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152. Repeated evolution of fungal cultivar specificity in independently evolved ant-plant-fungus symbioses

Author

Blatrix, Rumsaïs, Debaud, Sarah, Salas-Lopez, Alex, Born, Céline, Benoit, Laure, McKey, Doyle B., Attéké, Christiane, Djiéto-Lordon, Champlain, Blatrix, Rumsaïs, Debaud, Sarah, Salas-Lopez, Alex, Born, Céline, Benoit, Laure, McKey, Doyle B., Attéké, Christiane, and Djiéto-Lordon, Champlain

Abstract

Some tropical plant species possess hollow structures (domatia) occupied by ants that protect the plant and in some cases also provide it with nutrients. Most plant-ants tend patches of chaetothyrialean fungi within domatia. In a few systems it has been shown that the ants manure the fungal patches and use them as a food source, indicating agricultural practices. However, the identity of these fungi has been investigated only in a few samples. To examine the specificity and constancy of ant-plant-fungus interactions we characterised the content of fungal patches in an extensive sampling of three ant-plant symbioses ( Petalomyrmex phylax / Leonardoxa africana subsp. africana , Aphomomyrmex afer / Leonardoxa africana subsp. letouzeyi and Tetraponera aethiops / Barteria fistulosa ) by sequencing the Internal Transcribed Spacers of ribosomal DNA. For each system the content of fungal patches was constant over individuals and populations. Each symbiosis was associated with a specific, dominant, primary fungal taxon, and to a lesser extent, with one or two specific secondary taxa, all of the order Chaetothyriales. A single fungal patch sometimes contained both a primary and a secondary taxon. In one system, two founding queens were found with the primary fungal taxon only, one that was shown in a previous study to be consumed preferentially. Because the different ant-plant symbioses studied have evolved independently, the high specificity and constancy we observed in the composition of the fungal patches have evolved repeatedly. Specificity and constancy also characterize other cases of agriculture by insects.

Published
2013

153. Disentangling the origins of cultivated sweet potato (Ipomoea batatas (L.) Lam.)

Author

Roullier, Caroline, Duputié, Anne, Wennekes, Paul, Benoit, Laure, Fernandez Bringas, Víctor Manuel, Rossel, Genoveva, Tay, David, McKey, Doyle B., Lebot, Vincent, Roullier, Caroline, Duputié, Anne, Wennekes, Paul, Benoit, Laure, Fernandez Bringas, Víctor Manuel, Rossel, Genoveva, Tay, David, McKey, Doyle B., and Lebot, Vincent

Abstract

Sweet potato (Ipomoea batatas (L.) Lam., Convolvulaceae) counts among the most widely cultivated staple crops worldwide, yet the origins of its domestication remain unclear. This hexaploid species could have had either an autopolyploid origin, from the diploid I. trifida, or an allopolyploid origin, involving genomes of I. trifida and I. triloba. We generated molecular genetic data for a broad sample of cultivated sweet potatoes and its diploid and polyploid wild relatives, for noncoding chloroplast and nuclear ITS sequences, and nuclear SSRs. Our data did not support an allopolyploid origin for I. batatas, nor any contribution of I. triloba in the genome of domesticated sweet potato. I. trifida and I. batatas are closely related although they do not share haplotypes. Our data support an autopolyploid origin of sweet potato from the ancestor it shares with I. trifida, which might be similar to currently observed tetraploid wild Ipomoea accessions. Two I. batatas chloroplast lineages were identified. They show more divergence with each other than either does with I. trifida. We thus propose that cultivated I. batatas have multiple origins, and evolved from at least two distinct autopolyploidization events in polymorphic wild populations of a single progenitor species. Secondary contact between sweet potatoes domesticated in Central America and in South America, from differentiated wild I. batatas populations, would have led to the introgression of chloroplast haplotypes of each lineage into nuclear backgrounds of the other, and to a reduced divergence between nuclear gene pools as compared with chloroplast haplotypes.

