Search

Your search keyword '"Le Ralec A"' showing total 48 results
Start Over Author "Le Ralec A" Search Limiters Peer Reviewed
48 results on '"Le Ralec A"'

5. Effect of the Landscape on Insect Pests and Associated Natural Enemies in Greenhouses Crops: The Strawberry Study Case

Author

Marianne Doehler, Delphine Chauvin, Anne Le Ralec, Émeline Vanespen, and Yannick Outreman

Subjects
conservation biological control, landscape context, protected cultivation, strawberry crops, natural enemies of pests, crop colonization, Science
Abstract

Compared to open-field crops, the influence of the surrounding landscape on insect diversity in greenhouse crops has been poorly studied. Due to growing evidence of insect influx in greenhouses, identifying the landscape properties influencing the protected crop colonization by insect pests and their natural enemies would promote the improvement of both pest prevention and conservation biological control methods. Here, we present a field study on the effect of the surrounding landscape on the colonization of greenhouse crops by insect pests and associated natural enemies. By monitoring 32 greenhouse strawberry crops in the South West of France, we surveyed crop colonization by four insect pests and four natural enemy groups over two cultivation periods. Our results showed that the landscape structure and composition could have contrasting effects on insect colonization of greenhouse crops so there could be species-specific effects and not general ones. While the degree of openness of greenhouses and the pest management practices modulated insect diversity marginally, we also showed that seasonality represented a key factor in insect crop colonization. The various responses of insect pests and natural enemy groups to the landscape support the idea that pest management methods must involve the surrounding environment.

Published
2023
Full Text
View/download PDF

6. Crop pests and predators exhibit inconsistent responses to surrounding landscape composition

Author

Karp, Daniel S., Chaplin-Kramer, Rebecca, Meehan, Timothy D., Martin, Emily A., DeClerck, Fabrice, Grab, Heather, Gratton, Claudio, Hunt, Lauren, Larsen, Ashley E., Martínez-Salinas, Alejandra, O’Rourke, Megan E., Rusch, Adrien, Poveda, Katja, Jonsson, Mattias, Rosenheim, Jay A., Schellhorn, Nancy A., Tscharntke, Teja, Wratten, Stephen D., Zhang, Wei, Iverson, Aaron L., Adler, Lynn S., Albrecht, Matthias, Alignier, Audrey, Angelella, Gina M., Anjum, Muhammad Zubair, Avelino, Jacques, Batáry, Péter, Baveco, Johannes M., Bianchi, Felix J. J. A., Birkhofer, Klaus, Bohnenblust, Eric W., Bommarco, Riccardo, Brewer, Michael J., Caballero-López, Berta, Carrière, Yves, Carvalheiro, Luísa G., Cayuela, Luis, Centrella, Mary, Ćetković, Aleksandar, Henri, Dominic Charles, Chabert, Ariane, Costamagna, Alejandro C., De la Mora, Aldo, de Kraker, Joop, Desneux, Nicolas, Diehl, Eva, Diekötter, Tim, Dormann, Carsten F., Eckberg, James O., Entling, Martin H., Fiedler, Daniela, Franck, Pierre, van Veen, F. J. Frank, Frank, Thomas, Gagic, Vesna, Garratt, Michael P. D., Getachew, Awraris, Gonthier, David J., Goodell, Peter B., Graziosi, Ignazio, Groves, Russell L., Gurr, Geoff M., Hajian-Forooshani, Zachary, Heimpel, George E., Herrmann, John D., Huseth, Anders S., Inclán, Diego J., Ingrao, Adam J., Iv, Phirun, Jacot, Katja, Johnson, Gregg A., Jones, Laura, Kaiser, Marina, Kaser, Joe M., Keasar, Tamar, Kim, Tania N., Kishinevsky, Miriam, Landis, Douglas A., Lavandero, Blas, Lavigne, Claire, Le Ralec, Anne, Lemessa, Debissa, Letourneau, Deborah K., Liere, Heidi, Lu, Yanhui, Lubin, Yael, Luttermoser, Tim, Maas, Bea, Mace, Kevi, Madeira, Filipe, Mader, Viktoria, Cortesero, Anne Marie, Marini, Lorenzo, Martinez, Eliana, Martinson, Holly M., Menozzi, Philippe, Mitchell, Matthew G. E., Miyashit, Tadashi, Molina, Gonzalo A. R., Molina-Montenegro, Marco A., O’Neal, Matthew E., Opatovsky, Itai, Ortiz-Martinez, Sebaastian, Nash, Michael, Östman, Örjan, Ouin, Annie, Pak, Damie, Paredes, Daniel, Parsa, Soroush, Parry, Hazel, Perez-Alvarez, Ricardo, Perović, David J., Peterson, Julie A., Petit, Sandrine, Philpott, Stacy M., Plantegenest, Manuel, Plećaš, Milan, Pluess, Therese, Pons, Xavier, Potts, Simon G., Pywell, Richard F., Ragsdale, David W., Rand, Tatyana A., Raymond, Lucie, Ricci, Benoît, Sargent, Chris, Sarthou, Jean-Pierre, Saulais, Julia, Schäckermann, Jessica, Schmidt, Nick P., Schneider, Gudrun, Schüepp, Christof, Sivakoff, Frances S., Smith, Henrik G., Whitney, Kaitlin Stack, Stutz, Sonja, Szendrei, Zsofia, Takada, Mayura B., Taki, Hisatomo, Tamburini, Giovanni, Thomson, Linda J., Tricault, Yann, Tsafack, Noelline, Tschumi, Matthias, Valantin-Morison, Muriel, Van Trinh, Mai, van der Werf, Wopke, Vierling, Kerri T., Werling, Ben P., Wickens, Jennifer B., Wickens, Victoria J., Woodcock, Ben A., Wyckhuys, Kris, Xiao, Haijun, Yasuda, Mika, Yoshioka, Akira, and Zou, Yi

Published
2018

8. Genetics of wild and mass-reared populations of a generalist aphid parasitoid and improvement of biological control.

Author

Estelle Postic, Yannick Outreman, Stéphane Derocles, Caroline Granado, and Anne Le Ralec

Subjects
Medicine, Science
Abstract

Due to their ability to parasitize various insect species, generalist parasitoids are widely used as biological control agents. They can be mass-reared and released in agroecosystems to control several pest species in various crops. However, the existence of genetic differentiation among populations of generalist parasitoid species is increasingly recognized and this can be associated with an adaptation to local conditions or to a reduced range of host species. Moreover, constraints of mass-rearing conditions can alter genetic variation within parasitoid populations released. These features could be associated with a reduced efficiency of the control of targeted pest species. Here, we focused on strawberry greenhouses where the control of aphids with the generalist parasitoid Aphidius ervi appears to be inefficient. We investigated whether this inefficiency may have both genetic and ecological bases comparing wild and commercial populations of A. ervi. We used two complementary genetic approaches: one based on the mitochondrial marker COI and one based on microsatellite markers. COI analysis showed a genetic differentiation within the A. ervi species, but the structure was neither associated with the commercial/wild status nor with host species factors. On the other hand, using microsatellite markers, we showed a genetic differentiation between commercial and wild A. ervi populations associated with a loss of genetic diversity within the mass-reared populations. Our ecological genetics study may potentially explain the weak efficiency of biological control of aphids in protected strawberry crops and enable to provide some insights to improve biological control.

