Cosmology with Ultralight Pseudo Nambu-Goldstone Bosons

Rocky pinnacles arising from soft bottoms of the circa-littoral zone may host oases of deepwa- ter coral biodiversity: Engineer species that enhance ecosystem’s three-dimensional complexity often act- ing as shelter for associated fauna that can comprise commercially relevant species. Although variations in beta diversity of these coral oases were recently docu- mented at different spatial scales, information on the role of geomorphogical features of rocky outcrops can be considered mostly an unaddressed issue. To comply with this task, five rocky pinnacles showing different geomorphological features (average slope, ruggedness, sediment accumulation), dwelling between 120 and 170 m depth along south Sardinia continental margin, were investigated by means of ROV imaging. We tested the null hypothesis that coral abundance and diversity [estimated using four black corals (Antipatharia) and seven gorgonians (Alcyonacea) as target species] did not differ among investigated sites. Overall, total coral abundance varied from 1.35 to 7.23 col m2; Callogor- gia verticillata, followed by Eunicella cavolinii and Corallium rubrum were the most abundant gorgonians, while Antipathella subpinnata and Parantipathes larix were the most abundant black corals. Through uni- and multivariate analyses, significant differences in corals biodiversity were identified, allowing us to reject the null hypothesis, emphasizing a remarkable variability in beta diversity, apparently following variations in geo- morphological features of investigated pinnacles. More- over, a visual census of anthropogenic debris revealed that lost fishing gears represented the most frequently observed debris, stressing the need to identify further and more focused strategies of conservation to protect these oases of coral biodiversity

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Benthic foraminifera as tracers of brine production in Storfjorden sea ice factory

Fossile¹,

Nardelli²,

Jouini³

et al. 2019

Preprint

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<p><strong>Abstract.</strong> The rapid response of benthic foraminifera to environmental factors (e.g., organic matter quality and quantity, salinity, pH) and their high fossilisation potential make them promising bio-indicators for the intensity and recurrence of brine formation in Arctic seas. Such approach, however, requires a thorough knowledge of their modern ecology in such extreme settings. To this aim, seven stations along a N&#8211;S transect across the Storfjorden (Svalbard archipelago) have been sampled using an interface multicorer. This fjord is an area of intense sea ice formation characterised by the production of Brine-enriched Shelf Waters (BSW) as a result of a recurrent latent-heat polynya. Living (Rose Bengal stained) foraminiferal assemblages were analysed together with geochemical and sedimentological parameters in the top five centimetres of the sediment. Three major biozones were distinguished: (i) the <q>inner fjord</q> dominated by typical glacier proximal calcareous species which opportunistically respond to fresh organic matter inputs; (ii) the <q>deep basins and sill</q> characterised by glacier distal agglutinated faunas. These latter are either dominant because of the mostly refractory nature of organic matter and/or the brine persistence that hampers the growth of calcareous species and/or causes their dissolution. (iii) The <q>outer fjord</q> characterised by typical North Atlantic species due to the intrusion of the North Atlantic water in the Storfjordrenna. The stressful conditions present in the <q>deep basins and sill</q> (i.e. acidic waters and low food quality) result in a high agglutinated/calcareous ratio (A&#8201;/&#8201;C). This supports the potential use of the A&#8201;/&#8201;C ratio as a proxy for brine persistence and overflow in Storfjorden.</p>

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Benthic Crustacean Digestion Can Modulate the Environmental Fate of Microplastics in the Deep Sea

Cau

Avio

Dessì

et al. 2020

Environ. Sci. Technol.

119

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Microplastics (MPs) are ubiquitous contaminants of the marine environment, and the deep seafloor is their ultimate sink compartment. Manipulative and field experiments provided evidence of the ingestion of MPs by deep-sea fauna, but knowledge of MPs’ fate once ingested still remains scant. We provide evidence of MP partial retention and fragmentation mediated by digestion activity of a Norwegian langoustine, a good bioindicator for MP contamination of the deep sea. We report here that MPs in the intestines were more abundant and significantly smaller (up to 1 order of magnitude in surface) than those in the stomachs. Our results show that the stomach can act as a size-bottleneck for ingested MPs, enhancing the retention of larger particles within the stomach and promoting fragmentation into smaller plastic debris, which is then released in the intestine. Our results provide evidence that the langoustine is responsible for the fragmentation of MPs already accumulated in sediments through its scavenging activity and digestion. These findings highlight the existence of a new peculiar kind of “secondary” MPs, introduced in the environment by biological activities, which could represent a significant pathway of plastic degradation in a secluded and stable environment such as the deep sea.

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Benthic foraminifera as tracers of brine production in Storfjorden sea ice factory

Benthic Crustacean Digestion Can Modulate the Environmental Fate of Microplastics in the Deep Sea

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