Published
2013

154. Permanent Genetic Resources added to Molecular Ecology Resources Database 1 February 2013-31 March 2013

Author

Arias, M.C., Atteke, C., Augusto, S.C., Bailey, J., Bazaga, Pilar, Beheregaray, L.B., Benoit, Laure, Blatrix, R., Born, C., Brito, R.M., Chen, H.-K., Covarrubias, S., Vega, Clara de, Djiéto-Lordon, C., Dubois, M.-P., Francisco, F.O., García, Cristina, Gonçalves, P.H.P., González, Carlos, Gutiérrez-Rodríguez, C., Hammer, M.P., Herrera, Carlos M., Itoh, H., Kamimura, S., Karaoglu, H., Kojima, S., Li, S.-L., Ling, H.J., Matos-Maraví, P.F., Mckey, D., Mezui-M'Eko, J., Ornelas, J.F., Park, R.F., Pozo, María I., Ramula, S., Rigueiro, Cristina, Sandoval-Castillo, J., Santiago, L.R., Seino, Miyuki M., Song, C.-B., Takeshima, H., Vasemägi, A., Wellings, C.R., Yan, J., Yu-Zhou, D., Zhang, C.-R., Zhang, T.-Y., Arias, M.C., Atteke, C., Augusto, S.C., Bailey, J., Bazaga, Pilar, Beheregaray, L.B., Benoit, Laure, Blatrix, R., Born, C., Brito, R.M., Chen, H.-K., Covarrubias, S., Vega, Clara de, Djiéto-Lordon, C., Dubois, M.-P., Francisco, F.O., García, Cristina, Gonçalves, P.H.P., González, Carlos, Gutiérrez-Rodríguez, C., Hammer, M.P., Herrera, Carlos M., Itoh, H., Kamimura, S., Karaoglu, H., Kojima, S., Li, S.-L., Ling, H.J., Matos-Maraví, P.F., Mckey, D., Mezui-M'Eko, J., Ornelas, J.F., Park, R.F., Pozo, María I., Ramula, S., Rigueiro, Cristina, Sandoval-Castillo, J., Santiago, L.R., Seino, Miyuki M., Song, C.-B., Takeshima, H., Vasemägi, A., Wellings, C.R., Yan, J., Yu-Zhou, D., Zhang, C.-R., and Zhang, T.-Y.

Abstract

This article documents the addition of 142 microsatellite marker loci to the Molecular Ecology Resources database. Loci were developed for the following species: Agriophyllum squarrosum, Amazilia cyanocephala, Batillaria attramentaria, Fungal strain CTeY1 (Ascomycota), Gadopsis marmoratus, Juniperus phoenicea subsp. turbinata, Liriomyza sativae, Lupinus polyphyllus, Metschnikowia reukaufii, Puccinia striiformis and Xylocopa grisescens. These loci were cross-tested on the following species: Amazilia beryllina, Amazilia candida, Amazilia rutila, Amazilia tzacatl, Amazilia violiceps, Amazilia yucatanensis, Campylopterus curvipennis, Cynanthus sordidus, Hylocharis leucotis, Juniperus brevifolia, Juniperus cedrus, Juniperus osteosperma, Juniperus oxycedrus, Juniperus thurifera, Liriomyza bryoniae, Liriomyza chinensis, Liriomyza huidobrensis and Liriomyza trifolii. © 2013 John Wiley & Sons Ltd.

Published
2013

155. Gene flow among wild and domesticated almond species: insights from chloroplast and nuclear markers

Author

Delplancke, Malou, Alvarez, Nadir, Espindola, Anahi, Joly, Hélène, Benoit, Laure, Brouck, Elise, Arrigo, Nils, Delplancke, Malou, Alvarez, Nadir, Espindola, Anahi, Joly, Hélène, Benoit, Laure, Brouck, Elise, and Arrigo, Nils

Abstract

Hybridization has played a central role in the evolutionary history of domesticated plants. Notably, several breeding programs relying on gene introgression from the wild compartment have been performed in fruit tree species within the genus Prunus but few studies investigated spontaneous gene flow among wild and domesticated Prunus species. Consequently, a comprehensive understanding of genetic relationships and levels of gene flow between domesticated and wild Prunus species is needed. Combining nuclear and chloroplastic microsatellites, we investigated the gene flow and hybridization among two key almond tree species, the cultivated Prunus dulcis and one of the most widespread wild relative Prunus orientalis in the Fertile Crescent. We detected high genetic diversity levels in both species along with substantial and symmetric gene flow between the domesticated P. dulcis and the wild P. orientalis. These results were discussed in light of the cultivated species diversity, by outlining the frequent spontaneous genetic contributions of wild species to the domesticated compartment. In addition, crop-to-wild gene flow suggests that ad hoc transgene containment strategies would be required if genetically modified cultivars were introduced in the northwestern Mediterranean.

