P. Adams and W. Ayers, Ecology of Sclerotinia species, Phytopathology, vol.69, issue.8, pp.896-899, 1979.

P. B. Adams, The potential of mycoparasites for biological control of plant diseases, Annual Review of Phytopathology, vol.28, issue.1, pp.59-72, 1990.

O. Anas, Recovery of fungi and arthropods from sclerotia of Sclerotinia sclerotiorum in Quebec muck soils, Phytopathology, vol.77, pp.327-331, 1987.

O. Anas and R. Reeleder, Consumption of sclerotia of Sclerotinia sclerotiorum by larvae of Bradysia coprophila: influence of soil factors and interactions between larvae and Trichoderma viride, Soil Biology and Biochemistry, vol.20, issue.5, pp.619-624, 1988.

M. Bardin, S. Ajouz, M. Comby, M. Lopez-ferber, B. Graillot et al., Is the efficacy of biological control against plant diseases likely to be more durable than that of chemical pesticides?, Frontiers in Plant Science, vol.6, issue.566, 2015.

A. A. Bell, L. Liu, B. Reidy, R. M. Davis, and K. V. Subbarao, Mechanisms of subsurface drip irrigation-mediated suppression of lettuce drop caused by Sclerotinia minor, Phytopathology, vol.88, issue.3, pp.252-259, 1998.

N. Bitsadze, M. Siebold, B. Koopmann, and A. Von-tiedemann, Single and combined colonization of Sclerotinia sclerotiorum sclerotia by the fungal mycoparasites Coniothyrium minitans and Microsphaeropsis ochracea, Plant Pathology, vol.64, issue.3, pp.690-700, 2015.

M. D. Bolton, B. Thomma, and B. D. Nelson, Sclerotinia sclerotiorum (Lib.) de Bary: biology and molecular traits of a cosmopolitan pathogen, Molecular Plant Pathology, vol.7, issue.1, pp.1-16, 2006.

S. P. Budge, M. P. Mcquilken, J. S. Fenlon, and J. M. Whipps, Use of Coniothyrium minitans and Gliocladium virens for biological control of Sclerotinia sclerotiorum in glasshouse lettuce, Biological Control, vol.5, issue.4, pp.513-522, 1995.

S. P. Budge and J. M. Whipps, Potential for integrated control of Sclerotinia sclerotiorum in glasshouse lettuce using Coniothyrium minitans and reduced fungicide application, Phytopathology, vol.91, issue.2, pp.221-227, 2001.

W. Campbell, A new species of Coniothyrium parasitic on sclerotia, Mycologia, vol.39, issue.2, pp.190-195, 1947.

M. A. Carpenter, A. Stewart, and H. J. Ridgway, Identification of novel Trichoderma hamatum genes expressed during mycoparasitism using subtractive hybridisation, FEMS Microbiology Letters, vol.251, issue.1, pp.105-112, 2005.

P. Chitrampalam, C. A. Cox, T. A. Turini, and B. M. Pryor, Efficacy of Coniothyrium minitans on lettuce drop caused by Sclerotinia minor in desert agroecosystem, Biological Control, vol.55, issue.2, pp.92-96, 2010.

P. Chitrampalam, P. Figuli, M. Matheron, K. Subbarao, and B. M. Pryor, Biocontrol of lettuce drop caused by Sclerotinia sclerotiorum and S. minor in desert agroecosystems, Plant Disease, vol.92, issue.12, pp.1625-1634, 2008.

J. P. Clarkson, L. Fawcett, S. G. Anthony, and C. Young, A model for Sclerotinia sclerotiorum infection and disease development in lettuce, based on the effects of temperature, relative humidity and ascospore density, PLoS One, vol.9, issue.4, p.94049, 2014.

J. P. Clarkson, J. Staveley, K. Phelps, C. S. Young, and J. M. Whipps, Ascospore release and survival in Sclerotinia sclerotiorum, Mycological Research, vol.107, issue.2, pp.213-222, 2003.

