Long-term data on the phytoplankton of the Bulgarian Black Sea (BBS) coast describe three states for the ecosystem: a “pristine” reference phase (1954-1970 years); an intensive anthropogenic eutrophication (1970-1991 years) phase; and a post-eutrophication phase after the early 1990s of the 20^th century. The eutrophication period is characterised with ecosystem degradation and intense phytoplankton blooms, some of which are formed by the potentially toxic species Lingulodinium polyedra. This warm-water species is a red tide former that has been associated with fish and shellfish mortality events. In the 1980s, L. polyedra reached a highest biomass of 84.4 g.m^-3 in Varna Bay, BBS. The aim of this long-term study (1992-2022) was to provide a comprehensive overview of the development of L. polyedra in the phytoplankton biocoenosis in the Black Sea when under anthropogenic stress and during the ecosystem recovery. An analysis of the distribution of the dinoflagellate L. polyedra is based on a total of 5,126 phytoplankton samples collected for the period 1992-2022 under projects led by the Institute of Fish Resources, Varna. Samples was analyzed by standard methods validated for the Black Sea, and phytoplankton abundance and biomass were determined. The species are most abundant in summer in coastal marine areas exposed to anthropogenic influence. During the analysed period, decreases in the abundance and biomass of L. polyedra in Bulgarian Black Sea waters were observed. We established that the frequency of the occurrence of L. polyedra was higher in the first half of each decade of the period and was related to changes in hydrometeorological conditions in the Black Sea.