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2. Bottom trawl fishing footprints on the world’s continental shelves

Author

Amoroso, Ricardo O., Pitcher, C. Roland, Rijnsdorp, Adriaan D., McConnaughey, Robert A., Parma, Ana M., Suuronen, Petri, Eigaard, Ole R., Bastardie, Francois, Hintzen, Niels T., Althaus, Franziska, Baird, Susan Jane, Black, Jenny, Buhl-Mortensen, Lene, Campbell, Alexander B., Catarino, Rui, Collie, Jeremy, Cowan, James H., Durholtz, Deon, Engstrom, Nadia, Fairweather, Tracey P., Fock, Heino O., Ford, Richard, Gálvez, Patricio A., Gerritsen, Hans, Góngora, María Eva, González, Jessica A., Hiddink, Jan G., Hughes, Kathryn M., Intelmann, Steven S., Jenkins, Chris, Jonsson, Patrik, Kainge, Paulus, Kangas, Mervi, Kathena, Johannes N., Kavadas, Stefanos, Leslie, Rob W., Lewis, Steve G., Lundy, Mathieu, Makin, David, Martin, Julie, Mazor, Tessa, Gonzalez-Mirelis, Genoveva, Newman, Stephen J., Papadopoulou, Nadia, Posen, Paulette E., Rochester, Wayne, Russo, Tommaso, Sala, Antonello, Semmens, Jayson M., Silva, Cristina, Tsolos, Angelo, Vanelslander, Bart, Wakefield, Corey B., Wood, Brent A., Hilborn, Ray, Kaiser, Michel J., and Jennings, Simon

Published
2018

3. Quantifying and addressing the prevalence and bias of study designs in the environmental and social sciences

Author

Christie, Alec P., Abecasis, David, Adjeroud, Mehdi, Alonso, Juan C., Amano, Tatsuya, Anton, Alvaro, Baldigo, Barry P., Barrientos, Rafael, Bicknell, Jake E., Buhl, Deborah A., Cebrian, Just, Ceia, Ricardo S., Cibils-Martina, Luciana, Clarke, Sarah, Claudet, Joachim, Craig, Michael D., Davoult, Dominique, De Backer, Annelies, Donovan, Mary K., Eddy, Tyler D., França, Filipe M., Gardner, Jonathan P. A., Harris, Bradley P., Huusko, Ari, Jones, Ian L., Kelaher, Brendan P., Kotiaho, Janne S., López-Baucells, Adrià, Major, Heather L., Mäki-Petäys, Aki, Martín, Beatriz, Martín, Carlos A., Martin, Philip A., Mateos-Molina, Daniel, McConnaughey, Robert A., Meroni, Michele, Meyer, Christoph F. J., Mills, Kade, Montefalcone, Monica, Noreika, Norbertas, Palacín, Carlos, Pande, Anjali, Pitcher, C. Roland, Ponce, Carlos, Rinella, Matt, Rocha, Ricardo, Ruiz-Delgado, María C., Schmitter-Soto, Juan J., Shaffer, Jill A., Sharma, Shailesh, Sher, Anna A., Stagnol, Doriane, Stanley, Thomas R., Stokesbury, Kevin D. E., Torres, Aurora, Tully, Oliver, Vehanen, Teppo, Watts, Corinne, Zhao, Qingyuan, and Sutherland, William J.

Published
2020
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9. 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, Hilborn, Ray, 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

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.

Published
2022

12. Adaptive management of the Great Barrier Reef: A globally significant demonstration of the benefits of networks of marine reserves

Author

McCook, Laurence J., Ayling, Tony, Cappo, Mike, Choat, J. Howard, Evans, Richard D., Freitas, Debora M. De, Heupel, Michelle, Hughes, Terry P., Jones, Geoffrey P., Mapstone, Bruce, Marsh, Helene, Mills, Morena, Molloy, Fergus J., Pitcher, C. Roland, Pressey, Robert L., Russ, Garry R., Sutton, Stephen, Sweatman, Hugh, Tobin, Renae, Wachenfeld, David R., Williamson, David H., and Gaines, Steven D.