J. Coley-smith and R. Cooke, Survival and germination of fungal sclerotia, Annual Review of Phytopathology, vol.9, issue.1, pp.65-92, 1971.

J. ?osi?, D. Jurkovi?, K. Vrande?i?, and D. Kau?i?, Survival of buried Sclerotinia sclerotiorum sclerotia in undisturbed soil, Helia, vol.35, issue.56, pp.73-78, 2012.

T. De-vrije, A. N. Buitelaar, R. Bruckner, S. Dissevelt, M. Durand et al., The fungal biocontrol agent Coniothyrium minitans: production by solid-state fermentation, application and marketing, Applied microbiology and biotechnology, vol.56, issue.1-2, pp.58-68, 2001.

M. C. Derbyshire and M. Denton-giles, The control of sclerotinia stem rot on oilseed rape (Brassica napus): current practices and future opportunities, Plant Pathology, vol.65, issue.6, pp.859-877, 2016.

R. W. Duncan, D. Fernando, W. G. Rashid, and K. Y. , Time and burial depth influencing the viability and bacterial colonization of sclerotia of Sclerotinia sclerotiorum, Soil Biology and Biochemistry, vol.38, issue.2, pp.275-284, 2006.

M. Elsheshtawi, M. T. Elkhaky, S. R. Sayed, A. H. Bahkali, A. A. Mohammed et al., Integrated control of white rot disease on beans caused by Sclerotinia sclerotiorum using Contans® and reduced fungicides application, Saudi Journal of Biological Sciences, vol.24, issue.2, pp.405-409, 2017.

X. N. Gao, Q. M. Han, Y. F. Chen, H. Q. Qin, L. L. Huang et al., Biological control of oilseed rape Sclerotinia stem rot by Bacillus subtilis strain Em7, Biocontrol Science and Technology, vol.24, issue.1, pp.39-52, 2014.

A. M. Geraldine, F. Lopes, D. Carvalho, E. T. Barbosa, A. R. Rodrigues et al., Cell wall-degrading enzymes and parasitism of sclerotia are key factors on field biocontrol of white mold by Trichoderma spp, Biological Control, vol.67, issue.3, pp.308-316, 2013.

M. Gerlagh, H. M. Goossen-van-de-geijn, N. J. Fokkema, and P. Vereijken, Long-term biosanitation by application of Coniothyrium minitans on Sclerotinia sclerotiorum-infected crops, Phytopathology, vol.89, issue.2, pp.141-147, 1999.

J. A. Gracia-garza, R. D. Reeleder, and T. C. Paulitz, Degradation of sclerotia of Sclerotinia sclerotiorum by fungus gnats (Bradysia coprophila) and the biocontrol fungi Trichoderma spp, Soil Biology and Biochemistry, vol.29, issue.2, pp.123-129, 1997.

H. C. Huang and R. S. Erickson, Soil treatment with fungal agents for control of apothecia of Sclerotinia sclerotiorum in bean and pea crops, Plant Pathology Bulletin, vol.9, issue.2, pp.53-58, 2000.

Y. Huang, X. Xie, L. Yang, J. Zhang, G. Li et al., Susceptibility of Sclerotinia sclerotiorum strains different in oxalate production to infection by the mycoparasite Coniothyrium minitans, World Journal of Microbiology and Biotechnology, vol.27, issue.12, pp.2799-2805, 2011.

E. Jones, A. Mead, and J. Whipps, Evaluation of different Coniothyrium minitans inoculum sources and application rates on apothecial production and infection of Sclerotinia sclerotiorum sclerotia, Soil Biology and Biochemistry, vol.35, issue.3, pp.409-419, 2003.

E. Jones, A. Mead, and J. Whipps, Effect of inoculum type and timing of application of Coniothyrium minitans on Sclerotinia sclerotiorum: control of sclerotinia disease in glasshouse lettuce, Plant Pathology, vol.53, issue.5, pp.611-620, 2004.