Published
2012

156. Morphology and nuclear markers reveal extensive mitochondrial introgressions in the Iberian Wall Lizard species complex

Author

UCL - SC/BIOL - Département de biologie, Renoult, Julien P., Geniez, Philippe, Bacquet, Paul, Benoit, Laure, Crochet, Pierre-Andre, UCL - SC/BIOL - Département de biologie, Renoult, Julien P., Geniez, Philippe, Bacquet, Paul, Benoit, Laure, and Crochet, Pierre-Andre

Abstract

Mitochondrial markers are still often used alone to identify evolutionary units, despite widespread evidence for processes such as incomplete lineage sorting or introgressive hybridization that may blur past population history. The combination of mitochondrial DNA data with other sources of information (morphology, nuclear genes) is a powerful tool to reveal when and why mitochondrial markers are potentially misleading. In this study, we evaluate the performance of mtDNA markers to unravel the evolutionary history of Spanish lizards from the Podarcis hispanicus species complex. We first uncover several cases of discordance between morphological and mitochondrial data in delimitation of taxa. To assess the origin of these discordances, we analysed the same populations using several independent nuclear loci. Both morphological and nuclear markers identified the same three evolutionary units in the region, while mitochondrial data revealed four deeply divergent lineages. We suggest here that the most likely scenario to explain this discordance is ancient mitochondrial introgression originating from a fourth evolutionary unit presently absent from the study area. Notably, this resulted in a complete replacement of the original lineage in a large part of the distribution of one of the taxa investigated. We discuss the potential evolutionary scenarios leading to this complete mitochondrial replacement and suggest why the previous studies have failed to recover the correct history of this species complex.

Published
2009

164. Does Host Plant Drive Variation in Microbial Gut Communities in a Recently Shifted Pest?

Author

Javal, Marion, Terblanche, John S., Benoit, Laure, Conlong, Desmond E., Lloyd, James R., Smit, Chantelle, and Chapuis, Marie-Pierre

Subjects
*HOST plants, *PLANT variation, *MICROBIAL communities, *WOOD borers, *BACTERIAL communities, *INSECT diversity
Abstract

Biotic interactions can modulate the responses of organisms to environmental stresses, including diet changes. Gut microbes have substantial effects on diverse ecological and evolutionary traits of their hosts, and microbial communities can be highly dynamic within and between individuals in space and time. Modulations of the gut microbiome composition and their potential role in the success of a species to maintain itself in a new environment have been poorly studied to date. Here we examine this question in a large wood-boring beetle Cacosceles newmannii (Cerambycidae), that was recently found thriving on a newly colonized host plant. Using 16S metabarcoding, we assessed the gut bacterial community composition of larvae collected in an infested field and in "common garden" conditions, fed under laboratory-controlled conditions on four either suspected or known hosts (sugarcane, tea tree, wattle, and eucalyptus). We analysed microbiome variation (i.e. diversity and differentiation), measured fitness-related larval growth, and studied host plant lignin and cellulose contents, since their degradation is especially challenging for wood-boring insects. We show that sugarcane seems to be a much more favourable host for larval growth. Bacterial diversity level was the highest in field-collected larvae, whereas lab-reared larvae fed on sugarcane showed a relatively low level of diversity but very specific bacterial variants. Bacterial communities were mainly dominated by Proteobacteria, but were significantly different between sugarcane-fed lab-reared larvae and any other hosts or field-collected larvae. We identified changes in the gut microbiome associated with different hosts over a short time frame, which support the hypothesis of a role of the microbiome in host switches. [ABSTRACT FROM AUTHOR]

Published
2023
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165. Disentangling the Origins of Cultivated Sweet Potato (Ipomoea batatas (L.) Lam.)

Author

Roullier, Caroline, Duputié, Anne, Wennekes, Paul, Benoit, Laure, Fernández Bringas, Víctor Manuel, Rossel, Genoveva, Tay, David, McKey, Doyle, and Lebot, Vincent

Subjects
SWEET potatoes, CULTIVATED plants, PLANT genomes, PLANT molecular genetics, CHLOROPLASTS, GENETIC polymorphisms in plants, PLANT populations
Abstract