Published
2010

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

Author

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

Published
2022
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14. Scaling up experimental trawl impact results to fishery management scales--a modelling approach for a 'hot time'

Author

Ellis, Nick, Pantus, Francis, and Pitcher, C. Roland

Subjects
Agricultural research, Fisheries -- Management, Agricultural productivity -- Research, Fish industry -- Management, Company business management, Earth sciences
Abstract

Numerous studies have quantified trawl impacts at small scales. However, effective management of trawl impacts requires synthesis of experimental results (biomass depletion per tow and subsequent recovery) and application at fishery scales--realistically, this is achievable only in a modelling framework. We present a method for scaling up experimental results for management applications that incorporates a benthic biomass model having exponential trawl depletion and logistic recovery. Ultra-fine trawl-track data, supported by simulations, show that realistic trawling can be represented by a negative-binomial stochastic process, with intensity governed by large-scale effort and aggregation by a tunable parameter. Two mechanisms of the process are considered: aggregations in space (hot spots) and aggregations in time (hot times), which yields a logistic differential equation for the large-scale biomass over time. The model shows that scaling from fine scale to fishery scale depends on the degree of aggregation of fishing, with increasing aggregation lowering depletion rates at fishery scales. This model is a fundamental step in enabling assessment of large-scale implications and evaluating alternative management strategies. De nombreuses etudes ont quantifie les impacts des chaluts a de petites echelles. La gestion efficace des impacts des chaluts necessite toutefois une synthese des resultats experimentaux (epuisement de la biomasse par trait et retablissement subsequent) et son application a l'echelle de la peche, ce qui ne peut raisonnablement etre accompli que par modelisation. Nous presentons une methode de mise a l'echelle des resultats experimentaux pour des applications de gestion qui integre un modele de biomasse benthique avec epuisement associe au chalutage exponentiel et retablissement logistique. Des donnees de resolution ultrafine relatives aux traces de chalut appuyees par des simulations montrent qu'un chalutage realiste peut etre represente par un processus stochastique binomial negatif dans lequel l'intensite est regie par l'effort a grande echelle et la concentration par un parametre ajustable. Deux mecanismes du processus sont examines, les concentrations dans l'espace (points chauds) et les concentrations dans le temps (moments chauds), ce qui donne une equation differentielle logistique pour la biomasse a grande echelle en fonction du temps. Le modele demontre que le passage d'une echelle fine a l'echelle de la peche depend du degre de concentration de l'activite de peche, une plus grande concentration se traduisant par une reduction des taux d'epuisement a l'echelle de la peche. Ce modele constitue une etape fondamentale dans revaluation des consequences a grande echelle et de differentes strategies de gestion. [Traduit par la Redaction], Introduction Seabed trawling is a large-scale activity conducted over as much as 75% of the world's continental shelves at varying levels of density (F. Pantus, unpublished data, in Kaiser et [...]

Published
2014
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16. Trawl fishing impacts on the status of seabed fauna in diverse regions of the globe

Author

Mazor, Tessa, Pitcher, C. Roland, Rochester, Wayne, Kaiser, Michel J., Hiddink, Jan G., Jennings, Simon, Amoroso, Ricardo, McConnaughey, Robert A., Rijnsdorp, Adriaan D., Parma, Ana M. M., Suuronen, Petri, Collie, Jeremy, Sciberras, Marija, Atkinson, Lara, Durholtz, Deon, Ellis, Jim R., Bolam, Stefan G., Schratzberger, Michaela, Couce, Elena, Eggleton, Jacqueline, Garcia, Clement, Kainge, Paulus, Paulus, Sarah, Kathena, Johannes N., Gogina, Mayya, van Denderen, P. Daniël, Keller, Aimee A., Horness, Beth H., Hilborn, Ray, Mazor, Tessa, Pitcher, C. Roland, Rochester, Wayne, Kaiser, Michel J., Hiddink, Jan G., Jennings, Simon, Amoroso, Ricardo, McConnaughey, Robert A., Rijnsdorp, Adriaan D., Parma, Ana M. M., Suuronen, Petri, Collie, Jeremy, Sciberras, Marija, Atkinson, Lara, Durholtz, Deon, Ellis, Jim R., Bolam, Stefan G., Schratzberger, Michaela, Couce, Elena, Eggleton, Jacqueline, Garcia, Clement, Kainge, Paulus, Paulus, Sarah, Kathena, Johannes N., Gogina, Mayya, van Denderen, P. Daniël, Keller, Aimee A., Horness, Beth H., and Hilborn, Ray

