02679nab a2200217 i 4500 acta55342 20240415153143.0 180618s2014 hu o 0|| eng d 2063-4803 SZTE Egyetemi Kiadványok Repozitórium hun eng Yıldırım Ismet Influence of some food additive chemicals to Phomopsis Viticola Sacc. [elektronikus dokumentum] / Yıldırım Ismet 2014 228-234 Review on agriculture and rural development 3 No. 1 The effects of food additives potassium sorbate, sodium benzoate, sodium bicarbonate, and classical mancozeb on mycelial growth and the yield of pycnidium and pycnidiospore production of Phomopsis viticola were tested in vitro. Food additive chemicals were tested at five different dosages, 100; 300; 600; 1000 and 1600µg ml-1, mancozeb was tested only at recommended dose. Food additives showed inhibitory effect at different levels on mycelial growth of fungus isolates. According to the ED50 values at the 5th day, potassium sorbate (375 µg ml-1 for isolate İzmir 2 and 700 µg ml-1 for isolate Salihli 2) showed significant inhibition effect on the radial mycelial growth of fungal isolates. Similar efficacy for İzmir 2 and Salihli 2 was obtained at the highest doses (990 µg ml-1 for İzmir 2 and 1150 µg ml-1 for Salihli 2) from sodium bicarbonate and (1040 µg ml-1 for İzmir 2 and over 1600 µg ml-1 for Salihli 2) from sodium benzoate. MIC values of food additives on mycelial growth of P. viticola were found higher than 1600 µg ml-1 . The food additives at increasing doses were more successful on the pycnidia and pycnidiospores inhibition than on mycelial growth. The strongest inhibition among food additives on the pycnidia and pycnidiospores production was determined in potassium sorbate with dose between <100 µg ml1 and 620µg ml-1 . However, ED50 values of sodium benzoate were found lower than potassium and sodium bicarbonate had. While MIC of potassium sorbate was 1000µg ml-1 on pycnidium production; on pycnidiospore it was 600 µg ml-1 Whereas MIC values of sodium benzoate and sodium bicarbonate were determined higher than potassium sorbate. Data obtained from the research demonstrated that food additives may be used against P. viticola in organic and traditional viticulture after field experiments. Műszaki és technológiai tudományok Egyéb műszaki tudományok és technológiák Adalékanyag - élelmiszeripar, Élelmiszerkémia http://acta.bibl.u-szeged.hu/55342/1/agricul_review_2014_001_suppl_228-234.pdf Dokumentum-elérés