Published
2021
Full Text
View/download PDF

9. Variations in community assemblages and trophic networks of aphids and parasitoids in protected crops

Author

Estelle Postic, Anne Le Ralec, Christelle Buchard, Caroline Granado, and Yannick Outreman

Subjects
biological control, direct and indirect interactions, insect pests, natural enemies, spatiotemporal variation, strawberry crops, Ecology, QH540-549.5
Abstract

Abstract Greenhouse crops are thought to be simplified ecosystems because they often consist of monocultures that are relatively isolated from their environment. However, insect pests are still able to colonize these protected crops, which threaten their yields. Similarly, natural enemies of pests may be able to colonize greenhouses, providing a form of natural biological pest control. Protected strawberry crops are grown in several types of greenhouses that vary in their degree of openness. Crops often suffer from aphid outbreaks, which can be partly controlled by insect parasitoids immigrating from the surrounding environment. We investigated variations over space and time in both the aphid and parasitoid community diversity and species assemblages associated with protected strawberry crops. We sampled aphids and parasitoids in five regions of France in the spring and summer of two successive years. Despite the relative isolation of these protected crops, we identified a high aphid species richness in them, even at the greenhouse scale. Aphid community composition varied with spatial and temporal factors, but the species assemblages present were mostly determined by local factors. Parasitoid communities were mostly similar among the studied regions, but varied between seasons, with this temporal variation being related to changes in aphid species composition. The study of trophic interactions occurring between aphids and parasitoids allowed the most prevalent and efficient parasitoid species to be identified. The structures of food webs strongly varied in time and space, compromising any prediction of “natural” biological control. We also highlighted ecological factors that can disrupt aphid biological control, such as the occurrence of hyperparasitism or the possibility of apparent mutualism between aphid species. Finally, we showed that the degree of openness of greenhouses influenced both the aphid communities and the hyperparasitism rates in them. These results provide valuable information to improve aphid biological control in protected crops.

Published
2020
Full Text
View/download PDF

19. Effect of the Landscape on Insect Pests and Associated Natural Enemies in Greenhouses Crops: The Strawberry Study Case.

Author

Doehler, Marianne, Chauvin, Delphine, Le Ralec, Anne, Vanespen, Émeline, and Outreman, Yannick

Subjects
INSECT pests, GREENHOUSE plants, BIOPESTICIDES, BIOLOGICAL pest control agents, STRAWBERRIES, INSECT societies, BIOLOGICAL pest control
Abstract

Simple Summary: The surrounding environment of greenhouses presents habitats, refuges, shelters, or food sources for insects, representing sources of risk for crop colonization by insect pests. A growing number of studies confirm the spontaneous influx of pests and their natural enemies in greenhouses. Identifying the properties of the surrounding landscape that affect this greenhouse crop colonization would help to improve pest prevention and biological control methods. Here, we present our study on the effect of landscape on insect colonization in greenhouse strawberry crops over two seasons in the South West of France. Our results showed that the surrounding landscape has contrasting and specific effects on crop colonization by different pest and biological control agent groups. Furthermore, the degree of openness of a greenhouse and the pest management practices marginally modulated insect crop colonization, whereas seasonality was a key factor of greenhouse crop colonization by insects. The various responses of insect groups to the surrounding landscape support the idea that management methods should involve the surrounding environment. Compared to open-field crops, the influence of the surrounding landscape on insect diversity in greenhouse crops has been poorly studied. Due to growing evidence of insect influx in greenhouses, identifying the landscape properties influencing the protected crop colonization by insect pests and their natural enemies would promote the improvement of both pest prevention and conservation biological control methods. Here, we present a field study on the effect of the surrounding landscape on the colonization of greenhouse crops by insect pests and associated natural enemies. By monitoring 32 greenhouse strawberry crops in the South West of France, we surveyed crop colonization by four insect pests and four natural enemy groups over two cultivation periods. Our results showed that the landscape structure and composition could have contrasting effects on insect colonization of greenhouse crops so there could be species-specific effects and not general ones. While the degree of openness of greenhouses and the pest management practices modulated insect diversity marginally, we also showed that seasonality represented a key factor in insect crop colonization. The various responses of insect pests and natural enemy groups to the landscape support the idea that pest management methods must involve the surrounding environment. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

20. Can biological control be a strategy to control vector-borne plant viruses?

Author

Roudine, Sacha, Le Lann, Cécile, Bouvaine, Sophie, Le Ralec, Anne, and van Baaren, Joan

Subjects
PLANT viruses, BIOLOGICAL control of insects, INFECTIOUS disease transmission, DISEASE management, VIRUS diseases, VIRAL transmission
Abstract

Plant viruses transmitted by vector pests are one of the most important worldwide threats to global food production and security. Biological control strategies to enhance natural enemies (parasitoids and predators) have mainly focused on their ability to reduce pest density. In contrast, few studies have examined how natural enemies affect the spread and the incidence of viruses in a crop, although those results could be used as levers for a more sustainable management of viral diseases. Vector-borne plant viruses can be classified in three categories based on their transmission mode: non-persistently transmitted viruses, semi-persistently transmitted viruses and persistently transmitted viruses, whereas vector density, fitness and movement were identified as main drivers of virus spread in a crop, their relative contributions to virus epidemiology may also depend on both the transmission mode and the presence of natural enemies. The first part of the review focuses on virus transmission dynamics in relation to vector activity and density. Because we identify different patterns for each type of plant viruses, control strategies that lead to changes in vector traits, should be adapted to the targeted virus. However, biological control of insect vectors has been rarely adapted to the mode of transmission of the target virus. Thus, the last part of the review explores the conditions required for natural enemies (parasitoids and predators) to prevent epidemics outbreaks of each type of plant viruses. Briefly, if combined with other practices, biological control of vectors to keep virus incidence below the economic threshold is a promising approach for persistently transmitted viruses but might be more difficult to achieve with non-persistently transmitted viruses and semi-persistently transmitted viruses. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

25. Third and fourth trophic level composition shift in an aphid–parasitoid–hyperparasitoid food web limits aphid control in an intercropping system.

Author

Jeavons, Emma, van Baaren, Joan, Le Ralec, Anne, Buchard, Christelle, Duval, Franck, Llopis, Stéphanie, Postic, Estelle, and Le Lann, Cécile

Subjects
APHID control, FOOD chains, CATCH crops, INTERCROPPING, APPLIED ecology, ECOSYSTEM services, TROPHIC cascades, ECOSYSTEMS
Abstract

Understanding how resource diversification affects ecological interactions, food web structure and ecosystem functioning is essential in both fundamental and applied ecology. While plant diversification strategies (either in‐field or around‐field) are often proposed in agricultural landscapes as practices to improve the biological control of herbivores by natural enemies, results remain variable and unsure.Here, we studied the effect of an in‐field diversification practice (the intercropping of leguminous crops within cereal fields, an increasingly common practice but with inconsistent results on biological control) on cereal aphid control and the structure of a cereal aphid–parasitoid–hyperparasitoid food web for 2 years.We report that aphid control was not increased in mixed fields, nor was cereal parasitoid diversity and food web complexity. Nevertheless, the provision of alternative hosts in mixed fields led to a functional community composition shift, favouring generalist parasitoid species over specialist ones.Moreover, we observed a higher hyperparasitism rate in mixed fields, suggesting that secondary parasitoids were favoured by alternative resources, which may have disrupted aphid control by primary parasitoids.Synthesis and applications. This study demonstrates that parasitoid community composition shift and increased top‐down control by the fourth trophic level can impact parasitoid efficiency to control herbivores. These results highlight the necessity to study fine‐scale mechanisms within food webs to be able to set up efficient methods to support biodiversity and associated ecosystem services in agricultural landscapes. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

