Abstract
The mesozooplankton community was analyzed over a 6-year period (2013-2018) during the post-eruptive stage of the submarine volcano Tagoro, located south of the island of El Hierro (Canary Archipelago, Spain). Nine cruises from March 2013 to March 2018 were carried out in two different seasons, spring (March-April) and autumn (October). A high-resolution study was carried out across the main cones of Tagoro volcano, as well as a large number of reference stations surrounding El Hierro (unaffected by the volcano). The zooplankton community at the reference stations showed a high similarity with more than 85% of the variation in abundance and composition attributable to seasonal differences. Moreover, our data showed an increase in zooplankton abundance in waters affected by the volcano with a higher presence of non-calanoid copepods and a decline in the diversity of the copepod community, indicating that volcanic inputs have a significant effect on these organisms. Fourteen different zooplankton groups were found but copepods were dominant (79%) with 59 genera and 170 species identified. Despite the high species number, less than 30 presented a larger abundance than 1%. Oncaea and Clausocalanus were the most abundant genera followed by Oithona and Paracalanus (60%). Nine species dominated (>2%):O. media, O. plumifera, andO. setigeraamong the non-calanoids andM. clausi, P. nanus,P. parvus, C. furcatus, C. arcuicornis, andN. minoramong the calanoids. After the initial low abundance of the copepods as a consequence of the eruption, an increase was observed in the last years of the study, where besides the small Paracalanus and Clausocalanus, the Cyclopoids seem to have a good adaptive strategy to the new water conditions. The increase in zooplankton abundance and the decline in the copepod diversity in the area affected by the volcano indicate that important changes in the composition of the zooplankton community have occurred. The effect of the volcanic emissions on the different copepods was more evident in spring when the water was cooler and the mixing layer was deeper. Further and longer research is recommended to monitor the zooplankton community in the natural laboratory of the Tagoro submarine volcano.
Highlights
Zooplankton plays a key role in the functioning of marine food webs that control the biogeochemical ocean cycles (Longhurst, 1985) where usually the copepods are dominant (Longhurst, 1995; Vinogradov, 1997)
Environmental Influence on Copepod Assemblages In our study, the Redundancy Analyses (RDA) analysis accounted for 38% of the total variance when we considered all canonical axes
The birth of a new submarine volcano Tagoro in October 2011 together with the singular location of the island of El Hierro, immersed in the most western oligotrophic oceanic waters of the Subtropical North Atlantic Ocean far away from direct anthropogenic influences, allowed us to analyze the variation of the zooplankton community for a period of 6 years and assess its response to diffuse volcanic emissions
Summary
Zooplankton plays a key role in the functioning of marine food webs that control the biogeochemical ocean cycles (Longhurst, 1985) where usually the copepods are dominant (Longhurst, 1995; Vinogradov, 1997). They are the major prey of pelagic fauna and a key component of the biological pump, transporting organic matter to the deep ocean throughout their diel or seasonal migration (Longhurst, 1995; Hernández-León and Ikeda, 2005). Analyzing the zooplankton community and its species over time will provide valuable information, essential for diversity studies and the efficient management of the marine pelagic ecosystems, in particular the most vulnerable. There are fewer studies in this area of expertise because such studies require considerable time, effort, and years of specialization
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