Abstract

Bottom trawl fishing is a controversial activity. It yields about a quarter of the world's wild seafood, but also has impacts on the marine environment. Recent advances have quantified and improved understanding of large-scale impacts of trawling on the seabed. However, such information needs to be coupled with distributions of benthic invertebrates (benthos) to assess whether these populations are being sustained under current trawling regimes. This study collated data from 13 diverse regions of the globe spanning four continents. Within each region, we combined trawl intensity distributions and predicted abundance distributions of benthos groups with impact and recovery parameters for taxonomic classes in a risk assessment model to estimate benthos status. The exposure of 220 predicted benthos-group distributions to trawling intensity (as swept area ratio) ranged between 0% and 210% (mean = 37%) of abundance. However, benthos status, an indicator of the depleted abundance under chronic trawling pressure as a proportion of untrawled state, ranged between 0.86 and 1 (mean = 0.99), with 78% of benthos groups > 0.95. Mean benthos status was lowest in regions of Europe and Africa, and for taxonomic classes Bivalvia and Gastropoda. Our results demonstrate that while spatial overlap studies can help infer general patterns of potential risk, actual risks cannot be evaluated without using an assessment model that incorporates trawl impact and recovery metrics. These quantitative outputs are essential for sustainability assessments, and together with reference points and thresholds, can help managers ensure use of the marine environment is sustainable under the ecosystem approach to management.

Published
2021

17. Trawl fishing impacts on the status of seabed fauna in diverse regions of the globe

Author

Commonwealth Scientific and Industrial Research Organisation (Australia), Mazor, Tessa, Pitcher, C. Roland, Rochester, Wayne, Kaiser, Michael J., Hiddink, Jan G., Jennings, Simon, Amoroso, Ricardo, McConnaughey, Robert A., Rijnsdorp, Adriaan D., Parma, Ana M., Suuronen, Petri, Collie, Jeremy, Sciberras, Marija, Atkinson, Lara, Durholtz, Deon, Ellis, Jim R., Bolam, Stefan G., Schratzberger, Michaela, Coude, Elena, Eggleton, Jacqueline, Garcia, Clement, Kainge, Paulus, Kathena, Johannes N., Gogina , Mayya, van Denderen, P. Daniël, Keller, Aimee A., Horness, Beth H., Hilborn, Ray, Commonwealth Scientific and Industrial Research Organisation (Australia), Mazor, Tessa, Pitcher, C. Roland, Rochester, Wayne, Kaiser, Michael J., Hiddink, Jan G., Jennings, Simon, Amoroso, Ricardo, McConnaughey, Robert A., Rijnsdorp, Adriaan D., Parma, Ana M., Suuronen, Petri, Collie, Jeremy, Sciberras, Marija, Atkinson, Lara, Durholtz, Deon, Ellis, Jim R., Bolam, Stefan G., Schratzberger, Michaela, Coude, Elena, Eggleton, Jacqueline, Garcia, Clement, Kainge, Paulus, Kathena, Johannes N., Gogina , Mayya, van Denderen, P. Daniël, Keller, Aimee A., Horness, Beth H., and Hilborn, Ray

Abstract

Bottom trawl fishing is a controversial activity. It yields about a quarter of the world's wild seafood, but also has impacts on the marine environment. Recent advances have quantified and improved understanding of large‐scale impacts of trawling on the seabed. However, such information needs to be coupled with distributions of benthic invertebrates (benthos) to assess whether these populations are being sustained under current trawling regimes. This study collated data from 13 diverse regions of the globe spanning four continents. Within each region, we combined trawl intensity distributions and predicted abundance distributions of benthos groups with impact and recovery parameters for taxonomic classes in a risk assessment model to estimate benthos status. The exposure of 220 predicted benthos‐group distributions to trawling intensity (as swept area ratio) ranged between 0% and 210% (mean = 37%) of abundance. However, benthos status, an indicator of the depleted abundance under chronic trawling pressure as a proportion of untrawled state, ranged between 0.86 and 1 (mean = 0.99), with 78% of benthos groups > 0.95. Mean benthos status was lowest in regions of Europe and Africa, and for taxonomic classes Bivalvia and Gastropoda. Our results demonstrate that while spatial overlap studies can help infer general patterns of potential risk, actual risks cannot be evaluated without using an assessment model that incorporates trawl impact and recovery metrics. These quantitative outputs are essential for sustainability assessments, and together with reference points and thresholds, can help managers ensure use of the marine environment is sustainable under the ecosystem approach to management.

