Sarah Paradis scite author profile

Continental margins are the continuum between the land and the ocean, and they are responsible for the majority of both burial and remineralization of organic carbon (OC) in the ocean (Dunne et al., 2007). However, biogeochemical cycles of organic matter in continental margins are altered by several anthropogenic activities (Bauer et al., 2013). Amongst those, bottom trawling is considered to be the most harmful and has the potential to alter the biogeochemistry of continental margins at a global scale given its widespread extension, high frequency, and direct impacts on the seafloor (

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Spatial distribution of sedimentation-rate increases in Blanes Canyon caused by technification of bottom trawling fleet

Paradis

Puig

Sánchez-Vidal

et al. 2018

Progress in Oceanography

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Bottom-trawling along submarine canyons impacts deep sedimentary regimes

Paradis¹,

Puig

Masqué

et al. 2017

Sci Rep

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Many studies highlight that fish trawling activities cause seafloor erosion, but the assessment of the remobilization of surface sediments and its relocation is still not well documented. These impacts were examined along the flanks and axes of three headless submarine canyons incised on the Barcelona continental margin, where trawling fleets have been operating for decades. Trawled grounds along canyon flanks presented eroded and highly reworked surface sediments resulting from the passage of heavy trawling gear. Sedimentation rates on the upper canyon axes tripled and quadrupled its natural (i.e. pre-industrialization) values after a substantial increase in total horsepower of the operating trawling fleets between 1960 s and 1970 s. These impacts affected the upper canyon reaches next to fishing grounds, where sediment resuspended by trawling can be transported towards the canyon axes. This study highlights that bottom trawling has the capacity to alter natural sedimentary environments by promoting sediment-starved canyon flanks, and by enhancing sedimentation rates along the contiguous axes, independently of canyons' morphology. Considering the global mechanisation and offshore expansion of bottom trawling fisheries since the mid-20 th century, these sedimentary alterations may occur in many trawled canyons worldwide, with further ecological impacts on the trophic status of these non-resilient benthic communities.

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Sarah Paradis

Persistence of Biogeochemical Alterations of Deep‐Sea Sediments by Bottom Trawling

Spatial distribution of sedimentation-rate increases in Blanes Canyon caused by technification of bottom trawling fleet

Bottom-trawling along submarine canyons impacts deep sedimentary regimes

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