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Biblio

Publications scientifiques (à comité de lecture)

  • 2015
    • Gruau, C., Trotel-Aziz, P., Villaume, S., Rabenoelina, F., Clément, C., Baillieul, F., and Aziz, A. (2015). Pseudomonas fluorescens PTA-CT2 triggers local and systemic immune response against Botrytis cinerea in grapevine. Mol. Plant Microbe Interact.

    • Chalal, M., Winkler, J.B., Gourrat, K., Trouvelot, S., Adrian, M., Schnitzler, J.-P., Jamois, F., and Daire, X. (2015). Sesquiterpene volatile organic compounds (VOCs) are markers of elicitation by sulfated laminarine in grapevine.Front. Plant Sci. 6, 350.

    • Benouaret, R., and Goupil, P. (2015). The grape marc extract-induced defense reactions and protection against Phytophthora parasitica are impaired in NahG tobacco plants. J. Agric. Food Chem.

    • Benouaret, R., Goujon, E., and Goupil, P. (2014). Grape marc extract causes early perception events, defence reactions and hypersensitive response in cultured tobacco cells. Plant Physiol. Biochem. 77, 84–89.

    • Aziz, A., Verhagen, B., Magnin-Robert, M., Couderchet, M., Clément, C., Jeandet, P., and Trotel-Aziz, P. (2015).Effectiveness of beneficial bacteria to promote systemic resistance of grapevine to gray mold as related to phytoalexin production in vineyards. Plant Soil 1–13.

    • Paris, F., Krzyżaniak, Y., Gauvrit, C., Jamois, F., Domergue, F., Joubès, J., Ferrières, V., Adrian, M., Legentil, L., Daire, X., and Trouvelot, S. (2015) An ethoxylated surfactant enhances the penetration of the sulfated laminarin through leaf cuticle and stomata, leading to increased induced resistance against grapevine downy mildew. Physiologia Plantarum.

    • Magnin-Robert, M., Bourse, D.L., Markham, J.E., Dorey, S., Clément, C., Baillieul, F., and Dhondt-Cordelier, S.(2015). Modifications of sphingolipid content affect tolerance to hemibiotrophic and necrotrophic pathogens by modulating plant defense responses in Arabidopsis. Plant Physiol. pp.01126.2015.

    • Chalal M., Winkler J.B., Gourrat K., Trouvelot S., Adrian M., Schnitzler J.P., Jamois F., Daire X. (2015). Sesquiterpene volatile organic compounds (VOCs) are markers of elicitation by sulfated laminarine in grapevine. Front Plant Sci. 6:350.

    • Aljabal M., Picot A., Turner M., Goulitquer S., Charton S., Leblanc C., Neema C., Hallier S. (2015). Impact of abiotic stresses on the protection efficacy of defence elicitors and on metabolic regulation in tomato leaves infected by Botrytis cinerea. Eur J Plant Pathol 142, 223–237.
    • Trdá, L., Boutrot, F., Claverie, J., Brulé, D., Dorey, S., and Poinssot, B. (2015). Perception of pathogenic or beneficial bacteria and their evasion of host immunity: pattern recognition receptors in the frontline. Front. Plant Sci 6, 219.
 
  • 2014
    • Dugé de Bernonville T, Marolleau B, Staub J, Gaucher M & Brisset MN. (2014). Using molecular tools to decipher the complex world of plant resistance inducers: an apple case study. Journal of Agricultural and Food Chemistry 62, 11403-11411.
    • Trouvelot, S., Héloir, M.-C., Poinssot, B., Gauthier, A., Paris, F., Guillier, C., Combier, M., Trdá, L., Daire, X., and Adrian, M. (2014). Carbohydrates in plant immunity and plant protection: roles and potential application as foliar sprays. Front Plant Sci 5, 592.
    • Lachhab, N., Sanzani, S.M., Adrian, M., Chiltz, A., Balacey, S., Boselli, M., Ippolito, A., and Poinssot, B. (2014). Soybean and casein hydrolysates induce grapevine immune responses and resistance against Plasmopara viticola. Front Plant Sci 5.
    • Vergnes, S., Ladouce, N., Fournier, S., Ferhout, H., Attia, F., and Dumas, B. (2014). Foliar treatments with Gaultheria procumbens essential oil induce defense responses and resistance against a fungal pathogen in Arabidopsis. Front Plant Sci 5, 477.
    • Saigne-Soulard, C., Abdelli-Belhadj, A., Télef-Micouleau, M., Bouscaut, J., Cluzet, S., Corio-Costet, M.-F., and Mérillon, J.-M. (2014). Oligosaccharides from Botrytis cinerea and Elicitation of Grapevine Defense. In Polysaccharides, K.G. Ramawat, and J.-M. Mérillon, eds. (Springer International Publishing), pp. 1–18.
    • Benouaret R, Goujon E, Goupil P. (2014) Grape marc extract causes early perception events, defence reactions and hypersensitive response in cultured tobacco cells. Plant Physiol Biochem - 77:84-9. doi: 10.1016/j.plaphy.2014.01.021