Published
2021

18. Quantifying and addressing the prevalence and bias of study designs in the environmental and social sciences.

Author

UCL - SST/ELI/ELIC - Earth & Climate, Christie, Alec P, Abecasis, David, Adjeroud, Mehdi, Alonso, Juan C, Amano, Tatsuya, Anton, Alvaro, Baldigo, Barry P, Barrientos, Rafael, Bicknell, Jake E, Buhl, Deborah A, Cebrian, Just, Ceia, Ricardo S, Cibils-Martina, Luciana, Clarke, Sarah, Claudet, Joachim, Craig, Michael D, Davoult, Dominique, De Backer, Annelies, Donovan, Mary K, Eddy, Tyler D, França, Filipe M, Gardner, Jonathan P A, Harris, Bradley P, Huusko, Ari, Jones, Ian L, Kelaher, Brendan P, Kotiaho, Janne S, López-Baucells, Adrià, Major, Heather L, Mäki-Petäys, Aki, Martín, Beatriz, Martín, Carlos A, Martin, Philip A, Mateos-Molina, Daniel, McConnaughey, Robert A, Meroni, Michele, Meyer, Christoph F J, Mills, Kade, Montefalcone, Monica, Noreika, Norbertas, Palacín, Carlos, Pande, Anjali, Pitcher, C Roland, Ponce, Carlos, Rinella, Matt, Rocha, Ricardo, Ruiz-Delgado, María C, Schmitter-Soto, Juan J, Shaffer, Jill A, Sharma, Shailesh, Sher, Anna A, Stagnol, Doriane, Stanley, Thomas R, Stokesbury, Kevin D E, Torres Moreno, Aurora, Tully, Oliver, Vehanen, Teppo, Watts, Corinne, Zhao, Qingyuan, Sutherland, William J, UCL - SST/ELI/ELIC - Earth & Climate, Christie, Alec P, Abecasis, David, Adjeroud, Mehdi, Alonso, Juan C, Amano, Tatsuya, Anton, Alvaro, Baldigo, Barry P, Barrientos, Rafael, Bicknell, Jake E, Buhl, Deborah A, Cebrian, Just, Ceia, Ricardo S, Cibils-Martina, Luciana, Clarke, Sarah, Claudet, Joachim, Craig, Michael D, Davoult, Dominique, De Backer, Annelies, Donovan, Mary K, Eddy, Tyler D, França, Filipe M, Gardner, Jonathan P A, Harris, Bradley P, Huusko, Ari, Jones, Ian L, Kelaher, Brendan P, Kotiaho, Janne S, López-Baucells, Adrià, Major, Heather L, Mäki-Petäys, Aki, Martín, Beatriz, Martín, Carlos A, Martin, Philip A, Mateos-Molina, Daniel, McConnaughey, Robert A, Meroni, Michele, Meyer, Christoph F J, Mills, Kade, Montefalcone, Monica, Noreika, Norbertas, Palacín, Carlos, Pande, Anjali, Pitcher, C Roland, Ponce, Carlos, Rinella, Matt, Rocha, Ricardo, Ruiz-Delgado, María C, Schmitter-Soto, Juan J, Shaffer, Jill A, Sharma, Shailesh, Sher, Anna A, Stagnol, Doriane, Stanley, Thomas R, Stokesbury, Kevin D E, Torres Moreno, Aurora, Tully, Oliver, Vehanen, Teppo, Watts, Corinne, Zhao, Qingyuan, and Sutherland, William J

Abstract

Building trust in science and evidence-based decision-making depends heavily on the credibility of studies and their findings. Researchers employ many different study designs that vary in their risk of bias to evaluate the true effect of interventions or impacts. Here, we empirically quantify, on a large scale, the prevalence of different study designs and the magnitude of bias in their estimates. Randomised designs and controlled observational designs with pre-intervention sampling were used by just 23% of intervention studies in biodiversity conservation, and 36% of intervention studies in social science. We demonstrate, through pairwise within-study comparisons across 49 environmental datasets, that these types of designs usually give less biased estimates than simpler observational designs. We propose a model-based approach to combine study estimates that may suffer from different levels of study design bias, discuss the implications for evidence synthesis, and how to facilitate the use of more credible study designs.

