Very little is known about the ecology and biology of the smallest marine vertebrates, fishes in the genus Schindleria. Even though over half of named Schindleria species have been identified in the Red Sea, the collection of only very few specimens has been documented. Here, we assessed abundance patterns of nearly two thousand Red Sea long dorsal fin (LDF) adults and found evidence for putative seasonal and spatial differences, likely related to differing habitat and environmental conditions. The highest abundances were outside local seasonal temperature extremes and decoupled from peaks of coral reef fish recruitment. We also found evidence for global trends in abundances related to lunar cycles using our Red Sea data and that from a recently published large collection of specimens from the DANA Expedition (1928–1930). The abundance of adult LDF Schindleria in relation to lunar phases differed significantly, with most Schindleria caught outside the full moon, and mostly during the new moon in the Red Sea and the 3rd quarter moon in the DANA collection. We further suggest that the abundances of Schindleria at coral reefs may be related to reproductive cycles and that these cycles may be timed with the moon as back-calculations of hatch dates from otoliths from the Red Sea significantly resulted after the new moon, making Schindleria the fastest-lived coral reef fish with the shortest generation times. Schindleria could be the most numerous coral reef fish in the world, for which we encourage increased research.
Very little is known about the ecology and biology of the smallest marine vertebrates, fishes in the genus Schindleria. Even though over half of named Schindleria species have been described from the Red Sea, very few specimens have been identified. Here, we assessed abundance patterns of nearly two thousand Red Sea adults and found evidence for putative seasonal and spatial differences, likely related to differing habitat and environmental conditions. Within the Red Sea, the highest abundances were neither found during seasonal temperature extremes nor during peaks of coral reef fish recruitment. We also found evidence for global trends in abundances related to lunar cycles, for which data from a recently published large collection of specimens from the DANA Expedition (1928-1930) were included. The abundance of Schindleria in relation to lunar phases differed significantly, with most Schindleria being caught outside the full moon. Adult specimens in our Red Sea collections were most abundant during the new moon, while the 3rd quarter moon yielded the highest abundances in the DANA collection. We further suggest that the abundances of Schindleria at coral reefs may be related to reproductive cycles and that these cycles may be timed with the moon, since back-calculations of hatch dates from otoliths resulted significantly around the new moon. Schindleria may be the most numerous coral reef fish in the world, for which we encourage increased research.
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