28. Genetics of wild and mass-reared populations of a generalist aphid parasitoid and improvement of biological control.

Author

Postic, Estelle, Outreman, Yannick, Derocles, Stéphane, Granado, Caroline, and Le Ralec, Anne

Subjects
STRAWBERRIES, BIOLOGICAL control of insects, BIOLOGICAL pest control agents, POPULATION genetics, MICROSATELLITE repeats, ECOLOGICAL genetics, APHID control, PEST control
Abstract

Due to their ability to parasitize various insect species, generalist parasitoids are widely used as biological control agents. They can be mass-reared and released in agroecosystems to control several pest species in various crops. However, the existence of genetic differentiation among populations of generalist parasitoid species is increasingly recognized and this can be associated with an adaptation to local conditions or to a reduced range of host species. Moreover, constraints of mass-rearing conditions can alter genetic variation within parasitoid populations released. These features could be associated with a reduced efficiency of the control of targeted pest species. Here, we focused on strawberry greenhouses where the control of aphids with the generalist parasitoid Aphidius ervi appears to be inefficient. We investigated whether this inefficiency may have both genetic and ecological bases comparing wild and commercial populations of A. ervi. We used two complementary genetic approaches: one based on the mitochondrial marker COI and one based on microsatellite markers. COI analysis showed a genetic differentiation within the A. ervi species, but the structure was neither associated with the commercial/wild status nor with host species factors. On the other hand, using microsatellite markers, we showed a genetic differentiation between commercial and wild A. ervi populations associated with a loss of genetic diversity within the mass-reared populations. Our ecological genetics study may potentially explain the weak efficiency of biological control of aphids in protected strawberry crops and enable to provide some insights to improve biological control. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

29. Variations in community assemblages and trophic networks of aphids and parasitoids in protected crops.

Author

Postic, Estelle, Le Ralec, Anne, Buchard, Christelle, Granado, Caroline, and Outreman, Yannick

Subjects
BIOLOGICAL pest control, APHIDS, INSECT pests, GREENHOUSE plants, APHID control, CROPS, MUTUALISM (Biology), INSECT diversity
Abstract

Greenhouse crops are thought to be simplified ecosystems because they often consist of monocultures that are relatively isolated from their environment. However, insect pests are still able to colonize these protected crops, which threaten their yields. Similarly, natural enemies of pests may be able to colonize greenhouses, providing a form of natural biological pest control. Protected strawberry crops are grown in several types of greenhouses that vary in their degree of openness. Crops often suffer from aphid outbreaks, which can be partly controlled by insect parasitoids immigrating from the surrounding environment. We investigated variations over space and time in both the aphid and parasitoid community diversity and species assemblages associated with protected strawberry crops. We sampled aphids and parasitoids in five regions of France in the spring and summer of two successive years. Despite the relative isolation of these protected crops, we identified a high aphid species richness in them, even at the greenhouse scale. Aphid community composition varied with spatial and temporal factors, but the species assemblages present were mostly determined by local factors. Parasitoid communities were mostly similar among the studied regions, but varied between seasons, with this temporal variation being related to changes in aphid species composition. The study of trophic interactions occurring between aphids and parasitoids allowed the most prevalent and efficient parasitoid species to be identified. The structures of food webs strongly varied in time and space, compromising any prediction of "natural" biological control. We also highlighted ecological factors that can disrupt aphid biological control, such as the occurrence of hyperparasitism or the possibility of apparent mutualism between aphid species. Finally, we showed that the degree of openness of greenhouses influenced both the aphid communities and the hyperparasitism rates in them. These results provide valuable information to improve aphid biological control in protected crops. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