Published
2020

19. Selection of indicators for assessing and managing the impacts of bottom trawling on seabed habitats

Author

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

Abstract

Bottom trawl fisheries are the most widespread source of anthropogenic physical disturbance to seabed habitats. Development of fisheries‐, conservation‐ and ecosystem‐based management strategies requires the selection of indicators of the impact of bottom trawling on the state of benthic biota. Many indicators have been proposed, but no rigorous test of a range of candidate indicators against nine commonly agreed criteria (concreteness, theoretical basis, public awareness, cost, measurement, historical data, sensitivity, responsiveness, specificity) has been performed. Here, we collated data from 41 studies that compared the benthic biota in trawled areas with those in control locations (that were either not trawled or trawled infrequently), examining seven potential indicators (numbers and biomass for individual taxa and whole communities, evenness, Shannon–Wiener diversity and species richness) to assess their performance against the set of nine criteria. The effects of trawling were stronger on whole‐community numbers and biomass than for individual taxa. Species richness was also negatively affected by trawling but other measures of diversity were not. Community numbers and biomass met all criteria, taxa numbers and biomass and species richness satisfied most criteria, but evenness and Shannon–Wiener diversity did not respond to trawling and only met few criteria, and hence are not suitable state indicators of the effect of bottom trawling. Synthesis and applications. An evaluation of each candidate indicator against a commonly agreed suite of desirable properties coupled with the outputs of our meta‐analysis showed that whole‐community numbers of individuals and biomass are the most suitable indicators of bottom trawling impacts as they performed well on all criteria. Strengths of these indicators are that they respond strongly to trawling, relate directly to ecosystem functioning and are straightforward to measure. Evenness and Shannon–Wiener diversity are not

Published
2020

20. Trawl fishing impacts on the status of seabed fauna in diverse regions of the globe

Author

Mazor, Tessa, primary, Pitcher, C. Roland, additional, Rochester, Wayne, additional, Kaiser, Michel J., additional, Hiddink, Jan G., additional, Jennings, Simon, additional, Amoroso, Ricardo, additional, McConnaughey, Robert A., additional, Rijnsdorp, Adriaan D., additional, Parma, Ana M., additional, Suuronen, Petri, additional, Collie, Jeremy, additional, Sciberras, Marija, additional, Atkinson, Lara, additional, Durholtz, Deon, additional, Ellis, Jim R, additional, Bolam, Stefan G., additional, Schratzberger, Michaela, additional, Couce, Elena, additional, Eggleton, Jacqueline, additional, Garcia, Clement, additional, Kainge, Paulus, additional, Paulus, Sarah, additional, Kathena, Johannes N., additional, Gogina, Mayya, additional, van Denderen, P. Daniël, additional, Keller, Aimee A., additional, Horness, Beth H., additional, and Hilborn, Ray, additional

Published
2020
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22. Selection of indicators for assessing and managing the impacts of bottom trawling on seabed habitats

Author

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

Published
2020
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23. Choosing best practices for managing impacts of trawl fishing on seabed habitats and biota

Author

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

Published
2019
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24. Choosing best practices for managing impacts of trawl fishing on seabed habitats and biota

Author

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

Abstract

Bottom trawling accounts for almost one quarter of global fish landings but may also have significant and unwanted impacts on seabed habitats and biota. Management measures and voluntary industry actions can reduce these impacts, helping to meet sustainability objectives for fisheries, conservation and environmental management. These include changes in gear design and operation of trawls, spatial controls, impact quotas and effort controls. We review nine different measures and actions and use published studies and a simple conceptual model to evaluate and compare their performance. The risks and benefits of these management measures depend on the extent to which the fishery is already achieving management objectives for target stocks and the characteristics of the management system that is already in place. We offer guidance on identifying best practices for trawl-fisheries management and show that best practices and their likelihood of reducing trawling impacts depend on local, national and regional management objectives and priorities, societal values and resources for implementation. There is no universal best practice, and multiple management measures and industry actions are required to meet sustainability objectives and improve trade-offs between food production and environmental protection.