Sweet potato (Ipomoea batatas (L.) Lam., Convolvulaceae) counts among the most widely cultivated staple crops worldwide, yet the origins of its domestication remain unclear. This hexaploid species could have had either an autopolyploid origin, from the diploid I. trifida, or an allopolyploid origin, involving genomes of I. trifida and I. triloba. We generated molecular genetic data for a broad sample of cultivated sweet potatoes and its diploid and polyploid wild relatives, for noncoding chloroplast and nuclear ITS sequences, and nuclear SSRs. Our data did not support an allopolyploid origin for I. batatas, nor any contribution of I. triloba in the genome of domesticated sweet potato. I. trifida and I. batatas are closely related although they do not share haplotypes. Our data support an autopolyploid origin of sweet potato from the ancestor it shares with I. trifida, which might be similar to currently observed tetraploid wild Ipomoea accessions. Two I. batatas chloroplast lineages were identified. They show more divergence with each other than either does with I. trifida. We thus propose that cultivated I. batatas have multiple origins, and evolved from at least two distinct autopolyploidization events in polymorphic wild populations of a single progenitor species. Secondary contact between sweet potatoes domesticated in Central America and in South America, from differentiated wild I. batatas populations, would have led to the introgression of chloroplast haplotypes of each lineage into nuclear backgrounds of the other, and to a reduced divergence between nuclear gene pools as compared with chloroplast haplotypes. [ABSTRACT FROM AUTHOR]

Published
2013
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166. From monocots to dicots: host shifts in Afrotropical derelomine weevils shed light on the evolution of non-obligatory brood pollination mutualism.

Author

Haran, Julien, Procheş, Şerban, Benoit, Laure, and Kergoat, Gael J

Subjects
*POLLINATION, *POLLINATORS, *INSECT host plants, *CURCULIONIDAE, *ANIMAL clutches, *MONOCOTYLEDONS, *DICOTYLEDONS
Abstract

Weevils from the tribe Derelomini (Curculionidae: Curculioninae) are specialized brood pollinators engaged in mutualistic relationships with several angiosperm lineages. In brood pollination systems, reproductive plant tissues are used for the development of insect larval stages, whereas adult insects pollinate their plant hosts as a reward. The evolutionary history of derelomines in relationship to their hosts is poorly understood and potentially contrasts with other brood pollination systems, wherein a pollinator lineage is usually associated with a single host plant family. In the case of Afrotropical Derelomini, host records indicate a diverse host repertoire consisting of several families of monocot and dicot plants. In this study, we investigate their phylogenetic relationships, timing of diversification and evolution of host use. Our results suggest that derelomine lineages started their diversification ~40 Mya. Reconstructions of host use evolution support an ancestral association with the monocotyledonous palm family (Arecaceae), followed by several shifts towards other plant families in Afrotropical lineages, especially to dicotyledonous plants from the family Ebenaceae (on the genus Euclea L.). Some level of phylogenetic conservatism of host use is recovered for the lineages associated with either palms or Euclea. Multiple instances of sympatric weevil assemblages on the same plant are also unravelled, corresponding to either single or independent colonization events. Overall, the diversity of hosts colonized and the frequency of sympatric assemblages highlighted in non-obligatory plant–derelomine brood pollination systems contrast with what is generally expected from plant–insect brood pollination systems. [ABSTRACT FROM AUTHOR]

Published
2022
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168. Permanent Genetic Resources added to Molecular Ecology Resources Database 1 February 2013-31 March 2013.

Author

Arias, M. C., Atteke, Christiane, Augusto, S. C., Bailey, J., Bazaga, Pilar, Beheregaray, Luciano B., Benoit, Laure, Blatrix, Rumsaïs, Born, Céline, Brito, R. M., Chen, Hai‐kui, Covarrubias, Sara, Vega, Clara, Djiéto‐Lordon, Champlain, Dubois, Marie‐Pierre, Francisco, F. O., García, Cristina, Gonçalves, P. H. P., González, Clementina, and Gutiérrez‐Rodríguez, Carla

Subjects
GERMPLASM, MOLECULAR ecology, BATILLARIA attramentaria, RIVER blackfish, PHOENICIAN juniper
Abstract

This article documents the addition of 142 microsatellite marker loci to the Molecular Ecology Resources database. Loci were developed for the following species: Agriophyllum squarrosum, Amazilia cyanocephala, Batillaria attramentaria, Fungal strain CTe Y1 ( Ascomycota), Gadopsis marmoratus, Juniperus phoenicea subsp. turbinata, Liriomyza sativae, Lupinus polyphyllus, Metschnikowia reukaufii, Puccinia striiformis and Xylocopa grisescens. These loci were cross-tested on the following species: Amazilia beryllina, Amazilia candida, Amazilia rutila, Amazilia tzacatl, Amazilia violiceps, Amazilia yucatanensis, Campylopterus curvipennis, Cynanthus sordidus, Hylocharis leucotis, Juniperus brevifolia, Juniperus cedrus, Juniperus osteosperma, Juniperus oxycedrus, Juniperus thurifera, Liriomyza bryoniae, Liriomyza chinensis, Liriomyza huidobrensis and Liriomyza trifolii. [ABSTRACT FROM AUTHOR]

Published
2013
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169. Deciphering host-parasitoid interactions and parasitism rates of crop pests using DNA metabarcoding.