30. Permanent Genetic Resources added to Molecular Ecology Resources Database 1 April 2013–31 May 2013

Author

Agostini, Cecilia, Albaladejo, R. G., Aparicio, A., Arthofer, Wolfgang, Berrebi, P., Boag, Peter T., Carbone, Ignazio, Conroy, Gabriel C., Cortesero, Anne-Marie, Goncalves, Evonnildo Costa, Costa, Diogo, Couto, Alvarina, De Girolamo, Mirko, Du, Hao, Fu, Shi-Jian, Garrido-Garduño, T., Gettova, L., Gilles, A., Hamoy, Igor Guerreiro, Herrera, C. M., Heussler, Carina, Isidro, Eduardo, Josso, Céline, Krapf, Patrick, Lamont, Robert W., Le Ralec, Anne, Lopes, Susana, Luis, Carla, Luo, Hui, Maheo, Frédérique, Marino, Ilaria A. M., Mieuzet, Lucie, Murray, Brent W., Ogbourne, Steven M., Pallavicini, Alberto, Parejo-Farnés, C., Patarnello, Tomaso, Paty, Chrystelle, Pereira, Carolina, Pinho, Catarina, Pinto, Pablo, Poinsot, Denis, Powell, Adrienne, Putman, Alexander I., Santoro, André, Santos, Sidney, Schlick-Steiner, Birgit C., Scott, Candace, Barbosa, Maria Silvanira, Simkova, A., Simon, Jean-Christophe, Solé-Cava, Antonio, Steiner, Florian M., Sun, Zhengxin, Torboli, Valentina, Tredway, Lane P., de Groot, Peter J. Van Coeverden, Vasconcellos, Anderson, Vázquez-Domínguez, E., Wang, Deng-Qiang, Wang, Yu-Xiang, Wei, Qi-Wei, Zane, Lorenzo, Zhang, Shu-Huan, Department of Biology, Universita degli Studi di Padova, Departamento Biología Vegetal y Ecología, Institute of Ecology, Molecular Ecology Group, University of Innsbruck, Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École pratique des hautes études (EPHE)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), Queen's University [Kingston], Department of Plant Pathology, North Carolina State University [Raleigh] (NC State), University of North Carolina System (UNC)-University of North Carolina System (UNC), GeneCology Research Centre, University of the Sunshine Coast, Institut de Génétique, Environnement et Protection des Plantes (IGEPP), AGROCAMPUS OUEST-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut National de la Recherche Agronomique (INRA), Université européenne de Bretagne - European University of Brittany (UEB), Instituto de Ciências Biológicas, Laboratório de Tecnologia Biomolecular, Federal University of Para - Universidade Federal do Para [Belem - Brésil], CIBIO/UP, Centro de Investigação em Biodiversidade e Recursos Genéticos, Universidade do Porto [Porto], Instituto do Mar (IMAR), Department of Oceanography and Fisheries, University of the Azores, Key Laboratory of Freshwater Biodiversity Conservation, Ministry of Agriculture of China, Yangtze River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Laboratory of Evolutionary Physiology and Behaviour, Chongqing Key Laboratory of Animal Biology, Chongqing University, Instituto de Ecología, Departamento de Ecología de la Biodiversidad / Posgrado en Ciencias Biológicas, Universidad National Autonoma de Mexico, Faculty of Science, Department of Botany and Zoology, Masaryk University, Institut méditerranéen de biodiversité et d'écologie marine et continentale (IMBE), Avignon Université (AU)-Aix Marseille Université (AMU)-Institut de recherche pour le développement [IRD] : UMR237-Centre National de la Recherche Scientifique (CNRS), Universidade Federal Rural da Amazônia (UFRA), Instituto de Ciências Biológicas, Laboratório de Genética Humana e Médica, Estación Biológica de Doñana, Spanish National Research Council (CSIC), Fisheries College, Huazhong Agricultural University, Natural Resources and Environmental Studies Institute, University of Northern British Columbia (UNBC), Dipartimento di Scienze della Vita, Laboratorio di Genetica, University of Trieste, Department of Comparative Biomedicine and Food Science, Instituto de Biologia, Laboratório de Biodiversidade Molecular, Universidade Federal Rural do Rio de Janeiro (UFRRJ), Instituto de Ciências Biológicas, Laboratório de Polimorfismo de DNA, Instituto de Ecología, Departamento de Ecología de la Biodiversidad, Università degli Studi di Padova = University of Padua (Unipd), Leopold Franzens Universität Innsbruck - University of Innsbruck, Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), Queen's University [Kingston, Canada], Institut National de la Recherche Agronomique (INRA)-Université de Rennes (UR)-AGROCAMPUS OUEST, Federal University of Para - Universidade Federal do Pará - UFPA [Belém, Brazil] (UFPA), Universidade do Porto = University of Porto, Masaryk University [Brno] (MUNI), Estación Biológica de Doñana (EBD), Consejo Superior de Investigaciones Científicas [Madrid] (CSIC), Huazhong Agricultural University [Wuhan] (HZAU), University of Northern British Columbia [Prince George] (UNBC), Università degli studi di Trieste = University of Trieste, Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École pratique des hautes études (EPHE), Institut National de la Recherche Agronomique (INRA)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Universidade do Porto, Centre National de la Recherche Scientifique (CNRS)-Institut de recherche pour le développement [IRD] : UMR237-Aix Marseille Université (AMU)-Avignon Université (AU), Cecilia, Agostini, R. G., Albaladejo, A., Aparicio, Wolfgang, Arthofer, P., Berrebi, Peter T., Boag, Ignazio, Carbone, Gabriel C., Conroy, A. M., Cortesero, Evonnildo Costa, Gonçalve, Diogo, Costa, Alvarina, Couto, MIrko De, Girolamo, Hao, Du, Shi Jian, Fu, T., Garrido Garduño, L., Gettová, A., Gille, Igor Guerreiro, Hamoy, C. M., Herrera, Carina, Heussler, Eduardo, Isidro, C., Josso, Patrick, Krapf, Robert W., Lamont, A., Le Ralec, Susana, Lope, Carla, Luí, Hui, Luo, F., Mahéo, Ilaria A. M., Marino, L., Mieuzet, Brent W., Murray, Steven M., Ogbourne, Pallavicini, Alberto, C., Parejo Farné, Tomaso, Patarnello, C., Paty, Carolina, Pereira, Catarina, Pinho, Pablo, Pinto, D., Poinsot, Adrienne, Powell, Alexander I., Putman, André, Santoro, Sidney, Santo, Birgit C., Schlick Steiner, Candace, Scott, Maria Silvanira, Barbosa, A., Šimková, J. C., Simon, Antonio Solé, Cava, Florian M., Steiner, Zhengxin, Sun, Torboli, Valentina, Lane P., Tredway, Peter J., Van Coeverden de Groot, Anderson, Vasconcello, E., Vázquez Domínguez, Deng Qiang, Wang, Yu Xiang, Wang, Qi Wei, Wei, Lorenzo, Zane, and Shu Huan, Zhang

Subjects
0106 biological sciences, 0303 health sciences, [SDV]Life Sciences [q-bio], Computational Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Databases, Genetic, micropsatellites, Genetics, Animals, Ecology, Evolution, Behavior and Systematics, Microsatellite Repeats, 030304 developmental biology, Biotechnology
Abstract

International audience; This article documents the addition of 234 microsatellite marker loci to the Molecular Ecology Resources Database. Loci were developed for the following species: Acipenser sinensis, Aleochara bilineata, Aleochara bipustulata, Barbus meridionalis, Colossoma macropomum, Delia radicum, Drosophila nigrosparsa, Fontainea picrosperma, Helianthemum cinereum, Liomys pictus, Megabalanus azoricus, Pelteobagrus vachelli, Pleuragramma antarcticum, Podarcis hispanica type 1A, Sardinella brasiliensis and Sclerotinia homoeocarpa. These loci were cross-tested on the following species: Acipenser dabryanus, Barbus balcanicus, Barbus barbus, Barbus cyclolepis, Drosophila hydei, Drosophila melanogaster, Drosophila obscura, Drosophila subobscura, Fontainea australis, Fontainea fugax, Fontainea oraria, Fontainea rostrata, Fontainea venosa, Podarcis bocagei, Podarcis carbonelli, Podarcis liolepis, Podarcis muralis and Podarcis vaucheri.

Published
2013
Full Text
View/download PDF

31. Molecular analysis reveals high compartmentalization in aphid-primary parasitoid networks and low parasitoid sharing between crop and noncrop habitats

Author

Marion Maret, Alan Walton, Anne Le Ralec, Mathilde M. Besson, Darren M. Evans, Manuel Plantegenest, Stephane A. P. Derocles, Institut de Génétique, Environnement et Protection des Plantes (IGEPP), Institut National de la Recherche Agronomique (INRA)-Université de Rennes (UR)-AGROCAMPUS OUEST, School of Biological, Biomedical and Environmental Sciences, University of Hull, Institut National de la Recherche Agronomique (INRA)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), AGROCAMPUS OUEST-Université de Rennes 1 (UR1), and Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut National de la Recherche Agronomique (INRA)

Subjects
Crops, Agricultural, 0106 biological sciences, Competitive Behavior, Food Chain, agroecosystems, apparent competition, Molecular Sequence Data, Aphidiinae parasitoids, Biological pest control, Parasitism, Generalist and specialist species, 010603 evolutionary biology, 01 natural sciences, Intraspecific competition, Parasitoid, host–parasitoid communities, Genetics, Animals, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, 16S rRNA, Aphidiinae, Ecosystem, Ecology, Evolution, Behavior and Systematics, 2. Zero hunger, Aphid, biology, Ecology, Agriculture, 15. Life on land, biology.organism_classification, Hymenoptera, Ecological network, 010602 entomology, Aphids, food webs, France
Abstract

International audience; The ecosystem service of insect pest regulation by natural enemies, such as primary parasitoids, may be enhanced by the presence of uncultivated, semi-natural habitats within agro-ecosystems, although quantifying such host–parasitoid interactions is difficult. Here, we use rRNA 16S gene sequencing to assess both the level of parasitism by Aphidiinae primary parasitoids and parasitoid identity on a large sample of aphids collected in cultivated and uncultivated agricultural habitats in Western France. We used these data to construct ecological networks to assess the level of compartmentalization between aphid and parasitoid food webs of cultivated and uncultivated habitats. We evaluated the extent to which uncultivated margins provided a resource for parasitoids shared between pest and nonpest aphids. We compared the observed quantitative ecological network described by our molecular approach to an empirical qualitative network based on aphid–parasitoid interactions from traditional rearing data found in the literature. We found that the molecular network was highly compartmentalized and that parasitoid sharing is relatively rare between aphids, especially between crop and noncrop compartments. Moreover, the few cases of putative shared generalist parasitoids were questionable and could be due to the lack of discrimination of cryptic species or from intraspecific host specialization. Our results suggest that apparent competition mediated by Aphidiinae parasitoids is probably rare in agricultural areas and that the contribution of field margins as a source of these biocontrol agents is much more limited than expected. Further large-scale (spatial and temporal) studies on other crops and noncrop habitats are needed to confirm this.