E. E. Jones, A. Stewart, and J. M. Whipps, Water potential affects Coniothyrium minitans growth, germination and parasitism of Sclerotinia sclerotiorum sclerotia, Fungal Biology, vol.115, issue.9, pp.871-881, 2011.

M. M. Kamal, K. D. Lindbeck, S. Savocchia, and G. J. Ash, Biological control of sclerotinia stem rot of canola using antagonistic bacteria, Plant Pathology, vol.64, issue.6, pp.1375-1384, 2015.

C. Kora, M. R. Mcdonald, and G. J. Boland, Integrated Management of Diseases Caused by Fungi, Phytoplasma and Bacteria, pp.243-270, 2008.

M. S. Lehner, D. Ponte, E. M. Gugino, B. K. Kikkert, J. R. Pethybridge et al., Sensitivity and efficacy of boscalid, fluazinam, and thiophanate-methyl for white mold control in snap bean in New York, Plant Dis, vol.101, issue.7, pp.1253-1258, 2017.

M. S. Lehner, R. C. Lima, J. Carneiro, T. J. Paula, R. F. Vieira et al., Similar aggressiveness of phenotypically and genotypically distinct isolates of Sclerotinia sclerotiorum, Plant Dis, vol.100, issue.2, pp.360-366, 2016.

C. Leyronas, M. Duffaud, and P. C. Nicot, Compared efficiency of the isolation methods for Botrytis cinerea, Mycology: An International Journal on Fungal Biology, vol.3, issue.4, pp.221-225, 2012.

C. Leyronas, C. Troulet, M. Duffaud, F. Villeneuve, M. Benigni et al., First report of Sclerotinia subarctica in France detected with a rapid PCR-based test, Canadian Journal of Plant Pathology, pp.1-6, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02623313

T. A. Mccredie and K. Sivasithamparam, Fungi mycoparasitic on sclerotia of Sclerotinia sclerotiorum in some Western Australian soils, Transactions of the British Mycological Society, vol.84, issue.4, pp.736-739, 1985.

D. Mclaren, H. Huang, and S. Rimmer, Control of apothecial production of Sclerotinia sclerotiorum by Coniothyrium minitans and Talaromyces flavus, Plant disease, vol.80, issue.12, pp.1373-1378, 1996.

P. Nicot, M. Bardin, C. Alabouvette, and J. Köhl, Potential of biological control based on published research. 1. Protection against plant pathogens of selected crops. In: Nicot P (ed) Classical and augmentative biological control against diseases and pests: critical status analysis and review of factors influencing their success, IOBC/WPRS, pp.1-11, 2011.

P. C. Nicot, A. F. Duffaud, M. Leyronas, C. Troulet, C. Villeneuve et al., Are there regional differences in the susceptibility of Sclerotinia sclerotiorum strains to Coniothyrium minitans?, IOBC WPRS Bulletin, vol.117, pp.83-87, 2016.

H. Öhberg and U. Bång, Biological control of clover rot on red clover by Coniothyrium minitans under natural and controlled climatic conditions, Biocontrol Science and Technology, vol.20, issue.1, pp.25-36, 2010.

D. E. Partridge, T. B. Sutton, and D. L. Jordan, Effect of environmental factors and pesticides on mycoparasitism of Sclerotinia minor by Coniothyrium minitans, Plant Disease, vol.90, issue.11, pp.1407-1412, 2006.

N. Rabeendran, E. E. Jones, D. J. Moot, and A. Stewart, Biocontrol of Sclerotinia lettuce drop by Coniothyrium minitans and Trichoderma hamatum, Biological Control, vol.39, issue.3, pp.352-362, 2006.

C. Sandys-winsch, J. M. Whipps, M. Gerlagh, and M. Kruse, World distribution of the sclerotial mycoparasite Coniothyrium minitans, Mycological Research, vol.97, issue.10, pp.1175-1178, 1993.

