Abstract
Mass occurrences of large sponges, or ‘sponge grounds’, are found globally in a range of oceanographic settings. Interest in these grounds is growing because of their ecological importance as hotspots of biodiversity, their role in biogeochemical cycling and bentho-pelagic coupling, the biotechnological potential of their constituent sponges, and their perceived vulnerability to physical disturbance and environmental change. Little is known about the environmental conditions required for sponges to persist and for grounds to form, and very few studies have explicitly characterised and interpreted the importance of oceanographic conditions. Here, results are presented of the first observational oceanographic campaign at a known sponge ground on the Schultz Massif Seamount (SMS; Arctic Mid-Ocean Ridge, Greenland / Norwegian Seas). The campaign consisted of water column profiling and short-term deployment of a benthic lander. It was supported by multibeam echosounder bathymetry and remotely operated vehicle video surveys. The seamount summit hosted several environmental factors potentially beneficial to sponges. It occurred within relatively nutrient-rich waters and was regularly flushed from above with slightly warmer, oxygen-enriched Norwegian Arctic Intermediate Water. It was exposed to elevated suspended particulate matter levels and oscillating currents (with diurnal tidal frequency) likely to enhance food supply and prevent smothering of the sponges by sedimentation. Elevated chlorophyll a concentration was observed in lenses above the summit, which may indicate particle retention by seamount-scale circulation patterns. High sponge density and diversity observed on the summit is likely explained by the combination of several beneficial factors, the coincidence of which at the summit arises from interaction between seamount geomorphology, hydrodynamic regime, and water column structure. Neighbouring seamounts along the mid-ocean ridge are likely to present similarly complex oceanographic settings and, as with the SMS, associated sponge ground ecosystems may therefore be sensitive to changes over a particularly broad range of abiotic factors.
Highlights
The purpose of the current paper is to present the results of the first short-duration, high temporal resolution, observational oceanographic campaign at a coldwater sponge ground (sensu Klitgaard and Tendal (2004)) on the Schultz Massif Seamount (SMS) of the Arctic Mid-Ocean Ridge
The results presented here identify a subtle interplay between the hydrodynamics of the seamount summit and the water masses located above and below, which may be an important factor in explaining the success of the dense sponge ground occupying the summit
Interaction between seamount geomorphology, hydrodynamic regime, and water column structure resulted in several environmental factors that may benefit sponges and help explain enhanced sponge density and diversity at the summit of the SMS
Summary
Mass occurrences of large sponges, or ‘sponge grounds’, are found globally, including in fjords, on continental shelves and slopes, and in the deep sea at mid-ocean ridges and seamounts (Barthel, 1992; Whitney et al, 2005; Hogg et al, 2010; Murillo et al, 2012; Bo et al, 2012; Cathalot et al, 2015; Maldonado et al, 2015). They are increasingly recognised as hotspots of biodiversity and biomass in the deep sea (Klitgaard, 1995; Beazley et al, 2013). They form complex biogenic habitats (sponge structures + ‘spicule mat’ substrate (Bett and Rice, 1992)), where there is a general paucity of such structural habitat (BuhlMortensen et al, 2010). Deep-sea sponge grounds have recently been classified as a ‘habitat under immediate threat and / or decline’ by the OSPAR Commission (OSPAR, 2008), and a ‘vulnerable marine ecosystem (VME)’ by the Food and Agriculture Organisation of the United Nations (FAO, 2009)
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