Published
2019

25. Assessing bottom trawling impacts based on the longevity of benthic invertebrates

Author

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

Abstract

Bottom trawling is the most widespread human activity directly affecting seabed habitats. Assessment and effective management of the effects of bottom trawling at the scale of fisheries requires an understanding of differences in sensitivity of biota to trawling. Responses to disturbance are expected to depend on the intrinsic rate of increase in populations (r), which is expected to be linearly related to the reciprocal of longevity. We examine the relationship between the longevity of benthic invertebrates and their response to bottom trawling; both in terms of the immediate mortality following a trawl pass and their subsequent rates of recovery. We collate all available data from experimental and comparative trawling studies, and test how longevity influences these aspects of sensitivity. The shortest lived organisms (<1 year) increased in abundance shortly after experimental trawling but showed no response to trawling in long-term comparative studies. Conversely, the abundance of biota with a life span >1 year decreased by ~9% immediately following a trawl pass. The effect of bottom trawling in comparative studies increased with longevity, with a 2–3× larger effect on biota living >10 years than on biota living 1–3 years. We attribute this difference to the slower recovery rates of the long-lived biota. The observed relationship between the intrinsic rate of population increase (r, our metric of recovery rate) and the reciprocal of longevity matches theoretical expectation and predicts that the sensitivity of habitats to bottom trawling is higher in habitats with higher proportions of long-lived organisms. Synthesis and applications. Where the longevity of a species or the longevity distribution of a community is known or can be inferred, our estimates of depletion and intrinsic rate of increase can be combined with high-resolution maps of trawling intensity to assess trawling impacts at the scale of the fishery or other defined unit of assessment. Our estimates

Published
2019

26. Response of benthic fauna to experimental bottom fishing: A global meta-analysis

Author

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, Pitcher, C. Roland, Amoroso, Ricardo O., Parma, Ana M., Suuronen, Petri, Kaiser, Michel J., 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, Pitcher, C. Roland, Amoroso, Ricardo O., Parma, Ana M., Suuronen, Petri, and Kaiser, Michel J.

Abstract

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.

Published
2018

27. Choosing best practices for managing impacts of trawl fishing on seabed habitats and biota.

Author

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

Subjects
FISH habitats, BIOTIC communities, BEST practices, DREDGING (Fisheries), TRAWLING
Abstract

Bottom trawling accounts for almost one quarter of global fish landings but may also have significant and unwanted impacts on seabed habitats and biota. Management measures and voluntary industry actions can reduce these impacts, helping to meet sustainability objectives for fisheries, conservation and environmental management. These include changes in gear design and operation of trawls, spatial controls, impact quotas and effort controls. We review nine different measures and actions and use published studies and a simple conceptual model to evaluate and compare their performance. The risks and benefits of these management measures depend on the extent to which the fishery is already achieving management objectives for target stocks and the characteristics of the management system that is already in place. We offer guidance on identifying best practices for trawl‐fisheries management and show that best practices and their likelihood of reducing trawling impacts depend on local, national and regional management objectives and priorities, societal values and resources for implementation. There is no universal best practice, and multiple management measures and industry actions are required to meet sustainability objectives and improve trade‐offs between food production and environmental protection. [ABSTRACT FROM AUTHOR]

Published
2020
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28. Assessing bottom trawling impacts based on the longevity of benthic invertebrates

Author

Hiddink, Jan Geert, primary, Jennings, Simon, additional, Sciberras, Marija, additional, Bolam, Stefan G., additional, Cambiè, Giulia, additional, McConnaughey, Robert A., additional, Mazor, Tessa, additional, Hilborn, Ray, additional, Collie, Jeremy S., additional, Pitcher, C. Roland, additional, Parma, Ana M., additional, Suuronen, Petri, additional, Kaiser, Michel J., additional, and Rijnsdorp, Adriaan D., additional

Published
2018
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29. Response of benthic fauna to experimental bottom fishing: A global meta-analysis

