The GEDUNEM project: Varietal and technical innovations for the sustainable and integrated management of root-knot nematodes in protected vegetable cropping systems

Autor: Palloix, Alain, Navarette, Mireille, Lefèvre, Amélie, Mateille, Thierry, Vedie, Hélène, Goillon, Claire, Trottin, Yannie, Boniol, P., Castagnone-Sereno, Philippe
Přispěvatelé: Djian-Caporalino, Caroline
Jazyk: angličtina
Rok vydání: 2012
Předmět:
lutte contre les nématodes
innovation variétale
pratique agronomique
cultivar résistant
prévention des maladies
sud est france
phytopathologie
poivron
nématode pathogène
capsicum annuum
nématode parasite
tomate
culture protégée
climat méditerranéen
nématode à galles
agrosystème
système de culture
pratique culturale
pathologie végétale
gestion intégrée des ravageurs
exploitation horticole
résistance variétale
mesure prophylactique
innovation technique
food and beverages
rotation des cultures
culture sous abri
gestion durable
nématicide
gène de résistance
pression de sélection
integrated pest management
root-knot nematodes
crop rotation in vegetable farming
genetic resistance to nematodes
agronomie practices
Agricultural sciences
projet pilote
viabilité économique
solanum lycopersicum
génie génétique
diversité génétique
gestion intégrée
culture maraîchère
résistance génétique
Sciences agricoles
agent pathogène
Zdroj: 2012; Plant resistance sustainability 2012. International conference, La Colle sur Loup, FRA, 2012-10-16-2012-10-19, 84-85
Popis: The recent banning of the most active chemical nematicides raised root-knot nematodes (RKN) as the major problem of vegetable growing in the south-east of France, with over 40% of horticultural farms affected. Resistant (R) cultivars successfully limit nematode attacks of the crop itself and reduce nematode abundance in soil in the short term. But their use in commercial fields faces two major constraints: (1) the limited number of cultivated species with RKN R-genes available (tomate. pepper), which would lead to major changes in crop rotations with socio-economic constraints; (2) the emergence of virulent root-knot nematode populations, able to overcome the resistance conferred by some of the R-genes. Recent research showed that the durability of the resistance per se was possibly increased with an optimal choice of the R-gene or allele combination, and of the genetic background in which the major R-genes where introgressed. However, the requirement for agronomic performance, does not always allow the breeder to fully use the genetic diversity available in R-genes and genetic backgrounds. ln such cases, spatio-temporal deployment strategies of resistant cultivars in the rotation were proposed and provided some success. But combination of genetic resistance with cultivation practices including multicrop rotations, intercultural management and/or prophylactic treatments was poorly tested for its ability to provide complementary selection pressures on the pathogen populations and to increase the durability of the protection. The project aims at identifying innovative strategies across the agrosystem, cornbining varietal resistance in crop rotations with agronomic practices, for a sustainable control of RKN that infect vegetable crops in protected crop systems. This pilot and demonstrative project involves analytical and systemic aspects: il the validation of previous results on the durability of RKN genetic resistance in tomato and pepper by long-term experiments in research stations and in farms, ii/ the impact of agronomic practices on the parasitic pressure in the soil and its contribution in the increase of resistance durability, and iii/ the impact of such innovations on the yield and the economie viability for protected crop systems in a Mediterranean climate. The added value here is to combine together currently dispersed approaches based on synergistic and long-term effects, towards a satisfying level of nematode control over pluri-annual crop sequences. The diversity of partners (research, experimental stations, technical institutes) and associated forces (growers' development structures, 'chambres d'agriculture') brings ail the complementary expertise needed for answering specifie short-term questions as weil as generic mid-long term expectations. 'GEDUNEM' has been launched in the framework of the INRA metaprogramme SMaCH (Sustainable Management of Crop Health).
Databáze: OpenAIRE