TY - JOUR AU - Ramona, Yan - PY - 2021/12/27 Y2 - 2024/03/29 TI - Growth Inhibition of Fungal Plant Pathogens by Antagonist Bacteria Using Dual Culture Assays JF - BIOTROPIA JA - BIOTROPIA VL - 28 IS - 3 SE - Research Paper DO - 10.11598/btb.2021.28.3.1344 UR - https://journal.biotrop.org/index.php/biotropia/article/view/1344 SP - 231 - 238 AB - <p>There has been excessive use of chemical-based pesticides globally resulting in significant environmental consequences with adverse effects on human health. Therefore more sustainable environment friendly alternative solutions are needed to cope with such environmental and health challenges. Development of biocontrol method is a rational solution to these challenges and therefore the main objective of this research were to isolate and screen potential antagonist bacteria inhibitory to important fungal plant pathogens (<em>Fusarium oxysporum, Ceratocytis </em>sp.,<em> Aspergillus flavus </em>dan<em> Aspergillus niger</em>) <em>in vitro</em> by applying dual culture assays on potato dextrose agar (PDA) or trypticase soya agar (TSA) media. The antagonist bacteria were isolated from various sources such as soil of rhizosphere zone and roots of lettuce plants and  mature compost. The potential of antagonist candidates were screened on the basis of inhibitory activity against targeted fungal pathogens. Bacterial antagonists with highest zone of inhibition were identified up to genus level using biochemical tests, and the results were matched with those specified in the Bergey’s Manual of determinative bacteriology. Fifteen bacterial isolates were successfully isolated from various sources, and 60% of those isolates showed antagonistic activity <em>in vitro</em> against fungal pathogens with various degree of inhibition.  This indicated the initial potential to develop as biocontrol agents. Based on preliminary identification, genera of Bacillus and Pseudomonas were found to be the predominant isolates and in addition genus Acinetobacter was also identified in this study.</p> ER -