- Robert A. Mcconnaughey (3)
- Ricardo Amoroso (1)
- Adriaan D. Rijnsdorp (3)
- W.L.T. Densen van (1)
- H. Diederix (1)
- Nick Ellis (3)
- H. Folmer (2)
- Robert Freckleton (1)
- Jan G. Hiddink (1)
- Jan Geert Hiddink (2)
- Ray Hilborn (3)
- Mervi I. Kangas (1)
- Leo J. Clarke (1)
- Michel J. Kaiser (3)
- Simon Jennings (3)
- Brian Kneafsey (1)
- G.C. Kooten van (2)
- S.B. Kroonenberg (1)
- Claire L. Szostek (2)
- Kathryn M. Hughes (3)
- Ana M. Parma (3)
- Tessa Mazor (2)
- Ricardo O. Amoroso (2)
- C.R. Pitcher (3)
- M. Pitcher (1)
- M.A. Rudd (2)
- Jeremy S. Collie (3)
- Marija Sciberras (2)
- Petri Suuronen (3)
Response of benthic fauna to experimental bottom fishing : A global meta-analysis
Sciberras, Marija ; Hiddink, Jan Geert ; Jennings, Simon ; Szostek, Claire L. ; Hughes, Kathryn M. ; Kneafsey, Brian ; Clarke, Leo J. ; Ellis, Nick ; Rijnsdorp, Adriaan D. ; Mcconnaughey, Robert A. ; Hilborn, Ray ; Collie, Jeremy S. ; Pitcher, C.R. ; Amoroso, Ricardo O. ; Parma, Ana M. ; Suuronen, Petri ; Kaiser, Michel J. - \ 2018
Fish and Fisheries 19 (2018)4. - ISSN 1467-2960 - p. 698 - 715.
Dredging - Effects of trawling - Fishing impacts - Invertebrate communities - Systematic review - Taxonomic analysis
Bottom-contact fishing gears are globally the most widespread anthropogenic sources of direct disturbance to the seabed and associated biota. Managing these fishing disturbances requires quantification of gear impacts on biota and the rate of recovery following disturbance. We undertook a systematic review and meta-analysis of 122 experiments on the effects-of-bottom fishing to quantify the removal of benthos in the path of the fishing gear and to estimate rates of recovery following disturbance. A gear pass reduced benthic invertebrate abundance by 26% and species richness by 19%. The effect was strongly gear-specific, with gears that penetrate deeper into the sediment having a significantly larger impact than those that penetrate less. Sediment composition (% mud and presence of biogenic habitat) and the history of fishing disturbance prior to an experimental fishing event were also important predictors of depletion, with communities in areas that were not previously fished, predominantly muddy or biogenic habitats being more strongly affected by fishing. Sessile and low mobility biota with longer life-spans such as sponges, soft corals and bivalves took much longer to recover after fishing (>3 year) than mobile biota with shorter life-spans such as polychaetes and malacostracans (<1 year). This meta-analysis provides insights into the dynamics of recovery. Our estimates of depletion along with estimates of recovery rates and large-scale, high-resolution maps of fishing frequency and habitat will support more rigorous assessment of the environmental impacts of bottom-contact gears, thus supporting better informed choices in trade-offs between environmental impacts and fish production.
Global analysis of depletion and recovery of seabed biota after bottom trawling disturbance
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.R. ; Amoroso, Ricardo O. ; Parma, Ana M. ; Suuronen, Petri ; Kaiser, Michel J. - \ 2017
Proceedings of the National Academy of Sciences of the United States of America 114 (2017)31. - ISSN 0027-8424 - p. 8301 - 8306.
logistic recovery model - systematic review - metaanalysis - impacts - trawling
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.
