Stephanie Guzman-Valencia scite author profile

Stephanie Guzman-Valencia

4Publications

37Citation Statements Received

96Citation Statements Given

How they've been cited

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125

Affiliations

Colegio de Postgraduados

Publications

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Species diversity of thrips (Thysanoptera) in selected avocado orchards from Mexico based on morphology and molecular data

Bravo-Pérez

Santillán-Galicia

Johansen-Naime

et al. 2018

Journal of Integrative Agriculture

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Avocado is one of the most important crops in the world, and Mexico is the largest producer of this fruit. Several insect pests affect its production, and thrips are amongst the most important. A key step in the design of control methods is accurate species identification. Despite this, formal reports on species diversity of thrips in Mexico are very scarce. Morphological identification can sometimes be time-consuming and inconclusive. Therefore, we explored the species diversity of thrips in Mexican avocado orchards (Michoacan state) based on partial sequences of the mitochondrial gene cytochrome oxidase subunit I (COI). Forty-four specimens were analysed, which represented approximately 8% of all individuals collected from five localities distributed in three Municipalities. All specimens were analysed using the COI marker, and specimens within the genera Frankliniella were also analysed using a marker within the D2 domain of the 28S (28SD2) nuclear ribosomal DNA. Molecular identifications were confirmed using morphological taxonomy. Overall, six genera were found (Neohydatothrips, Scirtothrips, Frankliniella, Arorathrips, Caliothrips and Leptothrips). All genera contained only one species, except Frankliniella, for which there were six species. Data from the two molecular markers suggest the existence of cryptic species within Mexican F. occidentalis populations.

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Contrasting effects of geographical separation on the genetic population structure of sympatric species of mites in avocado orchards

Guzman-Valencia

Santillán-Galicia

Guzmán‐Franco

et al. 2014

Bull. Entomol. Res.

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Oligonychus punicae and Oligonychus perseae (Acari: Tetranychidae) are the most important mite species affecting avocado orchards in Mexico. Here we used nucleotide sequence data from segments of the nuclear ribosomal internal transcribed spacers (ITS1 and ITS2) and mitochondrial cytochrome oxidase subunit I (COI) genes to assess the phylogenetic relationships between both sympatric mite species and, using only ITS sequence data, examine genetic variation and population structure in both species, to test the hypothesis that, although both species co-occur, their genetic population structures are different in both Michoacan state (main producer) and Mexico state. Phylogenetic analysis showed a clear separation between both species using ITS and COI sequence information. Haplotype network analysis done on 24 samples of O. punicae revealed low genetic diversity with only three haplotypes found but a significant geographical population structure confirmed by analysis of molecular variance (AMOVA) and Kimura-2-parameter (K2P) analyses. In addition, a Mantel test revealed that geographical isolation was a factor responsible for the genetic differentiation. In contrast, analyses of 22 samples of O. perseae revealed high genetic diversity with 15 haplotypes found but no geographical structure confirmed by the AMOVA, K2P and Mantel test analyses. We have suggested that geographical separation is one of the most important factors driving genetic variation, but that it affected each species differently. The role of the ecology of these species on our results, and the importance of our findings in the development of monitoring and control strategies are discussed.

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Differential Host Plant-Associated Genetic Variation Between Sympatric Mite Species of the GenusOligonychus(Acari: Tetranychidae)

et al. 2017

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Adaptation to different host plants can lead to host-associated differentiation (HAD). The mites Oligonychus perseae and Oligonychus punicae have a broad range of host plants, but, to date, records of them coexisting sympatrically had only been reported on avocado. However, our field observations showed both species coexisting on host plants other than avocado. The lack of previous records of these mites on the host plants studied here suggests only recent divergence to new host plant species. Previous studies showed that O. punicae had a limited migration capacity compared with O. perseae, suggesting that O. punicae is more likely to develop a close host plant relationship leading to HAD. Adults of both species were collected from trees hosting both mite species. Three genera of host plants considered were Persea, Salix, and Alnus; two species within one genus were Alnus jorullensis and Alnus acuminata; and three varieties within one species were Persea americana var. Fuerte, var. Hass, and var. Criollo, a noncommercial variety. Using sequence data from a segment of the mitochondrial cytochrome oxidase subunit I, the phylogenetic relationships and genetic population structure of both mite species in relation to the host plant were determined. Oligonychus perseae populations showed a significant population structure in relation to host plant at the species and genus level, but there was no effect of variety. In contrast, host plant explained none of the genetic variation among O. punicae populations. The potential role of coexistence mechanisms in the contrasting genetic population structure of both mite species is discussed.

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Citrus leprosis and Brevipalpus mites: current situation in Mexico

Santillán-Galicia¹,

Guzmán‐Franco²,

Gómez-Mercado³

et al. 2022

Citrus Res. Technol.

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Citrus leprosis is one of the most important diseases affecting citrus crops in the Americas. Mexico is the sixth largest producer of oranges and the largest producer of limes worldwide. Citrus leprosis was first detected in Mexico as recently as 2005. Since then, this disease has been detected in all Mexican citrus producing areas. Here, we describe the current geographical distribution of the viruses associated with the Citrus leprosis (CiLV-C and OFV-Cit) and its vectors which are mite species in the genus Brevipalpus. We describe the outcomes of transmission experiments undertaken in Mexican populations of B. yothersi and B. californicus on different citrus species. Potential relationships between symptoms and the presence of CiLV-C and/or OFV-Cit are described. Finally, we identify future research needed to increase our knowledge of the epidemiology of citrus leprosis in Mexico.

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