    • Benouaret R, Goujon E, Trivella A, Richard C, Ledoigt G, Joubert JM, Mery-Bernardon A, Goupil P. (2014) Water extracts from winery by-products as tobacco defense inducers. Ecotoxicology. doi : 10.1007/s10646-014-1298-3

    • Tayeh, Ch., Randoux, B., Vincent, D., Bourdon, N. and Reignault, Ph. (2014) Exogenous trehalose induces defences in wheat before and during a biotic stress caused by powdery mildew. Phytopathology, accepted for publication, http://dx.doi.org/10.1094/PHYTO-07-13-0191-R 

    • Tayeh, Ch., Randoux, B., Bourdon, N. and Reignault, Ph. 2013. Lipid metabolism is differentially modulated by salicylic acid and heptanoyl salicylic acid during the induction of resistance in wheat against powdery mildew. Journal of Plant Physiology 170 :1620-1629

    • Adrien Gauthier, Sophie Trouvelot, Jani Kelloniemi, Patrick Frettinger, David Wendehenne, Xavier Daire, Jean-Marie Joubert, Alberto Ferrarini, Massimo Delledonne, Victor Flors, Benoit Poinssot (2014) The Sulfated Laminarin Triggers a Stress Transcriptome before Priming the SA- and ROS-Dependent Defenses during Grapevine's Induced Resistance against Plasmopara viticola - Plos One (Lien pour télécharger l'article)

  • 2013
    • Pensec F., Marmonier A., Marchal A., Gersch S., Nassr N., Chong, J., Henry M., Demangeat G. & Bertsch C. (2013). “Gypsophila paniculata root saponins as an environmentally safe treatment against Xiphinema index and Xiphinema diversicaudatum, two natural vectors of grapevine fanleaf degeneration" Submitted online to the Australian Journal of Grape and Wine Research

    • Dufour, Marie-Cécile and Corio-Costet, Marie-France (JUN 2013) Variability in the sensitivity of biotrophic grapevine pathogens (Erysiphe necator and Plasmopara viticola) to acibenzolar-S methyl and two phosphonates - European Journal of Plant Pathology -- 136(2): 247-259 - DOI: 10.1007/s10658-012-0159-2 (lien pour télécharger l'article)

    • Dufour MC, Lambert C, Bouscaut J, Mérillon JM and M-F Corio-Costet (APR 2013) Benzothiadiazole-primed defense responses and enhanced differential expression of defense genes in Vitis vinifera infected with biotrophic pathogens (Erysiphe necator and Plasmopara viticola). Plant Pathology - 62(2): 370-382 - DOI: 10.1111/j.1365-3059.2012.02628.x

  • 2012
    • Goupil P, Benouaret R, Charrier O, Ter Halle A, Richard C, Eyheraguibel B, Thiery D, Ledoigt G. (2012) Grape marc extract acts as elicitor of plant defence responses. Ecotoxicology - 21(5):1541-9. doi: 10.1007/s10646-012-0908-1

    • Massoud K, Barchietto T, Le Rudulier T, Pallandre L, Didierlaurent L, Garmier M, Ambard-Bretteville F, Seng JM, Saindrenan P. (2012). Dissecting phosphite-induced priming in Arabidopsis infected with Hyaloperonospora arabidopsidis. Plant Physiol. 159(1): 286-98.
  • 2011
    • Jaulneau V, LafitteC, Corio-Costet M-F, Stadnick M, Salamagne S, Briand X, Esquerré-Tugayé M-T and DumasB (2011) An Ulva armoricana extract protects plants against three powdery mildew pathogens. Eur. J Plant Pathol, 131: 393-401.