Published
2014
Full Text
View/download PDF

32. Selecting volatiles to protect brassicaceous crops against the cabbage root fly, Delia radicum

Author

Alice Mortreuil, Sébastein Dugravot, Anne Le Ralec, Alan Kergunteuil, and Anne-Marie Cortesero

Subjects
0106 biological sciences, Diamondback moth, biology, fungi, Green leaf volatiles, food and beverages, biology.organism_classification, 01 natural sciences, Predation, 010602 entomology, chemistry.chemical_compound, Horticulture, chemistry, Insect Science, Botany, Anthomyiidae, Beneficial insects, PEST analysis, Ecology, Evolution, Behavior and Systematics, Methyl salicylate, Delia radicum, 010606 plant biology & botany
Abstract

Volatiles resulting from plant–herbivore interactions play an important role in the behavioral decisions of phytophagous, predatory, and parasitoid insects and could be used for managing pest insects. However, to date and after about 40 years of research, documented studies on applications in the field remain extremely scarce. Delia radicum L. (Diptera: Anthomyiidae), the cabbage root fly, is a major pest of brassicaceous crops for which classical control strategies are currently lacking. Our previous studies showed that dimethyl disulfide (DMDS), a compound emitted by roots heavily infested by D. radicum larvae, was attractive for the fly’s main natural enemies and could lead to a reduction of 60% in number of eggs laid on treated plants in the field. As a follow-up of this work, we conducted another field study to select additional volatiles that could be used in a push–pull approach. Several synthetic herbivore-induced plant volatiles, selected on the basis of their potential action on the behavior of both the fly and its natural enemies, were placed in odor dispensers in experimental broccoli plots and their influence on oviposition by D. radicum and egg predation by ground-dwelling predators was assessed. Our results confirmed the role of DMDS in reducing D. radicum egg numbers on broccoli plants and revealed that (Z)-3-hexenyl acetate, a green leaf volatile released by recently damaged plants, strongly stimulated fly oviposition. Also, two of the compounds tested slightly modified predation activity of ground-dwelling predators: acetophenone decreased the proportion of predated patches, whereas methyl salicylate increased it. This study is a first step in designing a push–pull strategy to control the cabbage root fly.

Published
2012
Full Text
View/download PDF

33. Can imperfect host discrimination explain partial patch exploitation in parasitoids?

Author

A. Le Ralec, Jean-Sébastien Pierre, Yannick Outreman, and Eric Wajnberg

Subjects
0106 biological sciences, Ecology, biology, Host (biology), Homoptera, Aphididae, Hymenoptera, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Parasitoid, 010602 entomology, Sitobion avenae, Insect Science, PEST analysis, Braconidae
Abstract

1. Host discrimination by Aphidius rhopalosiphi (De Stefani Perez) (Hymenoptera: Braconidae) was first studied on the grain aphid Sitobion avenae (Fabricius) (Homoptera: Aphididae). Females tended to avoid oviposition in hosts parasitised 3h earlier. No evidence of host discrimination ability on freshly parasitised hosts was suggested, however, and ovipositional experience had no effect on host discrimination. 2. The effects of host discrimination ability on the exploitation strategy of patches containing different proportions of unparasitised hosts and hosts parasitised for 3 h were studied. Females spent less time on patches with a higher proportion of parasitised hosts, reflecting the females' ability to perceive the potential profitability of the patch. This ability may be based on the nature of the hosts encountered (unparasitised or parasitised). 3. Incomplete exploitation of unparasitised hosts was also observed. It seems that this partial exploitation is related to the inability of A. rhopalosiphi to recognise freshly parasitised hosts. As a female may experience a risk of self-superparasitism during patch depletion, this could promote early departure from incompletely exploited patches. 4. The effect of previous experience on the patch exploitation strategy was also assessed. Females were tested twice on two patches of the same quality. Results suggested that the experience acquired during a previous visit led the females to leave the patch sooner and to lay fewer eggs in parasitised hosts. 5. Patch exploitation strategy may therefore be the result of different factors such as host discrimination and experience. The evolutionary consequences of the results are discussed.

Published
2001
Full Text
View/download PDF

34. Regulatory potential of parasitoids over Aphis gossypii Glover, 1877 populations (Hemiptera: Aphididae) under semiarid laboratory conditions.

Author

Bensaad, Raouf, Outreman, Yannick, le Ralec, Anne, and Guenaoui, Yamina

Subjects
COTTON aphid, APHIDS, HEMIPTERA, BIOLOGICAL control of agricultural pests, SEX ratio, LONGEVITY, POTATOES
Abstract

Copyright of Anales de Biología is the property of Servicio de Publicaciones de la Universidad de Murcia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2019
Full Text
View/download PDF

35. Ecological specialization in Diaeretiella rapae (Hymenoptera: Braconidae: Aphidiinae) on aphid species from wild and cultivated plants.

Author

Navasse, Y., Derocles, S.A.P., Plantegenest, M., and Le Ralec, A.

Subjects
BRASSICACEAE, CHENOPODIACEAE, CHENOPODIUM album, PLANT diversity, BIODIVERSITY, PEST control
Abstract

Diaeretiella rapae is an aphid parasitoid with potential for use in biological control strategies. However, several recent genetic studies have challenged the long held view that it is a generalist parasitoid. We investigated its ecological specialization and ability to use resources in cultivated and uncultivated areas. Ecological specialization would reduce its ability to exploit the diversity of aphid species, particularly in uncultivated areas, and to control pest aphids. Four D. rapae strains were studied, three reared on pest aphids on Brassicaceae and one strain on a non-pest aphid on Chenopodiaceae. For each strain, we performed host-switching experiments, with a total of six aphid species, five of which D. rapae parasitizes in France. We tested cross-breeding ability between strains to detect potential reproductive isolation linked to aphid host species in D. rapae. The strain reared on non-pest aphids was able to develop on aphid species from both cultivated and uncultivated plants. The strains reared on pest aphids, however, exclusively parasitized aphid species on cultivated Brassicaceae. In addition, reproductive isolation was detected between strains from uncultivated and cultivated plants. Thus, the D. rapae populations examined here appear to be showing ecological specialization or they may even be composed of a complex of cryptic species related to the aphid hosts. The role of Chenopodium album as a reservoir for D. rapae, by providing a habitat for non-pest aphids on which it can feed, appears to be severely limited, and thus its efficiency to maintain local populations of D. rapae in the vicinity of crops is questionable. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