Estimating the sustainability of towed fishing-gear impacts on seabed habitats: a simple quantitative risk assessment method applicable to data-limited fisheries
Pitcher, C.R. ; Ellis, Nick ; Jennings, Simon ; Hiddink, Jan G. ; Mazor, Tessa ; Kaiser, Michel J. ; Kangas, Mervi I. ; Mcconnaughey, Robert A. ; Parma, Ana M. ; Rijnsdorp, Adriaan D. ; Suuronen, Petri ; Collie, Jeremy S. ; Amoroso, Ricardo ; Hughes, Kathryn M. ; Hilborn, Ray ; Freckleton, Robert - \ 2017
Methods in Ecology and Evolution 8 (2017). - ISSN 2041-210X - p. 472 - 480.
benthic fauna - depletion - ecological risk assessment - ecoystem-based fishery management - effects of trawling - recovery - resilience - sensivity - trawl footprints - vulnerability indicators
1. Impacts of bottom ﬁshing, particularly trawling and dredging, on seabed (benthic) habitats are commonly perceived to pose serious environmental risks. Quantitative ecological risk assessment can be used to evaluate actual risks and to help guide the choice of management measures needed to meet sustainability objectives. 2. We develop and apply a quantitative method for assessing the risks to benthic habitats by towed bottom-ﬁshing gears. The meth od is based on a simple eq uation for relative benthic status (RBS), derived by solving the logistic population growth equation for the equilibrium state. Estimating RBS requires only maps of ﬁshing intensity and habitat type – and parameters for impact and recovery rates, which may be taken from meta-analyses of multiple experimental studies of towed-gear impacts. The aggregate status of habitats in an assessed region is indicated by the distribution of RBS values for the region. The application of RBS is illustrated for a tropical shrimp-trawl ﬁshery. 3. The status of trawled habitats and their RBS value depend on impact rate (depletion per trawl), recovery rate and exposure to tra wling. In the shrimp-trawl ﬁshery region, gravel habitat was most sensitive, and though less exposed than sand or mudd y-sand, was most aﬀected overall (regional RBS = 91% relative to un-trawled RBS = 100%). Muddy-sand was less sensitive, and though relatively most exposed, was less aﬀected overall (RBS = 95%). Sand was most heavily trawled but least sensitive and least aﬀected overall (RBS = 98%). Region-wide , >94% of habitat area had >80% RBS because most tra wling and impacts were conﬁned to small areas. RBS was also applied to the region’s benthic invertebrate communities with similar results. 4. Conclu sions. Unlike qualitative or categorical trait-based risk assessments, the RBS method provides a quantitative estimate of status relative to an unimpacted baseline, with minimal requireme nts for input data. It could be applied to bottom-contact ﬁsh erie s world-wide, including situations where detailed data on characteristics of seabed habitats, or the abundance of seabed fauna are not available. The approach supports assessment against sustainability criteria and evaluation of alternative management strategies (e.g. closed areas, eﬀort management, gear modiﬁcations).
|Economic Valuation of Recreational Fishery Policies
Folmer, H. ; Rudd, M.A. ; Kooten, G.C. van - \ 2002
In: Recreational Fisheries : Ecological, Economic and Social Evaluation / Pitcher, T.J., Hollingworth, C., Oxford : Blackwell - ISBN 9780632063918 - p. 34 - 52.
|Economic evaluation of recreational fishery policies
Rudd, M.A. ; Folmer, H. ; Kooten, G.C. van - \ 2002
In: Evaluating recreational fisheries: an ecological, economic and social balance sheet / Pitcher, T.J., Hollingworth, C., Oxford : Blackwell Science - ISBN 9780632063918 - p. 35 - 52.
|Book review of 'The impact of species changes in African lakes' by T.J. Pitcher and P.J.B. Hart (eds.). Fish and Fisheries Series 18. Chapman & Hall, London, 1966.
Densen, W.L.T. van - \ 1998
Aquaculture 162 (1998). - ISSN 0044-8486 - p. 333 - 334.
|Cenozoic alkalibasaltic to utrabasis volcanism in the uppermost Magdalena Valley, Southern Huila Department, Colombia
Kroonenberg, S.B. ; Pitcher, M. ; Diederix, H. - \ 1982
Geologia Novandina 5 (1982)Mayo. - p. 19 - 26.