U. Shrestha, R. M. Augé, and D. M. Butler, A meta-analysis of the impact of anaerobic soil disinfestation on pest suppression and yield of horticultural crops, Frontiers in Plant Science, vol.7, p.1254, 2016.

J. Steadman, Control of plant diseases caused by Sclerotinia species, Phytopathology, vol.69, issue.8, pp.904-907, 1979.

P. Trutmann, P. J. Keane, and P. R. Merriman, Reduction of sclerotial inoculum of Sclerotinia sclerotiorum with Coniothyrium minitans, Soil Biology and Biochemistry, vol.12, issue.5, pp.461-465, 1980.

P. Trutmann, P. J. Keane, and P. R. Merriman, Biological control of Sclerotinia sclerotiorum on aerial parts of plants by the hyperparasite Coniothyrium minitans, Transactions of the British Mycological Society, vol.78, issue.3, pp.521-529, 1982.

G. J. Turner and H. T. Tribe, On Coniothyrium minitans and its parasitism of Sclerotinia species, Transactions of the British Mycological Society, vol.66, issue.1, pp.97-105, 1976.

S. Van-beneden, I. Leenknegt, S. C. França, and M. Höfte, Improved control of lettuce drop caused by Sclerotinia sclerotiorum using Contans combined with lignin or a reduced fungicide application, Crop Protection, vol.29, issue.2, pp.168-174, 2010.

G. Verkley, K. Dukik, R. Renfurm, M. Göker, and J. B. Stielow, Novel genera and species of coniothyrium-like fungi in Montagnulaceae (Ascomycota), Persoonia : Molecular Phylogeny and Evolution of Fungi, vol.32, pp.25-51, 2014.

A. Von-tiedemann, K. Hedke, and R. Mögling, Abbauverhalten von Sklerotien der Weißstängeligkeit bei Einsatz von Contans. Raps, vol.1, pp.1-3, 2001.

J. M. Whipps and S. P. Budge, Screening for sclerotial mycoparasites of Sclerotinia sclerotiorum, Mycological Research, vol.94, issue.5, pp.607-612, 1990.

J. F. Willbur, M. L. Fall, C. Bloomingdale, A. M. Byrne, S. A. Chapman et al., Weather-based models for assessing the risk of Sclerotinia sclerotiorum apothecial presence in soybean (Glycine max) fields, Plant Dis, vol.102, issue.1, pp.73-84, 2018.

B. M. Wu, K. V. Subbarao, and Y. B. Liu, Comparative survival of sclerotia of Sclerotinia minor and S. sclerotiorum, Phytopathology, vol.98, issue.6, pp.659-665, 2008.

L. Yang, G. Li, J. Zhang, D. Jiang, and W. Chen, Compatibility of Coniothyrium minitans with compound fertilizer in suppression of Sclerotinia sclerotiorum, Biological Control, vol.59, issue.2, pp.221-227, 2011.

W. Zeng, W. Kirk, and J. Hao, Field management of Sclerotinia stem rot of soybean using biological control agents, Biological Control, vol.60, issue.2, pp.141-147, 2012.

W. Zeng, D. Wang, W. Kirk, and J. Hao, Use of Coniothyrium minitans and other microorganisms for reducing Sclerotinia sclerotiorum, Biological Control, vol.60, issue.2, pp.225-232, 2012.

, Reduction of mycelial growth of Sclerotinia sclerotiorum on PDA medium from sclerotia previously incubated with Paraphaeosphaeria minitans, relative to that from control non-inoculated sclerotia. Error bars indicate the standard error of the mean. For the 75 isolates of S. sclerotiorum, results of Wilcoxon-Mann-Whitney tests are shown to indicate significant reduction (*; light blue color) or increase (+; dark blue color) of colony diameter from inoculated sclerotia compared to non, vol.6

, after seven days of incubation on PDA medium, or (C): the diameter of S. sclerotiorum colonies from non-inoculated sclerotia. The dotted lines show the best fits obtained from polynomial regression analysis