Author

Sow, Ahmadou, Brévault, Thierry, Benoit, Laure, Chapuis, Marie-Pierre, Galan, Maxime, Coeur d'acier, Armelle, Delvare, Gérard, Sembène, Mbacké, and Haran, Julien

Abstract

An accurate estimation of parasitism rates and diversity of parasitoids of crop insect pests is a prerequisite for exploring processes leading to efficient natural biocontrol. Traditional methods such as rearing have been often limited by taxonomic identification, insect mortality and intensive work, but the advent of high-throughput sequencing (HTS) techniques, such as DNA metabarcoding, is increasingly seen as a reliable and powerful alternative approach. Little has been done to explore the benefits of such an approach for estimating parasitism rates and parasitoid diversity in an agricultural context. In this study, we compared the composition of parasitoid species and parasitism rates between rearing and DNA metabarcoding of host eggs and larvae of the millet head miner, Heliocheilus albipunctella De Joannis (Lepidoptera, Noctuidae), collected from millet fields in Senegal. We first assessed the detection threshold for the main ten endoparasitoids, by sequencing PCR products obtained from artificial dilution gradients of the parasitoid DNAs in the host moth. We then assessed the potential of DNA metabarcoding for diagnosing parasitism rates in samples collected from the field. Under controlled conditions, our results showed that relatively small quantities of parasitoid DNA (0.07 ng) were successfully detected within an eight-fold larger quantity of host DNA. Parasitoid diversity and parasitism rate estimates were always higher for DNA metabarcoding than for host rearing. Furthermore, metabarcoding detected multi-parasitism, cryptic parasitoid species and differences in parasitism rates between two different sampling sites. Metabarcoding shows promise for gaining a clearer understanding of the importance and complexity of host-parasitoid interactions in agro-ecosystems, with a view to improving pest biocontrol strategies. [ABSTRACT FROM AUTHOR]

Published
2019
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170. Gene flow among wild and domesticated almond species: insights from chloroplast and nuclear markers

Author

Delplancke, Malou, Alvarez, Nadir, Espindola, Anahi, Joly, Hélène, Benoit, Laure, Brouck, Elise, and Arrigo, Nils

Subjects
Introgression, Microsatellite, food and beverages, F70 - Taxonomie végétale et phytogéographie, Flux de gènes, Prunus dulcis, F30 - Génétique et amélioration des plantes, Domestication, Amygdalus, gene flow, genetic diversity, introgression, microsatellites, Chloroplaste, Marqueur génétique, Prunus, Biodiversité
Abstract

Hybridization has played a central role in the evolutionary history of domesticated plants. Notably, several breeding programs relying on gene introgression from the wild compartment have been performed in fruit tree species within the genus Prunus but few studies investigated spontaneous gene flow among wild and domesticated Prunus species. Consequently, a comprehensive understanding of genetic relationships and levels of gene flow between domesticated and wild Prunus species is needed. Combining nuclear and chloroplastic microsatellites, we investigated the gene flow and hybridization among two key almond tree species, the cultivated Prunus dulcis and one of the most widespread wild relative Prunus orientalis in the Fertile Crescent. We detected high genetic diversity levels in both species along with substantial and symmetric gene flow between the domesticated P. dulcis and the wild P. orientalis. These results were discussed in light of the cultivated species diversity, by outlining the frequent spontaneous genetic contributions of wild species to the domesticated compartment. In addition, crop-to-wild gene flow suggests that ad hoc transgene containment strategies would be required if genetically modified cultivars were introduced in the northwestern Mediterranean.

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171. Evolution of almond genetic diversity and farmer practices in Lebanon: impacts of the diffusion of a graft-propagated cultivar in a traditional system based on seed-propagation.

Author

Hamadeh, Bariaa, Chalak, Lamis, Coppens d'Eeckenbrugge, Geo, Benoit, Laure, and Joly, Hélène I.

