A large number of thermophilic organisms have been isolated from continental hydrothermal areas where the levels of sodium are very low, as well as from shallow or abyssal marine hydrothermal vents where NaCl can reach the levels of seawater. Most of the organisms isolated and described from marine hydrothermal sites are slightly halophilic and have optimum growth temperatures above 70°C and some, namely Methanopyrus kandleri and Pyrolobus fumarii, have optimum temperatures for growth above 100°C (2, 20). However, many marine hot springs have lower vent temperatures and the organisms isolated from these are slightly or moderately thermophilic. These organisms do not elicit as much interest as those that grow at temperatures around 100°C, although new, slightly or moderately thermophilic species increase our perception of microbial biodiversity and may have characteristics and phylogenetic affiliations that are sometimes unexpected. We recently isolated several slightly thermophilic nonpigmented organisms from the marine hot spring at Ferraria on the island of Sao Miguel in the Azores that did not produce carotenoids, bacteriochlorophyll a (Bchl a), or puf genes that encode the photosynthetic reaction center proteins and the core light-harvesting complexes. These organisms were not phototrophic but they are, based on 16S rRNA gene sequence analysis, members of the genus Rhodovulum, which comprises the species Rhodovulum sulfidophilum, Rhodovulum euryhalinum, Rhodovulum adriaticum, Rhodovulum strictum, Rhodovulum iodosum, and Rhodovulum robiginosum (10, 12, 13, 19, 33, 45). The species of the genus Rhodovulum, along with the species of Rhodobacter, are canonical phototrophic organisms of the α-3 subclass of the Proteobacteria (13, 17); these organisms are similar and have optimum growth temperatures in the neighborhood of 30°C, but species of the former inhabit marine and euryhalinal environments while the latter are freshwater inhabitants. Closely related species of the α-3 subclass of the Proteobacteria have been isolated primarily from saline environments but, unlike the species of Rhodovulum, are incapable of photoautotrophic growth in artificial media. Some species may be photoorganotrophic, namely, Rhodobaca bogoriensis (31). Other species, such as “Roseinatronobacter thiooxidans” and those of the genera Roseobacter and Roseovarius, produce Bchl a under aerobic conditions, but photoautotrophic or photoorganotrophic growth has not been demonstrated (22, 40, 43). Others still, including the species of genera Silicibacter, Staleya, Sagittula, and Antarctobacter, are obligately organotrophic (9, 21, 23, 34) or can be chemolithotrophic (44). With the exception of Silicibacter lacuscaerulensis (34), which has an optimum growth temperature of about 45°C, all other organisms have optimum growth temperatures of about 30°C, and none grow at temperatures above about 40°C. We recently isolated several nonpigmented slightly thermophilic strains from the marine hot spring on the island of Sao Miguel in the Azores that were very closely related to the species of the genus Rhodovulum. These isolates were strictly organotrophic and lacked the characteristic photosynthetic reaction center genes. Since this organism lacks some of the hallmark characteristics of the species of the genus Rhodovulum, we conclude that this species represents a new genus for which we propose the name Albidovulum inexpectatum.