creators_name: Bosco, M. creators_name: Baruffa, E. creators_name: Picard, C. editors_name: Andreasen, C. Bo editors_name: Elsgaard, L. editors_name: Sondegaard Sorensen, L. editors_name: Hansen, G. type: conference_item datestamp: 2006-06-08 lastmod: 2009-08-20 14:32:53 metadata_visibility: show title: Organic breeding should select for plant genotypes able to efficiently exploit indigenous Probiotic Rhizobacteria ispublished: pub subjects: 8planthealth subjects: 7plantbreed subjects: 2soilbiol full_text_status: restricted keywords: organic breeding, probiotic rhizobacteria, varieties-rhizobateria interactions, abstract: In order to rapidly achieve crop varieties adapted to organic crop production systems, it is of crucial importance to know plant genotype potential for positive interactions with soil indigenous microflora. In this frame, European research efforts are now considering beneficial non-symbiotic (probiotic) rhizobacteria as an essential factor for sustainable plant breeding. Published findings are beginning to elucidate how probiotic rhizobacteria contribute to plant nutrient assimilation and disease resistance. Future efforts for crop breeding in organic agriculture should take into the right account the capacity of plants to efficiently exploit indigenous probiotic rhizobacteria in low-input cultural conditions. date: 2006 date_type: published publication: Organic Farming and European Rural Development - Proceedings of the European Joint Organic Congress publisher: DARCOF pagerange: 376-377 refereed: never referencetext: Adams, P.D. and Kloepper, J.W. (2002). Plant and Soil 240: 181-198. Baruffa, E. (2005). Ecologia della microflora probio-tica rizosferica: Pseudomonas produttrici di auxine in due ibridi e quattro linee pure di Zea mays L. MS Thesis. Bologna University, Italy. Bradshaw, J.E., Dale, M.F.B. and Mackay, G.R. (2003). Theoretical and Applied Genetics 107:36-42. Engelhard, M., Hurek, T. and Reinhold-Hurek, B. (2000). Environmental Microbiology 2: 131-141. Gahoonia, T.S. and Nielsen, N.E. (2004). Plant and Soil 260:47-57. Germida, J.J. and Siciliano, S.D. (2001). Biology and Fertility of Soils 33: 410-415. Haas, D. and Keel, C. (2003). Annual Review of Phytopathology 41: 117-153. Hetrick, B.A.D, Wilson, G.W.T., Gill, B.S. and Cox, T.S. (1995). Canadian Journal of Botany 73: 891-897. Kloepper, J.W. and Schrot, M. (1978). Proceedings of the International Conference on Plant Pathology and Bacteriology 2:879-882. Mazzola, M., Funnell, D.L. and Raaijmakers, J.M. (2004). Microbial Ecology 48:338-348. Picard, C. and Bosco, M. (2005). FEMS Microbiology Ecology 53: 349-357. Picard, C., Frascaroli, E., Bosco, M. (2004). FEMS Microbiology Ecology 49:207-215. Picard, C., Frascaroli, E., Bosco, M. (2005). Proceed-ings of the International Seminar on Environmental Friendly Food Production System: Requirements for Plant Breeding and Seed Production. Belicka I (ed) State Stende Plant Breeding Station, Talsi, Latvia (ISBN 998497524X), pp. 39-42. Rengel, Z. (2002). Plant Soil 245:147-162. Smith, K.P., Handelsman, J. and Goodman, R.M. (1999). Proceedings of the National Academy of Sciences USA 96:4786-4790. citation: Bosco, M.; Baruffa, E. and Picard, C. (2006) Organic breeding should select for plant genotypes able to efficiently exploit indigenous Probiotic Rhizobacteria. European Joint Organic Congress, Odense, Denmark, May 30-31, 2006. In: Andreasen, C. Bo; Elsgaard, L.; Sondegaard Sorensen, L. and Hansen, G. (Eds.) Organic Farming and European Rural Development - Proceedings of the European Joint Organic Congress, DARCOF, pp. 376-377. document_url: http://orgprints.org/8645/1/Bosco_et_al_word.doc document_url: http://orgprints.org/8645/2/Bosco_et_al_JOC-2006.pdf