Subjects
PLANT genetics, ALMOND, GERMINATION, CULTIVARS, GRAFTING (Horticulture), VEGETATIVE propagation
Abstract

Background: Under cultivation, many outcrossing fruit tree species have switched from sexual reproduction to vegetative propagation. Traditional production systems have persisted, where cultivar propagation is based on a mixed reproductive system. For millenia, almond, Prunus dulcis , has been propagated by seeds. Almond grafting remained of little importance until recently. In Lebanon, both sexual and clonal reproductions are used for almond propagation. We used 15 microsatellite markers to investigate the effect of introducing graft-propagated cultivars and associated practices, on the structure of the genetic diversity among and within the two main Lebanese cultivars. Results: As expected, the sexually propagated cultivar Khachabi exhibited more genotypic and genetic diversity than the vegetatively propagated cultivar Halwani. It also exhibited lower differentiation among populations. The distribution of clones showed that propagation modes were not exclusive: farmers have introduced clonal propagation in the seed-propagated cultivar while they have maintained a diversity of genotypes within populations that were mostly graft-propagated. These practices are also important to avoid mate limitations that hamper fruit production in a self-incompatible species. 'Khachabi' is structured into two gene pools separated by the Lebanese mountains. As to 'Halwani', two different gene pools were introduced. The most ancient one shares the same geographic range as 'Khachabi'; longtime coexistence and sexual reproduction have resulted in admixture with 'Khachabi'. In contrast, the more recent introduction of the second gene pool in the Bekaa region followed an evolution towards more extensive clonal propagation of 'Halwani' limiting hybridizations. Furthermore, some pairs of geographically distant 'Halwani' orchards, exhibited low genetic distances, suggesting that a network of exchanges between farmers was effective on a large scale and/or that farmers brought clonal plant material from a common source. Conclusions: Almond diversification in Lebanon is clearly related to the evolution of propagation practices adapted to self-incompatible cultivars. The comparison between both cultivars demonstrated the genetic effects of the introduction of a new cultivar and the associated grafting propagation practices. Our study provided information to develop a strategy for in situ conservation of cultivars and to limit gene flow from introduced material to ancient orchards. [ABSTRACT FROM AUTHOR]

Published
2018
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172. Combining RADseq and contact zone analysis to decipher cryptic diversification in reptiles: Insights from the Spiny‐footed Lizard (Reptilia, Lacertidae).

Author

Doniol‐Valcroze, Paul, Rancilhac, Loïs, Brito, José‐Carlos, Miralles, Aurélien, Geniez, Philippe, Benoit, Laure, Loiseau, Anne, Leblois, Raphaël, Dufresnes, Christophe, and Crochet, Pierre‐André

Subjects
*LACERTIDAE, *BIOLOGICAL classification, *LIZARDS, *GENE flow, *REPTILES, REPRODUCTIVE isolation
Abstract

Uncertainties on species taxonomy and distribution are major factors hampering efficient conservation planning in the current context of biodiversity erosion, even concerning widespread and abundant species in relatively well‐studied regions. Species delimitation have long been based on phylogenetic analyses of a small number of standard markers, but accurate lineage identification through this approach can be hampered by incomplete lineage sorting, introgression or isolation by distance. In that context, analyses of introgression patterns at secondary contact zones offer an interesting alternative by allowing a direct estimation of reproductive isolation, especially when using genome‐wide markers. Here, we investigated a contact zone between two genetic groups of the Spiny‐footed Lizard Acanthodactylus erythrurus (Schinz, 1833) in Morocco, whose status as separate lineages remained disputed in previous multilocus studies. Based on thousands of genome‐wide markers obtained through a RADseq approach, we confirmed that they represent distinct evolutionary lineages. Furthermore, the transition at their contact zone was very steep, with spatially restricted gene flow, highlighting levels of reproductive isolation consistent with species‐level lineages. Our study further illustrates the power of RADseq‐based studies of contact zones to understand cryptic diversity in non‐model organisms. [ABSTRACT FROM AUTHOR]

Published
2024
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173. Impact of net houses on the natural regulation of the populations of Trialeurodes vaporariorum (Homoptera: Aleyrodidae) and Tuta absoluta (Lepidoptera: Gelechiidae), two major tomato pests in Kenya.

