Your search keyword '"Parma, Ana M."' showing total 4 results

1. Trawl impacts on the relative status of biotic communities of seabed sedimentary habitats in 24 regions worldwide.

Author

Pitcher, C. Roland, Hiddink, Jan G., Jennings, Simon, Collie, Jeremy, Parma, Ana M., Amoroso, Ricardo, Mazor, Tessa, Sciberras, Marija, McConnaughey, Robert A., Rijnsdorp, Adriaan D., Kaiser, Michel J., Suuronen, Petri, and Hilborn, Ray

Subjects

BIOTIC communities, OCEAN bottom, TRAWLING, DREDGING (Fisheries), FISHERY management, FISHERY products

Abstract

Bottom trawling is widespread globally and impacts seabed habitats. However, risks from trawling remain unquantified at large scales in most regions. We address these issues by synthesizing evidence on the impacts of different trawl-gear types, seabed recovery rates, and spatial distributions of trawling intensity in a quantitative indicator of biotic status (relative amount of pretrawling biota) for sedimentary habitats, where most bottom-trawling occurs, in 24 regions worldwide. Regional average status relative to an untrawled state (=1) was high (>0.9) in 15 regions, but <0.7 in three (European) regions and only 0.25 in the Adriatic Sea. Across all regions, 66% of seabed area was not trawled (status = 1), 1.5% was depleted (status = 0), and 93% had status > 0.8. These assessments are first order, based on parameters estimated with uncertainty from meta-analyses; we recommend regional analyses to refine parameters for local specificity. Nevertheless, our results are sufficiently robust to highlight regions needing more effective management to reduce exploitation and improve stock sustainability and seabed environmental status—while also showing seabed status was high (>0.95) in regions where catches of trawled fish stocks meet accepted benchmarks for sustainable exploitation, demonstrating that environmental benefits accrue from effective fisheries management. Furthermore, regional seabed status was related to the proportional area swept by trawling, enabling preliminary predictions of regional status when only the total amount of trawling is known. This research advances seascape-scale understanding of trawl impacts in regions around the world, enables quantitative assessment of sustainability risks, and facilitates implementation of an ecosystem approach to trawl fisheries management globally. [ABSTRACT FROM AUTHOR]

Published

2022

2. Effective fisheries management instrumental in improving fish stock status.

Author

Hilborn, Ray, Amoroso, Ricardo Oscar, Anderson, Christopher M., Baum, Julia K., Branch, Trevor A., Costello, Christopher, de Moor, Carryn L., Faraj, Abdelmalek, Hively, Daniel, Jensen, Olaf P., Kurota, Hiroyuki, Little, L. Richard, Mace, Pamela, McClanahan, Tim, Melnychuk, Michael C., Minto, Cóilín, Osio, Giacomo Chato, Parma, Ana M., Pons, Maite, and Segurado, Susana

Subjects

FISHERY management, FISH stocking, FISHERY sciences, MARINE fishes, SUSTAINABLE fisheries

Abstract

Marine fish stocks are an important part of the world food system and are particularly important for many of the poorest people of the world. Most existing analyses suggest overfishing is increasing, and there is widespread concern that fish stocks are decreasing throughout most of the world. We assembled trends in abundance and harvest rate of stocks that are scientifically assessed, constituting half of the reported globalmarine fish catch. For these stocks, on average, abundance is increasing and is at proposed target levels. Compared with regions that are intensively managed, regions with less-developed fisheries management have, on average, 3-fold greater harvest rates and half the abundance as assessed stocks. Available evidence suggests that the regions without assessments of abundance have little fisheries management, and stocks are in poor shape. Increased application of area-appropriate fisheries science recommendations and management tools are still needed for sustaining fisheries in places where they are lacking. [ABSTRACT FROM AUTHOR]

Published

2020

3. Global analysis of depletion and recovery of seabed biota after bottom trawling disturbance.

Author

Hiddink, Jan Geert, Jennings, Simon, Sciberras, Marija, Szostek, Claire L., Hughes, Kathryn M., Ellis, Nick, Rijnsdorp, Adriaan D., McConnaughey, Robert A., Mazor, Tessa, Hilborn, Ray, Collie, Jeremy S., Pitcher, C. Roland, Amoroso, Ricardo O., Parma, Ana M., Suuronen, Petri, and Kaiser, Michel J.

