Reliable and early molecular detection of phytopathogenic fungi is crucial in an era where the expansion of global trade in plant material is undoubtedly increasing the risk of invasive outbreaks, with devastating effects in crop production. Genetic variation within and between fungal species or strains is also important for screening isolates regarding various resistance attributes. Until today many approaches have been employed in fungal diagnostics which are either labor- and time-consuming or costly and of reduced sensitivity. Here, we demonstrate and review recent advances on high-resolution melting (HRM) analysis as a rapid, accurate and powerful tool, capable of differentiating even closely related fungal isolates. HRM technique is based on monitoring the melting of PCR amplicons, using saturating concentrations of a fluorescent intercalating dye that binds to double-stranded DNA. Additionally, we discuss the four case studies inferring applications of HRM analysis towards either genotyping of closely related fungal species or screening for fungicide resistance. We focus on the promising results of these studies, giving some technical considerations and describing the advantages of the application of this approach. Finally, we discuss current prospects and applications for research and development related to this innovative HRM technique in plant fungal diagnostics.