36. Abdominal sensory equipment involved in external host discrimination in a solitary parasitoid wasp

Author

Marlène Goubault, Anne-Marie Cortesero, Julie Fourrier, Anne Le Ralec, Chrystelle Paty, Sonia Dourlot, Biologie des organismes et des populations appliquées à la protection des plantes (BIO3P), AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut National de la Recherche Agronomique (INRA), Institut National de la Recherche Agronomique (INRA)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-AGROCAMPUS OUEST, and Institut National de la Recherche Agronomique (INRA)-Université de Rennes (UR)-AGROCAMPUS OUEST

Subjects
0106 biological sciences, Histology, Population, Wasps, HYMENOPTERA, Parasitism, Zoology, EPIDINOCARSIS-LOPEZI, TRICHOGRAMMATIDAE, Hymenoptera, OVIPOSITION BEHAVIOR, MESH: Abdomen, 010603 evolutionary biology, 01 natural sciences, MESH: Host-Parasite Interactions, Parasitoid, Parasitoid wasp, Host-Parasite Interactions, Lepidoptera genitalia, ULTRASTRUCTURE, MESH: Behavior, Animal, Abdomen, HYM, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, Animals, MESH: Animals, Sensilla, education, Instrumentation, education.field_of_study, biology, Behavior, Animal, Host (biology), fungi, ACCEPTANCE BEHAVIOR, HETEROPTERA, Anatomy, biology.organism_classification, MESH: Sensilla, LEPIDOPTERA, 010602 entomology, Medical Laboratory Technology, Ovipositor, MORPHOLOGY, Female, MESH: Wasps, MESH: Female
Abstract

Already parasitized hosts are often of poorer quality than healthy hosts. It is therefore usually advantageous for parasitoid females to recognize and reject them. Parasitized hosts can be identified on the basis of various physical or chemical marks present on the surface or inside the hosts or their surroundings in the case of concealed host. Here we studied host discrimination behaviors of females of a certain population of Pachycrepoideus vindemmiae, a solitary ectoparasitoid, which are known to reject large-sized parasitized hosts after an abdominal examination of their surface. We first investigated females' recognition behaviors of host parasitism status when confronted to small-sized hosts (Drosophila melanogaster pupae) as host size may influence the use of different cues for host selection. We showed that, in such a situation, females also discriminate parasitized hosts after an external host exploration with the tip of their ovipositor sheath (third valvulae). We then described the sense organs present on the different parts of the ovipositor by means of scanning and transmission electron microscopy analysis. As the extremity of the third valvulae bears only one type of sensilla that appears to be chemoreceptors, we considered these sensilla as highly likely to be involved in host discrimination in P. vindemmiae. To our knowledge, this is the first time that receptors located on the ovipositor sheath are described as implicated in host discrimination in parasitoid wasps. We discuss potential chemical markers that might be detected by these receptors.

Published
2011
Full Text
View/download PDF

37. Are generalist Aphidiinae (Hym. Braconidae) mostly cryptic species complexes?

Author

DEROCLES, STEPHANE A. P., PLANTEGENEST, MANUEL, RASPLUS, JEAN‐YVES, MARIE, ALEXIA, EVANS, DARREN M., LUNT, DAVID H., and LE RALEC, ANNE

Subjects
BRACONIDAE, HYMENOPTERA, PARASITOID behavior, INSECT genetics, INSECT morphology
Abstract

Aphidiinae are mostly composed of specialist parasitoids and the few species described as generalist are suspected to be composed of cryptic specialists, almost indistinguishable based on morphological characteristics. The use of molecular markers has proven to be a useful tool for revealing cryptic species complexes and here we use seven mitochondrial and nuclear gene fragments to study possible genetic differentiation among seven Aphidiinae generalists. Maximum likelihood ( ML) trees and Bayesian Poisson tree processes ( bPTP) models were conducted on each gene separately and on the seven genes together. The standard cytochrome c oxidase I barcode region appeared to be the most polymorphic and probably the best marker to reveal putative cryptic species. However, we showed with ML trees and bPTP models that a complementary use of mitochondrial and nuclear genes was the most relevant approach to reliably identify cryptic genetic clades in the Aphidiinae. Overall, most of the analysed generalist morphospecies were shown to be composed of subgroups related to the aphid host, some of them revealed as cryptic species by the species delimitation analysis. Further studies are needed to reveal the generality of this result in Aphidiinae. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

38. Field and laboratory selection of brassicaceous plants that differentially affect infestation levels by Delia radicum.

Author

Kergunteuil, A., Cortesero, A. M., Chaminade, V., Dourlot, S., Paty, C., Le Ralec, A., and Dugravot, S.

Subjects
CRUCIFERAE diseases & pests, INSECT-plant relationships, PLANT protection, INSECT pest control, HERBIVORES, DELIA
Abstract

Several plant traits control plant-insect interactions and shape host range of herbivorous insects according to their degree of dietary specialization. Understanding how plant species diversity influences herbivore infestations is of interest for the development of alternative crop protection strategies. In a pest management context, an appropriate selection of plants can modify pest distribution at the field scale. To develop a 'push-pull' strategy against the cabbage root fly, Delia radicum, we conducted a field study to both determine which plants exhibit contrasted pest infestation levels and to evaluate their influence on egg predation activity. Our field experiment reveals that infestation levels of brassicaceous plants by the cabbage root fly in the field can vary considerably according to plant genotype and species, while the number of predated eggs is only slightly affected by plant species. Olfactometry studies carried out under laboratory conditions revealed that plants harbouring the highest number of eggs in the field were also highly attractive, suggesting that olfactory stimuli are responsible, at least partially, for the differential infestation levels observed in the field. In a 'push-pull' context, this study demonstrates that different brassicaceous plants could be used to redistribute cabbage root flies in broccoli crops without compromising herbivore control by natural enemies. In addition, the importance of plant volatiles for infestation levels suggests a potential for developing a semiochemically assisted 'push-pull' system in which trap plants would be enhanced by synthetic release of attractive compounds. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

39. Molecular analysis reveals high compartmentalization in aphid-primary parasitoid networks and low parasitoid sharing between crop and noncrop habitats.

Author

Derocles, Stephane A. P., Le Ralec, Anne, Besson, Mathilde M., Maret, Marion, Walton, Alan, Evans, Darren M., and Plantegenest, Manuel

Subjects
APHIDS, RIBOSOMAL RNA, NUCLEOTIDE sequence, PARASITOIDS, BIOLOGICAL pest control agents
Abstract

The ecosystem service of insect pest regulation by natural enemies, such as primary parasitoids, may be enhanced by the presence of uncultivated, semi-natural habitats within agro-ecosystems, although quantifying such host-parasitoid interactions is difficult. Here, we use rRNA 16S gene sequencing to assess both the level of parasitism by Aphidiinae primary parasitoids and parasitoid identity on a large sample of aphids collected in cultivated and uncultivated agricultural habitats in Western France. We used these data to construct ecological networks to assess the level of compartmentalization between aphid and parasitoid food webs of cultivated and uncultivated habitats. We evaluated the extent to which uncultivated margins provided a resource for parasitoids shared between pest and nonpest aphids. We compared the observed quantitative ecological network described by our molecular approach to an empirical qualitative network based on aphid-parasitoid interactions from traditional rearing data found in the literature. We found that the molecular network was highly compartmentalized and that parasitoid sharing is relatively rare between aphids, especially between crop and noncrop compartments. Moreover, the few cases of putative shared generalist parasitoids were questionable and could be due to the lack of discrimination of cryptic species or from intraspecific host specialization. Our results suggest that apparent competition mediated by Aphidiinae parasitoids is probably rare in agricultural areas and that the contribution of field margins as a source of these biocontrol agents is much more limited than expected. Further large-scale (spatial and temporal) studies on other crops and noncrop habitats are needed to confirm this. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

40. Effects of field and landscape variables on crop colonization and biological control of the cabbage root fly Delia radicum.