 

Actes de colloque

  • 2015

  • Ade, C., Torres, M., Maisonneuve, B., Pitrat, M., Guerrand, J., Guigal, L., Perus, M., Burlet, A., Lavigne, D., and Bellvert, F. (2015). Use of plant defences inducers against powdery mildew on melon and downy mildew on lettuce. (Association Française de Protection des Plantes (AFPP)), pp. 407–416.

  • Mustafa, G., Tisserant, B., Randoux, B., Fontaine, J., Sahraoui, A.L.H., and Reignault, P. (2015). Arbuscular mycorrhizal fungi as inducers of resistance against wheat powdery mildew. (Association Française de Protection des Plantes (AFPP)), pp. 361–369.

  • Maumene, C., Ors, M.É., Siah, A., Couleaud, G., Randoux, B., Rigolle, P., Selim, S., Halama, P., and Reignault, P.(2015). Efficacy of plant resistance inducers against Septoria tritici blotch and their interaction with three bread wheat cultivars. (Association Française de Protection des Plantes (AFPP)), pp. 417–427.

  • Bonneau, C., Aveline, N., Ayral, J.L., Baillieul, F., Brisset, M.N., Chauvin, J.E., Corio-Costet, M.F., Daire, X., Gaucher, D., Guerrand, J., et al. (2015). DEFISTIM-collaborative-FUI - speed up, optimize and develop the market use of Plant Defense Elicitors, with the use of Decision Support System. (Association Française de Protection des Plantes (AFPP)), pp. 461–470.

  • 2013

    • Razik Benouaret , Eric Goujon , Pascale Goupil (2013) Plant defence inducer properties of the grape marc extract. IOBC-WPRS Bulletin - 89: 95-97
  • 2012

    • Khong, N.G., Randoux, B., Tayeh, Ch., Coutte, F., Bourdon, N., Tisserant, B., Laruelle, F., Jacques Ph. and Reignault Ph. (2012) Induction of resistance in wheat against powdery mildew by bacterial cyclic lipopeptides. Communications in Agricultural and Applied Biological Sciences, 77: 39-51.

    • Ors M., Siah A., Randoux B., Selim S., Boizet F., Couleaud G., Maumen C., Halama P. and Reignault Ph. (2012) Evaluation of plant resistance inducers on different winter soft wheat cultivars against Septoria leaf blotch. Communications in Agricultural and Applied Biological Sciences, 77: 117-124.
    • Stapel O and Guerrand J (2012). High Efficacy of a possible plant elicitor and other phytostimulants against white rust (Puccinia horiana Henn.) in potted chrysanthemum productions.Proc. XXVIIIth IHC – IS on Adv. in Ornamentals, Landscape & Urban Hort. Ed.: G. Groening. Acta Hort. 937, ISHS 2012. (lien pour télécharger l'article)
  • 2011
    • Randoux, B., Tayeh, Ch., Bourdon, N., Tisserant, B., Laruelle, F. and Reignault, Ph. (2011) Induction of resistance in wheat against powdery mildew by bacterial cyclic lipopeptides. Communications in Agricultural and Applied Biological Sciences, 76 : 33-39.

    • Tayeh, Ch., Randoux, B., Bourdon, N. and Reignault, Ph. (2011) Elicitor-induced wheat defense genes against powdery mildew. Communications in Agricultural and Applied Biological Sciences, 76: 41-49.

    • Aveline N., Riffard A., Tite A., Lejealle S., Cluzet S., Corio-Costet MF (2011) Evaluation d’un outil innovant pour étudier la stimulation des défenses de la vigne au vigoble. AFPP-4ème Conf. Int. sur les méthodes alternatives en protection des cultures (lille, 8-10 mars 2011). 8 pages.
  •  2010
    • Randoux, B., Renard-Merlier, D., Mulard, G., Duyme, F., Rossard, S., Courtois, J, Sanssen , J., Durand, R. and Reignault, Ph. (2010) Acetylated and non-acetylated oligogalacturonides elicit different defence responses and induce resistance in wheat against powdery mildew. Phytopathology 12 :1352-63
    • Servier S, Sauge MH, Febvay G, Corre MN, Croset C, Lacroze JP, Rahbé Y, Poëssel JL. (2010). Etude du mode d'action des acides dicaféoylquiniques, molécules naturelles aphicides. In 16e Colloque de Biologie de l'Insecte. Lyon, 18 au 20 octobre 2010.
  • 2009
    • Dufour M-C, and Corio-Costet M-F. (2009)  Impact of grapevine downy and powdery mildew diversity on efficacy of phosphonate derivatives (fosetyl-AL and fertilizer PK2) and salicylic acid (BTH) described as stimulators of plant defences. Bulletin of IOBC working group, “Induced resistance in plants against insects and diseases” (Granada, 12-16 may, Spain).
    • Dufour M-C., Druelle L., Sauris P., Taris G., Corio-Costet M-F. (2009) Efficacités de stimulateurs de défenses des plantes (BTH et phosphonates) sur l’oïdium et le mildiou de la vigne : impact de la diversité des pathogènes. AFPP, 9ème Conférence Internationale sur les maladies des plantes (Tours, 4-5 décembre), p 526-535. CD-Rom

