Abstract
Based on historical data of abundance, we report evidence of changes in zooplankton abundance in the 0-200 m layer related to the moon cycle confirming that this phenomenon is produced in the marine environment, similarly to the one described for freshwater ecosystems. A clear decrease in the abundance of copepodites plus copepods was observed from the second to the fourth quarter of the moon when the seasonal variability was suppressed. During the full moon phase the large zooplankton and micronekton of the deep scattering layers (DSL) would not reach the upper mixed layer in order to avoid predation because of the relatively high level of illumination. Thus epipelagic zooplankton abundance increases as the effect of a lower predatory pressure. Conversely, during the new moon phase the diel migrants reach the surface waters and epiplankton abundance considerably decreases. Recent oceanic sediment trap data in subtropical waters indicate that the particle flux increases at about 30 days period. Thus, the effect of diel vertical migrants could promote not only the variability in their resources and the intensity of the active flux, but could also drive the variability in the gravitational flux.
Highlights
Observed epipelagic copepod abundance in the Canary Island waters to show a high variability with maxima coinciding with the full moon during most of the annual cycle and suggesting a lunar cycle in zooplankton abundance in these waters
We have reviewed historical data on zooplankton abundance in oceanic waters off the Canary Islands
FIG. 3. – Abundance of (A) nauplia, (B) copepodites and (C) copepods collected in the 100 μm mesh net and grouped in relation to the different periods of the moon cycle
Summary
Observed epipelagic copepod abundance in the Canary Island waters to show a high variability with maxima coinciding with the full moon during most of the annual cycle and suggesting a lunar cycle in zooplankton abundance in these waters. Epipelagic zooplankton are predated after the full moon as diel vertical migrants reach the surface waters due to darkness (see discussion in Hernández-León, 1998). 2. – (A) Abundance of nauplia and copepodites in relation to the full moon (vertical dashed lines) during the annual cycles studied by Fernández de Puelles (1986).
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