CSIRO PUBLISHING www.publish.csiro.au/journals/apdn Australasian Plant Disease Notes, 2007, 2, 109–110 In vitro sensitivity of Cryphonectria parasitica to six agrochemicals G. Gonz ´ alez-Varela A and A. J. Gonz´ alez A,B A Laboratorio de Fitopatolog´ ıa, Servicio Regional de Investigaci ´ on y Desarrollo Agroalimentario (SERIDA), Apdo. 13, Villaviciosa 33300, Spain. B Corresponding author. Email: anagf@serida.org Abstract. The in vitro effectiveness of six agrochemicals (captan, epoxiconazole, azoxistrobin, folpet in combination with cymoxanil and ofurace, carbendazim plus flutriafol, and flusilazole plus carbendazim) was tested against Cryphonectria parasitica, the causal agent of chestnut blight. Epoxiconazol was the most effective product since it inhibited fungal growth even at the lowest concentration tested. Additional keywords: chemical control, fungicides. Cryphonectria parasitica (Murrill) Barr, formerly called Endothia parasitica (Murr) And & And, is the causal agent of chestnut bark disease or chestnut blight. Cryphonectria parasitica is the most important pathogen of chestnut. It has nearly eliminated the American chestnut tree (Castanea dentata (Marsh.) Borkh.) from its natural range and has heavily affected the European chestnut tree (Castanea sativa (P.) Mill) (Anagnostakis 1982, 2001; Aksoy and Serdar 2004). In the Principality of Asturias, a region in the North of Spain with over 59 000 ha of chestnut (Anonymous 2003), this disease has spread rapidly, from five districts in 1982 to 60 out of the 78 regions in 2000 (Valdezate et al. 2001). Many fungicidal and fungistatic chemicals, such as methyl- 2-benzimidazolecarbamate, carbendazim, copper oxychlorite, benomyl and azaconazole plus imazalil, have been applied to blight cankers over the years but some of them have proven not to be useful for long-term therapeutic treatment (Jaynes and Van Alfen 1977; Anagnostakis 1982; Canciani et al. 1995; Aksoy and Serdar 2004). Others (such as benzimidazoles) are now banned in Spain (Anonymous 2007). In vitro tests are fast and easy to perform and can give an indication of the effectiveness of the product. This effect will depend on a variety of factors such as: degradability, persistence, mode of action and interaction with other compounds. In the present work, six agrochemicals were tested in vitro with regard to their activity on C. parasitica. Their active elements were captan (85%), epoxiconazole (12.5%), azoxistrobin (25%), folpet (32%) in combination with cymoxanil (3%) and ofurace (6%), carbendazim (20%) plus flutriafol (9.4%), and flusilazole (0.5%) plus carbendazim (1%). Each product was incorporated, before autoclaving, into potato dextrose agar medium (PDA) (Gams et al. 1980) in a geometric progression, ranging from 1 to 1024 μg/mL, related to their active ingredients. Six isolates of C. parasitica, collected in four different districts in the Principality of Asturias, were chosen for the study. Four were from the central area of Asturias: LPPAF-1, LPPAF-14.1, LPPAF-23 (Aller district) and LPPAF-150 (Lena district); one from the east: LPPAF-140 (Amieva district); and one from the west: LPPAF-147 (Coa˜ na district). Two strains from culture collections were also used. They were ATCC-52571 (American Type Culture Collection) and CCP-52 (from Canada, provided by the Laboratorio de Sanidad Vegetal del Principado de Asturias). Plugs of 5-mm diameter were cut from the margins of 5-day-old mycelia of the different strains, actively growing on PDA. The plugs were positioned in the centre of Petri dishes containing either amended or non-amended PDA, with the mycelium in contact with the medium. Culture dishes containing non-amended PDA were used as a control. The experiment was repeated three times. After 5 days of incubation in darkness at 25 ◦ C, the plugs were removed from those culture dishes in which growth inhibition was observed. These plugs were then placed, with the mycelium up, on new culture dishes containing non-amended PDA, and incubated as previously described. Subsequent growth of the fungus was taken as an indicator of fungistatic activity of the agrochemical which was present in the medium from which the plug derived. On the contrary, when the fungus was unable to grow, the agrochemical was regarded as fungicidal. The antifungal effect of the six agrochemicals tested varied considerably. Azoxistrobin (25%) and the mixture of folpet (32%) plus cymoxanil (3%) plus ofurace (6%) was unable to inhibit fungal growth at any of the concentrations tested. Captan (85%) was a product with a variable response depending on the concentration and isolate. It caused total inhibition of LPPAF-140 at 128 μg/mL, of LPPAF-1, LPPAF-14.1, LPPAF-23 and LPPAF-150 at 512 μg/mL, and of LPPAF-147, ATCC-52571 and CCP-52 at 1024 μg/mL. Fungal growth was scarce and reculture of the inoculum indicated fungistatic activity of the agrochemical at all concentrations for all strains. © Australasian Plant Pathology Society 2007 10.1071/DN07045 1833-928X/07/010109