Chapitre d'ouvrages scientifiques

  •  2014
    • Tayeh, Ch., Siah, A., Randoux, B., Halama, P., Walters, D. and Reignault, Ph. (2014) Topical application of inducers for disease control, In : Induced Resistance for Plant Defence, Second edition. Blackwell Publishing (D. Walters, A. Newton, G. Lyon, Eds), in press.
  • 2013
    • Tayeh, Ch., Randoux, B., Laruelle, F., Bourdon, N. Renard-Merlier, D. and Reignault, Ph. (2013) Lipids as markers of induced resistance in wheat: a biochemical and molecular approach. In: Lipid metabolism (R. Valenzuela Ed.) ISBN 980-953-307-142-3, pp. 363-390.

 

Publications de vulgarisation

  • 2015
    • Torres Marie, Ade Céline. 2015. Les stimulateurs de défense des plantes appliqués aux cultures légumières - Les résultats du projet Défileg. Infos CTIFL, n°310 
  • 2014
    • BRISSET M.N., (2014) Les stimulateurs de défense des plantes : le cas du pommier - À l’affût des connaissances - Jardins de France 628 - Mars-avril 2014
    • Pascale Goupil (2014) Les vertus insoupçonnées du marc de raisin - Huffington Post - Lien vers cet article
  • 2013
    • MAROLLEAU B, STAUB J, BARRIERE Q, INDIANA A, GRAVOUIL C, CHARTIER R, HEINTZ C, DEVAUX M, THARAUD M, PAULIN JP, DUGE DE BERNONVILLE T, & BRISSET MN, 2013. La qPFD, un outil de criblage de SDP alias stimulateur de défense des plantes. Phytoma – La Défense des Végétaux - n°664 - p 42-45.
  • 2011
    • HALLIER S., MONOT C., COLLET J.-M., 2011 – « Produits alternatifs : leur utilisation contre les mildious ». Aujourd’hui & Demain, n° 108, p 8-9.
    • ARVALIS, Choisir et décider, octobre 2011 (télécharger l'article)
  • 2009
    • ITEIPMAI, Synthèse bibliographique sur la "STIMULATION DES MECANISMES DE DEFENSES NATURELLES DES PLANTES : Protection des cultures, production de composés secondaires d'intérêt", Terres d'innovation, avril 2009 (lien vers le site pour télécharger le document)
    • FERRE Alain, TRAGIN Maud - Contrôle des maladies telluriques par utilisation de microorganismes en production de cyclamen et de lisianthus - PHM, novembre 2009, n° 518, p. 18-24
  • 2008
    • Corio-Costet MF., Bouscaut J. 2008, Stimulateurs des défenses naturelles de la vigne, Union girondine des vins de Bordeaux, Janvier : 24-26.

 

Rapports

  • 2014
    • Faessel L., Gomy C., Nassr N., Tostivint C., Hipper C., Dechanteloup A., (2014) Produits de stimulation en agriculture visant à améliorer les fonctionnalités biologiques des sols et des plantes [archive]. Étude des connaissances disponibles et recommandations stratégiques, rapport d’étude réalisé par Bio by Deloitte et RITTMO Agroenvironnement pour le ministère de l’Agriculture, de l’Agroalimentaire et de la Forêt, 148 pages - Télécharger ce rapport

    • N. THEVENIN, L. RUIDAVETS, N. NASSR, M. BENBRAHIM, L. FAESSEL, P. CHENON, M. ECK, L. KREMER, A. LANGENFELD, J. HAAS, A. MULLER, L. THEVENIN METZGER (2015). « Agronomic evaluation of biochars » - INTERREG report 210p.

