Environmental Change at Deep-Sea Sponge Habitats Over the Last Half Century: A Model Hindcast Study for the Age of Anthropogenic Climate Change

Samuelsen, Annette; Schrum, Corinna; Yumruktepe, Veli Çağlar; Daewel, Ute; Roberts, Emyr Martyn

doi:10.3389/fmars.2022.737164

Cited by 3 publications

(1 citation statement)

References 78 publications

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“…This large distributional range suggests a broad ecological potential of G. barretti to cope with a large range of seawater temperatures which might enable this species to adapt to the projected temperature increase in the deep NAO. This assumption is corroborated by recent hindcast models that describe abrupt permanent shifts in water masses and related changes of seawater temperature, salinity, oxygen-and particulate organic matter-concentration across areas with high abundances of G. barretti (Samuelsen et al, 2022). The described presence of large individuals of slow-growing deep-sea sponges that are at least a few decades old (Prado et al, 2021) within these habitats suggest that G. barretti can withstand fluctuations of environmental parameters and persists to form dense aggregations that resemble hotspots of biodiversity, provide stepping stones of connectivity, and greatly determine nutrient cycling (Hogg et al, 2010).…”

Section: Deep-sea Sponges Under Future Physicochemical Seawater Prope...supporting

confidence: 62%

Deep-sea sponges in an Anthropocene ocean

Wurz

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Plumes of re-suspended sediment potentially smother and clog the aquiferous system of filter-feeding sponges with unknown implications for their health. For the first time we examined the physiological responses of repeated exposure to natural sediment in the glass sponge Vazella pourtalesii, which forms dense sponge grounds in Emerald Basin off Nova Scotia, Canada. Ex situ chamber-based measurements of bacterial clearance and oxygen consumption (respiration) rates indicated that individuals subjected to elevated concentrations of suspended sediment expressed normal clearance and respiration rates over 7 days of sediment exposure, indicating an ability to cope with elevated concentrations of indigestible sediment particles. However, clearance rates significantly declined after 14 days of sediment exposure, suggesting an inability to cope with long-term exposure to increased sediment load. Therefore, long-term exposure to elevated concentrations of suspended sediment should be avoided in order to minimize adverse effects on the abundant Vazella sponge grounds.

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Section: Deep-sea Sponges Under Future Physicochemical Seawater Prope...supporting

confidence: 62%

Deep-sea sponges in an Anthropocene ocean

Wurz

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Barotropic and baroclinic tides increase primary production on the Northwest European Shelf

et al. 2023

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High biological productivity and the efficient export of carbon-enriched subsurface waters to the open ocean via the continental shelf pump mechanism make mid-latitude continental shelves like the northwest European shelf (NWES) significant sinks for atmospheric CO2. Tidal forcing, as one of the regionally dominant physical forcing mechanisms, regulates the mixing-stratification status of the water column that acts as a major control for biological productivity on the NWES. Because of the complexity of the shelf system and the spatial heterogeneity of tidal impacts, there still are large knowledge gaps on the role of tides for the magnitude and variability of biological carbon fixation on the NWES. In our study, we utilize the flexible cross-scale modeling capabilities of the novel coupled hydrodynamic–biogeochemical modeling system SCHISM–ECOSMO to quantify the tidal impacts on primary production on the NWES. We assess the impact of both the barotropic tide and the kilometrical-scale internal tide field explicitly resolved in this study by comparing simulated hindcasts with and without tidal forcing. Our results suggest that tidal forcing increases biological productivity on the NWES and that around 16% (14.47 Mt C) of annual mean primary production on the shelf is related to tidal forcing. Vertical mixing of nutrients by the barotropic tide particularly invigorates primary production in tidal frontal regions, whereas resuspension and mixing of particulate organic matter by tides locally hinders primary production in shallow permanently mixed regions. The tidal impact on primary production is generally low in deep central and outer shelf areas except for the southwestern Celtic Sea, where tidal forcing substantially increases annual mean primary production by 25% (1.53 Mt C). Tide-generated vertical mixing of nutrients across the pycnocline, largely attributed to the internal tide field, explains one-fifth of the tidal response of summer NPP in the southwestern Celtic Sea. Our results therefore suggest that the tidal NPP response in the southwestern Celtic Sea is caused by a combination of processes likely including tide-induced lateral on-shelf transport of nutrients. The tidally enhanced turbulent mixing of nutrients fuels new production in the seasonally stratified parts of the NWES, which may impact the air–sea CO2 exchange on the shelf.

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Biodiversity study of the deep-sea ecosystems in the northwestern part of the Pacific Ocean

Mordukhovich,

Adrianov

2023

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The aim of the work was to study some deep-sea bottom communities of the Far Eastern seas of Russia using a remotely operated underwater vehicle.Materials were the data of underwater video and photo profiling, as well as direct sampling, performed in 2011–2013, 2016, 2018, 2020 and 2021.As results, an extensive array of new data on the composition, structure, and patterns of distribution of deep sea biota has been obtained. A primary description of the benthic communities of the Gamovsky Canyon (Sea of Japan), cold seeps of the Deryugin Basin (Sea of Okhotsk), and Piip underwater volcano (Bering Sea) has been prepared. Some features of the composition and structure of communities are revealed, and vertical zonality is described.Practical value: the results can be used in the development of environmental protection measures and measures of rational nature management in the waters of the Far Eastern seas of Russia and in areas of potential development of deep-sea mineral resources in the ocean.

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Environmental Change at Deep-Sea Sponge Habitats Over the Last Half Century: A Model Hindcast Study for the Age of Anthropogenic Climate Change

Cited by 3 publications

References 78 publications

Deep-sea sponges in an Anthropocene ocean

Deep-sea sponges in an Anthropocene ocean

Barotropic and baroclinic tides increase primary production on the Northwest European Shelf

Biodiversity study of the deep-sea ecosystems in the northwestern part of the Pacific Ocean

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