1. A first look at megabenthic community responses to seasonal change using the new Holyrood Subsea Observatory in Conception Bay, NL.
- Author
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Command, Rylan J., De Leo, Fabio C., McKenzie, Cynthia H., and Robert, Katleen
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COMMUNITIES , *APOSTICHOPUS japonicus , *ACOUSTIC Doppler current profiler , *OBSERVATORIES , *PLANT phenology , *SPRING , *ANIMAL sexual behavior - Abstract
• First results from the Holyrood Subsea Observatory. • Marked change in benthic community during spring phytoplankton bloom. • Psolus cf. phantapus emerged after increased seafloor chlorophyll- a and temperature. • High frequency data collection enabled in situ study of behavioural phenology. Sub-Arctic seafloor communities rely on seasonal phytoplankton blooms for food, revealing a tight benthic-pelagic coupling. To maximize resource availability for offspring, organisms such as snow crabs, sea stars, and sea cucumbers synchronize their reproductive and feeding behaviours with spring blooms. Due to climate change, spring blooms are occurring earlier in sub-Arctic regions, leading to a possible mismatch between timing of resource availability and important life-history behaviours. Here, we utilize high-frequency time-series observations from the Holyrood Subsea Observatory, a new cabled seafloor observatory deployed in Conception Bay, Newfoundland. We use hourly data collected from environmental sensors (Conductivity-Temperature-Depth, Acoustic Doppler Current Profiler, fluorometer), a near-surface mooring (fluorometer), and a video camera to identify and quantify abundance and diversity of benthic megafauna, and to determine how community composition changed from pre-bloom to full bloom conditions. Data analysis revealed striking temporal changes in benthic activity, with the notable emergence of Psolus cf. phantapus sea cucumbers (up to 289.9 indiv./m2) coinciding with increased chlorophyll- a concentration and seawater temperature. At least three dense schools of forage fish, two Atlantic herring (79 and 144 indiv. frame−1) and one capelin (91 indiv. frame−1), were observed during the main bloom between May 5 and June 16. This study provides the first high-frequency in situ observations of benthic community response to seasonal food input in the region. The high temporal resolution made it possible to record the precise timing of the of Psolus cf. phantapus emergence in relation to the timing of food input to the seafloor, which will provide a baseline to monitor phenology as climate change progresses. Changes to the timing of spring blooms have implications for sub-Arctic fisheries productivity and ecosystem functioning, making continuous long-term monitoring of seafloor communities essential. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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