Author

Chailleux, Anaïs, Chepkemoi, Junitor, Haran, Julien M., Benoit, Laure, Copeland, Robert, and Deletre, Emilie

Subjects
*GREENHOUSE whitefly, *GELECHIIDAE, *HOMOPTERA, *LEPIDOPTERA, *PESTS, *SWEETPOTATO whitefly, *ALEYRODIDAE
Abstract

The abandonment of insecticide treatments to achieve sustainable crop production calls for a combination of methods to obtain satisfactory pest control. To this end, net houses and biological control are two promising methods, though we suspected that most natural enemies are blocked outside the net houses. In Kenya, tomato crops are particularly threatened by Trialeurodes vaporariorum (Westwood 1856) and Tuta absoluta (Meyrick, 1917) that are targets of most insecticide treatments in this country. We investigated in an on-farm experiment (i) the abundances of T. vaporariorum and T. absoluta in open fields and in net houses, (ii) the diversity of arthropod natural enemies of these pests, and (iii) the effect of net houses on the natural regulation. To complete, in the laboratory, we checked the capacity of natural enemies to pass through different net types. We identified several natural enemies, mainly the mirid bug Nesidiocoris tenuis (Reuter 1895) that was the most abundant predator for both pests. One parasitoid species was also identified for each pest, i.e. Encarsia formosa Gahan (1924) and Copidosoma sp. for T. vaporariorum and T. absoluta respectively. Net houses reduced drastically the pest populations. Predators were less abundant under net houses, while parasitoids did not seem to be affected by the nets. Encarsia formosa was shown to be able to pass through the different net types, while N. tenuis adults were not. These results raise the potential for augmentative biological control under net houses. Using kairomones to attract natural enemies, or introducing natural enemies under the net houses through inoculative releases, are two approaches to increase the abundance of natural enemies under net houses. [ABSTRACT FROM AUTHOR]

Published
2022
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174. Comparative analysis of spatial genetic structure in an ant-plant symbiosis reveals a tension zone and highlights speciation processes in tropical Africa.

Author

Blatrix, Rumsaïs, Peccoud, Jean, Born, Céline, Piatscheck, Finn, Benoit, Laure, Sauve, Mathieu, Djiéto ‐ Lordon, Champlain, Atteke, Christiane, Wieringa, Jan J., Harris, David J., and McKey, Doyle

Subjects
*COMPARATIVE studies, *INSECT-plant symbiosis, *GENETIC speciation, *VICARIANCE, *GENETICS
Abstract

Aim Pleistocene climatic oscillations induced range fluctuations in African rain forest organisms and may have shaped species diversification through allopatric speciation events. We compared the spatial genetic structure of two forest species that live in obligate symbiosis and thus must have experienced the same range fluctuations, as a means to discriminate incipient speciation from transient differentiation simply resulting from past divergence. Location Western central Africa. Methods We genotyped 765 individuals of the tree Barteria fistulosa and 605 colonies of its symbiotic ant Tetraponera aethiops at 12 and 13 microsatellite loci, respectively. We compared the spatial genetic structure of the two symbionts by using Bayesian clustering algorithms, isolation-by-distance analyses and clines of synthetic alleles. We used species niche modelling (climatic and soil variables) to investigate ecological variables associated with genetic discontinuities in tree populations. Results The trees and the ants showed congruent patterns of spatial genetic structure. However, the trees showed a very steep genetic discontinuity between groups north and south of latitude 1° N, which was much weaker in the ants. There was no evidence for effective gene flow between the two tree lineages in contact at the transition zone, despite the presence of a few hybrids. Niche modelling did not predict the occurrence of northern trees south of this genetic transition, and vice versa. Main conclusions The genetic discontinuity near latitude 1° N is inferred to be a tension zone resulting from reproductive incompatibilities between previously allopatric tree lineages. This tension zone may have stabilized at a climatic transition (between boreal and austral seasonal regimes), and matches patterns of genetic structure previously observed in other forest plant species. Our results illustrate independent speciation between two species that live in specific and obligate symbiosis and suggest that a tension zone may separate lineages of several central African forest plants near the thermal equator. [ABSTRACT FROM AUTHOR]

Published
2017
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175. Evaluation of identification methods for cryptic Bactrocera dorsalis (Diptera: Tephritidae) specimens: combining morphological and molecular techniques.

