the contact zone; some plants display the phenotype of one species but are genetically associated with another. Conclusions Our results support the hypothesis that a strong climatic gradient can promote genetic exchange between species. The overall weak correlation between genotype and phenotype in the contact zone between the species suggests that genetic exchange can lead to the breakdown of trait combinations used to define species. This incongruency predicts ongoing problems for conservation of Q. dumosa, with implications for conservation of other oaks.

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Hybridization of Quercus castanea (Fagaceae) across a red oak species gradient in Mexico

Cited by 22 publications

References 62 publications

Effect of host-plant genetic diversity on oak canopy arthropod community structure in central Mexico

Effect of host-plant genetic diversity on oak canopy arthropod community structure in central Mexico

Oak canopy arthropod communities: which factors shape its structure?

Influence of a climatic gradient on genetic exchange between two oak species

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