 

Communications orales et posters

  • 2015
    • EGERT A., FAESSEL L., KREMER L.; HAAS J., THEVENIN N. (2015) “Induced resistance on tomato plants grown on biochars/peat growing media” 2ième BRIN - Colmar 7 oct 2015

    • N. THEVENIN, L. RUIDAVETS, N. NASSR, M. BENBRAHIM, L. FAESSEL, P. CHENON, M. ECK, L. KREMER, A. LANGENFELD, J. HAAS, A. MULLER, L. THEVENIN METZGER (2015). “Agronomic valorisation of BIOCHARS in EU” - BioenNW Final International Conference on Bioenergy networks and biomass potentials - Valorizing European Organic Residues 9th and 10th july 2015. 

  • 2012
    • 8ème colloque de la société française de phytopathologie (5-8 juin, AgroParis tech, Paris, 2012 ,Corio-Costet MF , S Cluzet, C Lambert, D Merdinoglu, MC Dufour (2012) « BioMolChem », un outil pour évaluer l’état de défense après élicitation ou non, de cultivars ou de génotypes résistants aux maladies : du gène au champ. (orateur MF Corio-Costet, résumé dans les annales).
    • Dufour MC, Druelle L, Sauris P, Merdinoglu D, Cluzet S, et M-F Corio-Costet  (2012) "BioMolChem" : une méthode pour évaluer l’état de défenses de la vigne, naturelles ou induites par élicitation : du gène au champ. AFFP- 10ème conf. Int. Sur les maladies des plantes, Tours (3-5 décembre).
  • 2011
    • HALLIER S., 2011 – « Les stimulateurs des défenses des plantes : une solution face aux enjeux actuels de la protection des plantes ». Communication orale lors de la 4ème Conférence Internationale sur les Méthodes Alternatives en Protection des Cultures, AFPP, Lille, France, 8-10 mars
    • STAPEL O., GUERRAND J., 2011 – « Efficacité importante d’un éliciteur possible contre le mildiou (Peronospora grisea) en culture de l’Hébé (Veronica) » – « High efficacy of a possible plant elicitor against downy mildew (Peronospora grisea) in potted Hebe (Veronica) productions ». 4ème Conférence Internationale sur les Méthodes Alternatives en Protection des Cultures, AFPP, Lille, France, 8-10 mars
    • Symposium “Biocontrol of grapevine diseases” (Toulouse, 26-27 may). Dufour M-C., Lambert C., Bouscaut J., Mérillon J-M., Corio-Costet MF (2011) Efficacy in the vineyard of two plant defense stimulators against Plasmopara viticola : epidemic, molecular and biochemical approaches. Symposium “Biocontrol of grapevine diseases” (Toulouse, 26-27 may). (orateur MC Dufour)
    • PR-Proteins and induced Resistance against pathogens and insects (Neuchâtel, Suisse, 4-8 september 2011). Dufour MC, Lambert C, Cluzet S, Merillon, Corio-Costet MF, What tools used to acquire a better understanding of induced resistance after elicitation and/or infection from laboratory to field experiments? (orateur MF Corio-Costet).
  •  2010
    • Couleaud G, Présentation SDP à la journée organisée par RITTMO, Colmar, 08 décembre 2010
    • Servier S, Sauge MH, Febvay G, Corre MN, Croset C, Lacroze JP, Rahbé Y, Poëssel JL. (2010). Etude du mode d'action des acides dicaféoylquiniques, molécules naturelles aphicides. In 16e Colloque de Biologie de l'Insecte. Lyon, 18 au 20 octobre 2010.
    • 6th Int. Workshop on Grapevine downy and powdery mildew (Bordeaux, 4-9 july, 2010). Dufour MC, Corio-Costet MF (2010) Comparison of phosphonates derivatives (fosétyl-Al, PK2) efficacy to that of BTH as grapevine defence elicitors against Plasmopara viticola.

 

Thèses soutenues sur le sujet

  • 2011
    • Mme Marie-Cécile Dufour. « Etude de l’efficacité des défenses de différents génotypes de Vitis induites par élicitation face à la diversité génétique de bioagresseurs (Erysiphe necator et Plasmopara viticola) : du gène au champ. Thèse en biologie cellulaire et physiopathologie, Université Bordeaux II, soutenue le 12 décembre 2011. N° 1847.