Author

Josso, Céline, Le Ralec, Anne, Raymond, Lucie, Saulais, Julia, Baudry, Jacques, Poinsot, Denis, and Cortesero, Anne Marie

Subjects
AGRICULTURE & the environment, BIOLOGICAL control of agricultural pests, CABBAGE maggot, BROCCOLI, BIOLOGICAL pest control research
Abstract

Agriculture intensification has deeply modified agroecosystems from field to landscape scales. To achieve successful pest control using natural enemies, understanding species interactions over all scales remains a challenge. Using the cabbage root fly as a model, we studied whether field and landscape characteristics influenced colonization and infestation of broccoli fields by the pest and its control by natural enemies. We also determined whether species of different trophic level or host specialization would respond to environmental characteristics at the same spatial extent. During a multiple-species and multiple-spatial extent study in northwestern France, we recorded pest colonization and infestation in 68 fields, collected associated natural enemies and assessed crop damages. In each field, we considered management practices and characterized the surrounding landscape in 50–500 m-wide buffers. Our main findings are that Delia radicum and its main natural enemies respond to both field and landscape characteristics. Semi-natural areas supported both crop colonization by pests and natural enemy action. The pest and its enemies differed in their responses to field or landscape variables. Landscape elements such as field banks favored the movement of the pest while impeding the movement of some natural enemies. Pest pressure did not increase with the neighboring density of Brassica crops. The presence of natural enemies did not reduce crop damage but reduced pest emerging rates. Finally, specialist parasitoids responded to the landscape at larger spatial extents than generalists. These results outline the complexity of improving pest control through landscape management. [ABSTRACT FROM AUTHOR]

Published
2013
Full Text
View/download PDF

41. A universal method for the detection and identification of Aphidiinae parasitoids within their aphid hosts.

Author

DEROCLES, STEPHANE A. P., PLANTEGENEST, MANUEL, SIMON, JEAN-CHRISTOPHE, TABERLET, PIERRE, and LE RALEC, ANNE

Subjects
APHID host plants, MOLECULAR biology techniques, PARASITOIDS, HOST-parasite relationships, GENETIC markers, GENE amplification, PARASITISM, FOOD chains
Abstract

Molecular methods are increasingly used to detect and identify parasites in their hosts. However, existing methods are generally not appropriate for studying complex host-parasite interactions because they require prior knowledge of species composition. DNA barcoding is a molecular method that allows identifying species using DNA sequences as an identification key. We used DNA amplification with primers common to aphid parasitoids and sequencing of the amplified fragment to detect and identify parasitoids in their hosts, without prior knowledge on the species potentially present. To implement this approach, we developed a method based on 16S rRNA mitochondrial gene and LWRh nuclear gene. First, we designed two primer pairs specific to Aphidiinae (Hymenoptera), the main group of aphid parasitoids. Second, we tested whether the amplified regions could correctly identify Aphidiinae species and found that 61 species were accurately identified of 75 tested. We then determined the ability of each primer pair to detect immature parasitoids inside their aphid host. Detection was earlier for 16S than for LWRh, with parasitoids detected, respectively, 24 and 48 h after egg injection. Finally, we applied this method to assess parasitism rate in field populations of several aphid species. The interest of this tool for analysing aphid-parasitoid food webs is discussed. [ABSTRACT FROM AUTHOR]

Published
2012
Full Text
View/download PDF

42. Identification of molecular markers for DNA barcoding in the Aphidiinae (Hym. Braconidae).

Author

DEROCLES, STEPHANE A. P., LE RALEC, ANNE, PLANTEGENEST, MANUEL, CHAUBET, BERNARD, CRUAUD, CORINNE, CRUAUD, ASTRID, and RASPLUS, JEAN-YVES

Subjects
*BRACONIDAE, *APHIDIIDAE, *MORPHOLOGY, *BIOMARKERS, *GENETICS
Abstract

Reliable identification of Aphidiinae species (Braconidae) is a prerequisite for conducting studies on aphid-parasitoid interactions at the community level. However, morphological identification of Aphidiinae species remains problematic even for specialists and is almost impossible with larval stages. Here, we compared the efficiency of two molecular markers [mitochondrial cytochrome c oxydase I (COI) and nuclear long wavelength rhodopsin (LWRh)] that could be used to accurately identify about 50 species of Aphidiinae that commonly occur in aphid-parasitoid networks in northwestern Europe. We first identified species on a morphological basis and then assessed the consistency of genetic and morphological data. Probably because of mitochondrial introgression, Aphidius ervi and A. microlophii were indistinguishable on the basis of their COI sequences, whereas LWRh sequences discriminated these species. Conversely, because of its lower variability, LWRh failed to discriminate two pairs of species ( Aphidius aquilus, Aphidius salicis, Lysiphlebus confusus and Lysiphlebus fabarum). Our study showed that no unique locus but a combination of two genes should be used to accurately identify members of Aphidiinae. [ABSTRACT FROM AUTHOR]

Published
2012
Full Text
View/download PDF

43. Epicuticular Factors Involved in Host Recognition for the Aphid Parasitoid Aphidius rhopalosiphi.

Author

Frédéric Muratori, Anne Le Ralec, Georges Lognay, and Thierry Hance

Abstract

In insect parasitoids, fitness is dependent on the host finding and recognition abilities of the female. Host recognition cues have been described for various host–parasitoid systems, but are still under investigation in aphid parasitoids. Our study aimed to clarify the respective role of physical and chemical cues in recognition of the aphid cuticle. Shed aphid exuviae were used as an elicitor in order to avoid any influence of color, movement, or volatiles present in a living aphid. We assessed the effect of chemical and heat treatments on the texture of the cuticle by using scanning electron microscopy and tested the recognition of treated cuticles by the parasitoid. We showed that recognition cues of the cuticle can be removed chemically (using combined treatments with n-hexane and methanol). Moreover, heat treatment destroyed the physical texture of the cuticle without significantly reducing parasitoid recognition. In a second step, we showed that epicuticular extracts deposited on pieces of paper triggered female attack behavior. First results concerning the chemical composition of the active extract are presented. This study shows that chemical compounds extractable by organic solvents mediate cuticle recognition by aphid parasitoids. [ABSTRACT FROM AUTHOR]

Published
2006
Full Text
View/download PDF

44. Playing the hare or the tortoise in parasitoids: could different oviposition strategies have an influence in host partitioning in two Aphidius species?

Author

Van Baaren, J., Héterier, V., Hance, T., Krespi, L., Cortesero, A.M., Poinsot, D., Le Ralec, A., and Outreman, Y.

