References
- Beever, R. E., Parkes, S. L. (2003). Use of nitrate non-utilizing (Nit) mutants to determine vegetative compatibility in Botryotinia fuckeliana (Botrytis cinerea). Eur. J. Plant Pathol., 109, 607-613.
- Burgess, T., Bihon, W., Wingfield, M. J., Wingfield, B. D. (2009). A simple and rapid method to determine vegetative compatibility groups in fungi. Inoculum: Newsletter of the Mycological Society of America, 60 (6), 1-2.
- Burgess, T., Wingfield, M. J., Wingfield, B. D. (2001). Comparison of genotypic diversity in native and introduced populations of Sphaeropsis sapinea isolated from Pinus radiata. Mycol. Res., 105 (11), 1331-1339.
- Droby, S., Wisniewski, M., Macarisin, D., Wilson, C. (2009). Twenty years of postharvest biocontrol research: Is it time for a new paradigm? Postharvest Biol. Tec., 52, 137-145.
- Fernandez, J. G., Fernandez-Baldo, M. A., Sansone, G., Calvente, V., Benuzzi, D., Salinas, E., Raba, J., Sanz, M. I. (2014). Effect of temperature on the morphological characteristics of Botrytis cinerea and its correlated with the genetic variability. J. Coastal Life Med., 2, 543-548.
- Fillinger, S., Elad, Y. (2016). Botrytis - the Fungus, the Pathogen and its Management in Agricultural Systems. Springer International Publishing AG. 478 pp.
- Fournier, E., Giraud, T., Albertini, A., Brygoo, Y. (2005). Partition of the Botrytis cinerea complex in France using multiple gene genealogies. Mycologia, 97, 1251-1267.
- Korolev, N., Elad, Y., Katan, T. (2008). Vegetative compatibility grouping in Botrytis cinerea using sulphate non-utilizing mutants. Eur. J. Plant Pathol.,122, 369-383.
- Kumari, S., Tayal, P., Sharma, E., Kapoor, R. (2014). Analyses of genetic and pathogenic variability among Botrytis cinerea isolates. Microbiol. Res., 169 (11), 862-872.
- Lecompte, F., Abro, M. A., Nicot, P. C. (2010). Contrasted responses of Botrytis cinerea isolates developing on tomato plants grown under different nitrogen nutrition regimes. Plant Pathol., 59 (5), 891-899.
- Liaudanskas, M., Viškelis P., Kviklys, D., Raudonis, R., Janulis V. (2015). A Comparative Study of Phenolic Content in Apple Fruits. Int. J. Food. Prop., 18 (5), 945-953.
- Malama, A. A., Mironova, S. N., Filimonova, T. V., Moiseev, Yu. V., Gumargalieva, K. Z. (1985). The effect of temperature on growth of mycelial fungi colonies [Малама, А. А., Миронова, С. И. Влияние температур на рост колоний мицелярных грибов]. Mikrobiologia IМикробиологияJ, 54 (6), 994–997 (in Russian).
- Martinez, F., Blancard, D., Lecomte, P., Levis, C., Dubos, B., Fermaud, M. (2003). Phenotypic differences between vacuma and transposa subpopulations of Botrytis cinerea. Eur. J. Plant Pathol., 109, 479-488.
- Papaioannou, I. A., Typas, M. A. (2015). Barrage formation is independent from heterokaryon incompatibility in Verticillium dahliae. Eur. J. Plant Pathol., 141 (1), 71-82.
- Rasiukevičiūtė, N. (2016). Genetic and phenotypic diversity of Botrytis spp. from strawberry and onion, diseases forecasting and control. Doctoral dissertation, Lithuanian Research Centre for Agriculture and Forestry, Akademija, Lietuva.
- Rasiukevičiūtė, N., Valiuškaitë, A., Survilienë-Radzevièë, E., Supronienë, S. (2013). Investigation of Botrytis cinerea risk forecasting model in strawberries. Proc. Latv. Acad. Sci., Section B, 67 (2), 195-198.
- Rasiukevičiūtė, N., Valiuškaitë, A., Uselis, N., Buskienë, L. Viðkelis, J., Lukðienë, Þ. (2015). New non-chemical postharvest techologies reducing berry contamination. Zemdirbytse-Agriculture, 104 (4), 411-416.
- Rigotti, S., Viret, O., Gindro, K. (2006). Two new primers highly specific for the detection of Botrytis cinerea Pers.:Fr. Phytopathol. Mediterr., 45, 253-260.
- Sehajpal, P. K., Singh, P. J. (2014). Effect of temperature on growth, sporulation and sclerotial formation of the fungus Botrytis gladiolorum Timm. in different culture media and standardization of inoculum load of the fungus for generation of disease. Int. J. Res., 1, 772-779.
- Survilienė-Radzevičė, E., Rasiukevièiûtė, N., Valiuškaitė, A., Kazlauskaitė, S., Duchovskienė, L. (2013). Evaluation of iMETOS®sm Botrytis cinerea and Botrytis squamosa forecasting models in different agro-ecological regions. Rural Development 2013: Proceedings, 6 (2), 250-253.
- Uselis, N., Lanauskas, J., Valiuškaitė, A., Viškelis, P. (2009). Investigation of strawberry cultivars growing them in profiled soil under agrofilm. Sodininkystë ir Darþininkystë, 28 (4), 51-60.
- Valiuškaitė, A., Kviklienė, N., Kviklys, D., Lanauskas, J. (2006). Post-harvest fruit rot incidence depending on apple maturity. Agron. Res., 4 (Special issue), 427-431.
- Valiučkaitė, A., Raudonis, L., Survilienė, E. (2008). Control of grey mould and white leaf spot in strawberry. Zemdirbyste-Agriculture, 95 (3), 221-226.
- Viskelis, P., Rubinskienė, M., Bobinaitė, R., Dambrauskienė, E. (2010). Bioactive compounds and antioxidant activity of small fruits in Lithuania. J. Food Agric. Environ., 8 (3-4), 259-263.