Subjects

BIOTIC communities, DREDGING (Fisheries), MARINE habitats, OCEAN bottom, INVERTEBRATES

Abstract

Bottom trawling is the most widespread human activity affecting seabed habitats. Here, we collate all available data for experimental and comparative studies of trawling impacts on whole communities of seabed macroinvertebrates on sedimentary habitats and develop widely applicable methods to estimate depletion and recovery rates of biota after trawling. Depletion of biota and trawl penetration into the seabed are highly correlated. Otter trawls caused the least depletion, removing 6% of biota per pass and penetrating the seabed on average down to 2.4 cm, whereas hydraulic dredges caused the most depletion, removing 41% of biota and penetrating the seabed on average 16.1 cm. Median recovery times posttrawling (from 50 to 95% of unimpacted biomass) ranged between 1.9 and 6.4 y. By accounting for the effects of penetration depth, environmental variation, and uncertainty, the models explained much of the variability of depletion and recovery estimates from single studies. Coupled with large-scale, high-resolution maps of trawling frequency and habitat, our estimates of depletion and recovery rates enable the assessment of trawling impacts on unprecedented spatial scales. [ABSTRACT FROM AUTHOR]

Published

2017

4. Bottom trawl fishing footprints on the world's continental shelves.

Author

Amoroso RO, Pitcher CR, Rijnsdorp AD, McConnaughey RA, Parma AM, Suuronen P, Eigaard OR, Bastardie F, Hintzen NT, Althaus F, Baird SJ, Black J, Buhl-Mortensen L, Campbell AB, Catarino R, Collie J, Cowan JH Jr, Durholtz D, Engstrom N, Fairweather TP, Fock HO, Ford R, Gálvez PA, Gerritsen H, Góngora ME, González JA, Hiddink JG, Hughes KM, Intelmann SS, Jenkins C, Jonsson P, Kainge P, Kangas M, Kathena JN, Kavadas S, Leslie RW, Lewis SG, Lundy M, Makin D, Martin J, Mazor T, Gonzalez-Mirelis G, Newman SJ, Papadopoulou N, Posen PE, Rochester W, Russo T, Sala A, Semmens JM, Silva C, Tsolos A, Vanelslander B, Wakefield CB, Wood BA, Hilborn R, Kaiser MJ, and Jennings S

Subjects

Alaska, Animals, Australia, Biodiversity, Chile, Ecosystem, Invertebrates physiology, New Zealand, Oceans and Seas, Seafood statistics & numerical data, Fisheries statistics & numerical data

Abstract

Bottom trawlers land around 19 million tons of fish and invertebrates annually, almost one-quarter of wild marine landings. The extent of bottom trawling footprint (seabed area trawled at least once in a specified region and time period) is often contested but poorly described. We quantify footprints using high-resolution satellite vessel monitoring system (VMS) and logbook data on 24 continental shelves and slopes to 1,000-m depth over at least 2 years. Trawling footprint varied markedly among regions: from <10% of seabed area in Australian and New Zealand waters, the Aleutian Islands, East Bering Sea, South Chile, and Gulf of Alaska to >50% in some European seas. Overall, 14% of the 7.8 million-km 2 study area was trawled, and 86% was not trawled. Trawling activity was aggregated; the most intensively trawled areas accounting for 90% of activity comprised 77% of footprint on average. Regional swept area ratio (SAR; ratio of total swept area trawled annually to total area of region, a metric of trawling intensity) and footprint area were related, providing an approach to estimate regional trawling footprints when high-resolution spatial data are unavailable. If SAR was ≤0.1, as in 8 of 24 regions, there was >95% probability that >90% of seabed was not trawled. If SAR was 7.9, equal to the highest SAR recorded, there was >95% probability that >70% of seabed was trawled. Footprints were smaller and SAR was ≤0.25 in regions where fishing rates consistently met international sustainability benchmarks for fish stocks, implying collateral environmental benefits from sustainable fishing., Competing Interests: The authors declare no conflict of interest., (Copyright © 2018 the Author(s). Published by PNAS.)

Published

2018