Ploughing the Deep Sea Floor

Overview

Journal Nature

Specialty Science

Date 2012 Sep 7

PMID 22951970

Citations 33

Authors

Pere Puig

Miquel Canals

Joan B Company

Jacobo Martin

David Amblas

Galderic Lastras

Albert Palanques

Affiliations

Soon will be listed here.

Abstract

Bottom trawling is a non-selective commercial fishing technique whereby heavy nets and gear are pulled along the sea floor. The direct impact of this technique on fish populations and benthic communities has received much attention, but trawling can also modify the physical properties of seafloor sediments, water–sediment chemical exchanges and sediment fluxes. Most of the studies addressing the physical disturbances of trawl gear on the seabed have been undertaken in coastal and shelf environments, however, where the capacity of trawling to modify the seafloor morphology coexists with high-energy natural processes driving sediment erosion, transport and deposition. Here we show that on upper continental slopes, the reworking of the deep sea floor by trawling gradually modifies the shape of the submarine landscape over large spatial scales. We found that trawling-induced sediment displacement and removal from fishing grounds causes the morphology of the deep sea floor to become smoother over time, reducing its original complexity as shown by high-resolution seafloor relief maps. Our results suggest that in recent decades, following the industrialization of fishing fleets, bottom trawling has become an important driver of deep seascape evolution. Given the global dimension of this type of fishery, we anticipate that the morphology of the upper continental slope in many parts of the world’s oceans could be altered by intensive bottom trawling, producing comparable effects on the deep sea floor to those generated by agricultural ploughing on land.

Citing Articles

Mapping the habitat refugia of Isidella elongata under climate change and trawling impacts to preserve Vulnerable Marine Ecosystems in the Mediterranean.

Georges V, Vaz S, Carbonara P, Fabri M, Fanelli E, Follesa M Sci Rep. 2024; 14(1):6246.

PMID: 38485718 PMC: 10940633. DOI: 10.1038/s41598-024-56338-1.

Benthic microbial biogeographic trends in the North Sea are shaped by an interplay of environmental drivers and bottom trawling effort.

Bonthond G, Beermann J, Gutow L, Neumann A, Barboza F, Desiderato A ISME Commun. 2023; 3(1):132.

PMID: 38102238 PMC: 10724143. DOI: 10.1038/s43705-023-00336-3.

Established and Emerging Research Trends in Norway Lobster, .

Aguzzi J, Violino S, Costa C, Bahamon N, Navarro J, Chatzievangelou D Biology (Basel). 2023; 12(2).

PMID: 36829502 PMC: 9953252. DOI: 10.3390/biology12020225.

Bacteria Associated with Benthic Invertebrates from Extreme Marine Environments: Promising but Underexplored Sources of Biotechnologically Relevant Molecules.

Lo Giudice A, Rizzo C Mar Drugs. 2022; 20(10).

PMID: 36286440 PMC: 9605250. DOI: 10.3390/md20100617.

The footprint of ship anchoring on the seafloor.

Watson S, Ribo M, Seabrook S, Strachan L, Hale R, Lamarche G Sci Rep. 2022; 12(1):7500.

PMID: 35525863 PMC: 9079090. DOI: 10.1038/s41598-022-11627-5.

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