Abstract
Abstract. The lack of knowledge of the mesopelagic layer inhabitants, especially those performing strong vertical migration, is an acknowledged challenge. This incomplete representation leads to the exclusion of an active carbon and nutrient pathway from the surface to the deeper layers and vice versa. The vertical migration of mesopelagic inhabitants (macroplanktonic and micronektonic) was observed by acoustical means for almost 2.5 years in the epipelagic and mesopelagic layers of the open oligotrophic Cretan Sea (south Aegean Sea, eastern Mediterranean) at the site of an operational fixed-point observatory located at 1500 m depth. The observed organisms were categorized into four groups according to their migration patterns. The variability of the migration patterns was inspected in relation to the physical and biological environmental conditions of the study area. The stratification of the water column does not act as a barrier for the vertical motion of the strongest migrants that move up to 400 m every day. Instead, changes in light intensity (lunar cycle, daylight duration, cloudiness) and the presence of prey and predators seem to explain the observed daily, monthly and seasonal variability. The continuous presence of these organisms, which are capable of vertical motion despite the profound circulation variability at the site of the observatory, implies their presence in the broader study area. The fundamental implications of the above regarding biogeochemical processing in oligotrophic seas due to the intimate link between the carbon (C) and nutrient cycles, are discussed.
Highlights
The biological organic carbon pump is the major oceanic process that photosynthetically converts the dissolved CO2 in the surface layers of the ocean to particulate organic carbon
diel vertical migration (DVM) is a behavioral response that has been related to several exogenous and endogenous factors
The aim of this paper is to present the observed distribution patterns of zooplankton and discuss their relationship to physical and biological environmental conditions, such as daylight, currents, stratification and food resources
Summary
The biological organic carbon pump is the major oceanic process that photosynthetically converts the dissolved CO2 in the surface layers of the ocean to particulate organic carbon. This organic carbon is consumed by pelagic biota, and exported to depth by a combination of sinking particles, advection or vertical mixing of dissolved organic matter and transport by animals (Turner, 2015). The main factor determining the biological pump’s efficiency in the mesopelagic and bathypelagic zones, is the organic carbon export carried out by sinking and vertical migration by zooplankton and fish, in combination with microbial degradation. Light has emerged as the major external factor controlling DVM behavior (review by Cohen and Forward, 2009), it is insufficient
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