Abstract

In this paper, we compare the host selection behaviours of two parasitoids, Aphidius rhopalosiphi and Aphidius picipes, in order to analyse whether behavioural adaptations to the defensive behaviour of their host (the grain aphid Sitobion avenae) could, in part, be responsible for the simultaneous presence of both species in cereal fields. The oviposition behaviour of A. picipes differed from that of A. rhopalosiphi by including a number of ‘fluttering wings’ sequences followed by immobility. It resulted in a 44 times longer host-handling time for A. picipes than for A. rhopalosiphi. Hosts attacked by A. picipes exhibited fewer defensive behaviours than hosts attacked by A. rhopalosiphi. A. picipes and A. rhopalosiphi rejected respectively 0% and 53% of unparasitized hosts presenting cornicle secretions, one of the defensive means of aphids. Furthermore, A. picipes females rejected 100% of the hosts that were already parasitized, whereas A. rhopalosiphi was previously described to reject only 20 to 40% of such hosts. Such differences could be explained by the way the two species deal with the aphid defensive behaviour. Field analyses, showed that A. rhopalosiphi was already present in wheat fields in early April whereas A. picipes appeared later and only achieved a low level of parasitism. However, when both species were present simultaneously, they shared the same resource. [ABSTRACT FROM PUBLISHER]

Published
2004
Full Text
View/download PDF

45. Can imperfect host discrimination explain partial patch exploitation in parasitoids?

Author

Outreman, Y., Le Ralec, A., Wajnberg, E., and Pierre, J. S.

Subjects
APHIDIUS, GRAIN, EXPLOITATION of humans
Abstract

Summary 1. Host discrimination by Aphidius rhopalosiphi (De Stefani Perez) (Hymenoptera: Braconidae) was first studied on the grain aphid Sitobion avenae (Fabricius) (Homoptera: Aphididae). Females tended to avoid oviposition in hosts parasitised 3 h earlier. No evidence of host discrimination ability on freshly parasitised hosts was suggested, however, and ovipositional experience had no effect on host discrimination. 2. The effects of host discrimination ability on the exploitation strategy of patches containing different proportions of unparasitised hosts and hosts parasitised for 3 h were studied. Females spent less time on patches with a higher proportion of parasitised hosts, reflecting the females' ability to perceive the potential profitability of the patch. This ability may be based on the nature of the hosts encountered (unparasitised or parasitised). 3. Incomplete exploitation of unparasitised hosts was also observed. It seems that this partial exploitation is related to the inability of A. rhopalosiphi to recognise freshly parasitised hosts. As a female may experience a risk of self-superparasitism during patch depletion, this could promote early departure from incompletely exploited patches. 4. The effect of previous experience on the patch exploitation strategy was also assessed. Females were tested twice on two patches of the same quality. Results suggested that the experience acquired during a previous visit led the females to leave the patch sooner and to lay fewer eggs in parasitised hosts. 5. Patch exploitation strategy may therefore be the result of different factors such as host discrimination and experience. The evolutionary consequences of the results are discussed. [ABSTRACT FROM AUTHOR]

Published
2001
Full Text
View/download PDF

46. "Generalist" Aphid Parasitoids Behave as Specialists at the Agroecosystem Scale.

Author

Derocles, Stéphane A.P., Navasse, Yoann, Buchard, Christelle, Plantegenest, Manuel, and Le Ralec, Anne

Subjects
APHIDS, PARASITOIDS, AGRICULTURAL pests, PLANT species, BIOLOGICAL control of insects, IMPACT craters
Abstract

The degree of trophic specialization of interacting organisms impacts on the structure of ecological networks and has consequences for the regulation of crop pests. However, it remains difficult to assess in the case of parasitoids. Host ranges are often established by listing host records from various years and geographic areas in the literature. Here, we compared the actual hosts exploited at a local farm-scale by aphid parasitoids (Hymenoptera: Aphidiinae), to the available species listed as hosts for each parasitoid species. We sampled aphids and their parasitoids in cultivated and uncultivated areas in an experimental farm from April to November 2014 and thereafter used DNA-based data to determine whether a differentiation in sequences existed. Twenty-nine parasitoid species were found on 47 potential aphid hosts. Our results showed that the great majority of the parasitoid tested used fewer host species than expected according to data published in the literature and parasitized a limited number of hosts even when other potential hosts were available in the environment. Moreover, individuals of the most generalist species differed in their DNA sequences, according to the aphid species and/or the host plant species. At a local scale, only obligate or facultative specialist aphid parasitoids were detected. Local specialization has to be considered when implementing the use of such parasitoids in pest regulation within agroecosystems. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

47. Variability in the development of cereal aphid parasitoids and hyperparasitoids in oceanic regions as a response to climate and abundanceof hosts

Author

Le Ralec, Anne, Dedryver, Charles-Antoine, Creach, Veronique, Krespi, Liliane, Rabasse, Jean-Michel, and Nenon, Jean-Pierre

Subjects
ENTOMOLOGY, PARASITOLOGY
Abstract

Experiments were conducted to understand how parasitoids and hyperparasitoids of cereal aphids in oceanic regions survive the periodic disappearance of their hosts. We recorded the number of parasitoids andhyperparasitoids emerging from mummies collected in summer on winterwheat and corn and in winter on cereal volunteers. In addition, we studied the duration of both summer and winter development of Aphidiusrhopalosiphi De Stefani-Perez, the main parasitoid species of cerealaphids. In summer, interruption in development occurred in primary parasitoids which resulted in a longer development time (up to 4 m). These interruptions were fairly infrequent but they did ensure the survival of part of the population when there was a large decrease or disappearance of the aphid population. A longer duration of summer development also was recorded in a few hyperparasitoids. In winter, an important variability in the length of the development of primary parasitoids was noted which reflected their adaptive closeness to the aphid cycle. All hyperparasitoids studied here had long interruptions in their development and emerged only at the end of winter. [ABSTRACT FROM AUTHOR]

Published
1997

48. Influence of soil tillage on natural regulation of the cabbage root fly Delia radicum in brassicaceous crops.

Author

Mesmin, Xavier, Cortesero, Anne-Marie, Daniel, Loïc, Plantegenest, Manuel, Faloya, Vincent, and Le Ralec, Anne

Subjects
*TILLAGE, *BROCCOLI, *SOIL management, *CABBAGE, *PEST control, *PREDATOR management
Abstract

• We investigated whether plowing and harrowing modify pest natural regulation. • Emerging rates of carabids and spiders were not modified by soil tillage. • Plowing and/or harrowing did not affect D. radicum natural regulation. • Shallow tillage lowered the late emergence of carabids overwintering as larvae. • Soil tillage in the spring may affect pest natural regulation on autumn crops. Ground dwelling predators provide regulation services of several insect pests. Enhancing these services may be a step toward integrated crop protection. Many studies have shown that soil tillage is deleterious to ground dwelling predators but pest regulation processes and services have rarely been measured. We performed an experiment to study whether simplifying soil tillage before the establishment of spring broccoli enhanced ground dwelling predator populations and the control they provide on Delia radicum. The direct effect of tillage on arthropods was assessed by comparing their emergence rates in plots differing in soil tillage management. The natural regulation service was assessed by comparing a control and an exclusion treatment in which predators were removed. The effect of soil tillage on carabids, spiders and staphylinids did not match the gradient of disturbance induced by tillage treatments. Tillage did not appear to affect the predators that likely contribute to D. radicum regulation. Consistently, the number of pests suppressed and the root injuries were unaffected by tillage treatments. The main deleterious effect of soil tillage was on the emergence of those carabid species that overwinter partly as larvae, suggesting that spring tillage could affect pest control in the following crops. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results