Fuente: PubMed "olive table" Int J Food Microbiol. 2026 Mar 30;455:111759. doi: 10.1016/j.ijfoodmicro.2026.111759. Online ahead of print.ABSTRACTTable olives are produced from a large number of olive varieties subjected to different trade preparations, resulting in a highly heterogeneous family of fermented foods. To characterise the diversity of bacterial and fungal communities and its relationship with variety, ripeness, and trade preparation, we surveyed 363 samples from 40 producers across 6 countries, combining physicochemical measurements, viable counts, and amplicon-based metagenomics. This is the largest survey of table olive microbial communities to date and includes the first culture-independent characterisation of microbial communities for several Italian PDO and non-PDO varieties, most notably Oliva di Gaeta. The contrast between alkali-treated and naturally fermented olives was the dominant structuring factor, with HALAB (Halophilic and Alkalophilic Lactic Acid Bacteria) and other halophiles enriched in alkali-treated varieties and a diverse array of Lactobacillaceae and Pseudomonadota characterising naturally fermented olives. Despite these consistent signals, striking variability was observed within the same variety and even within the same producer, driven by stochastic colonization events, house microbiota, and the widespread use of small fermentation vessels. This variability obscured variety-specific microbial signatures and prevented reliable discrimination of Italian PDO varieties from similar non-PDO counterparts using amplicon-based approaches. The ecological and taxonomic complexity documented here, encompassing bacterial and fungal genera with largely untapped starter and flavour potential, provides the foundation for the development of variety-specific microbiome-based starter cultures.PMID:41932005 | DOI:10.1016/j.ijfoodmicro.2026.111759