Author

Charbonnel E, Chapuis MP, Taddei A, Schutze MK, Starkie ML, Benoit L, Mouttet R, and Ouvrard D

Subjects
Animals, Sequence Analysis, DNA, Mitochondria, Tephritidae genetics
Abstract

The potential for population genomics to elucidate invasion pathways of a species is limited by taxonomic identification issues. The Oriental fruit fly pest, Bactrocera dorsalis (Hendel) belongs to a complex in which several sympatric species are attracted to the same lure used in trapping and are morphologically cryptic and/or reported to hybridize. In this study, we evaluated the taxonomic ambiguity between B. dorsalis and 2 major cryptic species, based on morphological expertise and 289 target specimens sampled across the whole distribution range. Specimens were then subjected to DNA sequence analyses of the COI mitochondrial barcode and the EIF3L nuclear marker to evaluate the potential for molecular identification, in particular for specimens for which morphological identification was inconclusive. To this aim, we produced reference datasets with DNA sequences from target specimens whose morphological identification was unambiguous, which we complemented with 56 new DNA sequences from closest relatives and 76 published and curated DNA sequences of different species in the complex. After the necessary morphological observation, about 3.5% of the target dataset and 47.6% of the specimens from Southeast Asian islands displayed ambiguous character states shared with B. carambolae and/or B. occipitalis. Critical interpretation of DNA sequence data solved morphological ambiguities only when combining both mitochondrial and nuclear markers. COI discriminated B. dorsalis from 5 species; EIF3L and ITS from another species. We recommend this procedure to ensure correct identification of B. dorsalis specimens in population genetics studies and surveillance programs., (© The Author(s) 2023. Published by Oxford University Press on behalf of Entomological Society of America.)

Published
2023
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176. Evaluation of 96-well high-throughput DNA extraction methods for 16S rRNA gene metabarcoding.

Author

Chapuis MP, Benoit L, and Galan M

Subjects
Animals, RNA, Ribosomal, 16S genetics, Genes, rRNA, DNA, Bacterial genetics, DNA, Bacteria genetics, High-Throughput Nucleotide Sequencing methods, Sequence Analysis, DNA methods, Microbiota genetics
Abstract

Gaining meaningful insights into bacterial communities associated with animal hosts requires the provision of high-quality nucleic acids. Although many studies have compared DNA extraction methods for samples with low bacterial biomass (e.g. water) or specific PCR inhibitors (e.g. plants), DNA extraction bias in samples without inherent technical constraint (e.g. animal samples) has received little attention. Furthermore, there is an urgent need to identify a DNA extraction methods in a high-throughput format that decreases the cost and time for processing large numbers of samples. We here evaluated five DNA extraction protocols, using silica membrane-based spin columns and a 96-well microplate format and based on either mechanical or enzymatic lysis or a combination of both, using three bacterial mock communities and Illumina sequencing of the V4 region of the 16SrRNA gene. Our results showed that none of the DNA extraction methods fully eliminated bias associated with unequal lysis efficiencies. However, we identified a DNA extraction method with a lower bias for each mock community standard. Of these methods, those including an enzymatic lysis showed biases specific to some bacteria. Altogether, these results again demonstrate the importance of DNA extraction standardization to be able to compare the microbiome results of different samples. In this attempt, we advise for the use of the 96-well DNeasy Blood and Tissue kit (Qiagen) with a zirconia bead-beating procedure, which optimizes altogether the cost, handling time and bacteria-specific effects associated with enzymatic lysis., (© 2023 The Authors. Molecular Ecology Resources published by John Wiley & Sons Ltd.)

Published
2023
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178. Gene flow among wild and domesticated almond species: insights from chloroplast and nuclear markers.

Author

Delplancke M, Alvarez N, Espíndola A, Joly H, Benoit L, Brouck E, and Arrigo N

Abstract

Hybridization has played a central role in the evolutionary history of domesticated plants. Notably, several breeding programs relying on gene introgression from the wild compartment have been performed in fruit tree species within the genus Prunus but few studies investigated spontaneous gene flow among wild and domesticated Prunus species. Consequently, a comprehensive understanding of genetic relationships and levels of gene flow between domesticated and wild Prunus species is needed. Combining nuclear and chloroplastic microsatellites, we investigated the gene flow and hybridization among two key almond tree species, the cultivated Prunus dulcis and one of the most widespread wild relative Prunus orientalis in the Fertile Crescent. We detected high genetic diversity levels in both species along with substantial and symmetric gene flow between the domesticated P. dulcis and the wild P. orientalis. These results were discussed in light of the cultivated species diversity, by outlining the frequent spontaneous genetic contributions of wild species to the domesticated compartment. In addition, crop-to-wild gene flow suggests that ad hoc transgene containment strategies would be required if genetically modified cultivars were introduced in the northwestern Mediterranean.

Published
2012
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