Author

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

Published
2018
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31. Estimating the sustainability of towed fishing‐gear impacts on seabed habitats: a simple quantitative risk assessment method applicable to data‐limited fisheries

Author

Pitcher, C. Roland, primary, Ellis, Nick, additional, Jennings, Simon, additional, Hiddink, Jan G., additional, Mazor, Tessa, additional, Kaiser, Michel J., additional, Kangas, Mervi I., additional, McConnaughey, Robert A., additional, Parma, Ana M., additional, Rijnsdorp, Adriaan D., additional, Suuronen, Petri, additional, Collie, Jeremy S., additional, Amoroso, Ricardo, additional, Hughes, Kathryn M., additional, and Hilborn, Ray, additional

Published
2016
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32. Assessing bottom trawling impacts based on the longevity of benthic invertebrates.

Author

Trenkel, Verena, Hiddink, Jan Geert, Sciberras, Marija, Kaiser, Michel J., Suuronen, Petri, Rijnsdorp, Adriaan D., Jennings, Simon, Bolam, Stefan G., Cambiè, Giulia, McConnaughey, Robert A., Mazor, Tessa, Pitcher, C. Roland, Hilborn, Ray, Collie, Jeremy S., and Parma, Ana M.

Subjects
INVERTEBRATES, LONGEVITY, DREDGING (Fisheries), DREDGING & the environment, AQUATIC invertebrate populations, BENTHIC ecology
Abstract

Copyright of Journal of Applied Ecology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2019
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33. Estimating the sustainability of towed fishing-gear impacts on seabed habitats: a simple quantitative risk assessment method applicable to data-limited fisheries

Author

Pitcher, C. Roland, 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, Pitcher, C. Roland, 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., and Hilborn, Ray

Abstract

Summary 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. We develop and apply a quantitative method for assessing the risks to benthic habitats by towed bottom-fishing gears. The method is based on a simple equation 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. The status of trawled habitats and their RBS value depend on impact rate (depletion per trawl), recovery rate and exposure to trawling. In the shrimp-trawl fishery region, gravel habitat was most sensitive, and though less exposed than sand or muddy-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 trawling and impacts were confined to small areas. RBS was also applied to the region's benthic invertebrate communities with similar results. Conclusions. Unlike qualitative or categorical trait-based risk assessments, the RBS method provides a quantitative estimate of status relative to an unimpacted baseline, with minimal requirements for input data. It could be applied to bottom-co

Published
2016

35. Effects of trawling on sessile megabenthos in the Great Barrier Reef and evaluation of the efficacy of management strategies

Author

Pitcher, C. Roland, primary, Ellis, Nick, additional, Venables, William N., additional, Wassenberg, Ted J., additional, Burridge, Charis Y., additional, Smith, Greg P., additional, Browne, Matthew, additional, Pantus, Francis, additional, Poiner, Ian R., additional, Doherty, Peter J., additional, Hooper, John N.A., additional, and Gribble, Neil, additional

Published
2015
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36. Estimating the sustainability of towed fishing-gear impacts on seabed habitats: a simple quantitative risk assessment method applicable to data-limited fisheries.

Author

Pitcher, C. Roland, 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, and Freckleton, Robert

Subjects
SUSTAINABILITY, HABITATS, RISK assessment, EVALUATION, SENSITIVITY analysis
Abstract

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., We develop and apply a quantitative method for assessing the risks to benthic habitats by towed bottom-fishing gears. The method is based on a simple equation 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., The status of trawled habitats and their RBS value depend on impact rate (depletion per trawl), recovery rate and exposure to trawling. In the shrimp-trawl fishery region, gravel habitat was most sensitive, and though less exposed than sand or muddy-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 trawling and impacts were confined to small areas. RBS was also applied to the region's benthic invertebrate communities with similar results., Conclusions. Unlike qualitative or categorical trait-based risk assessments, the RBS method provides a quantitative estimate of status relative to an unimpacted baseline, with minimal requirements for input data. It could be applied to bottom-contact fisheries 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). [ABSTRACT FROM AUTHOR]

Published
2017
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38. Four Regional Marine Biodiversity Studies: Approaches and Contributions to Ecosystem-Based Management

Author

Ellis, Sara L., Incze, Lewis S., Lawton, Peter, Ojaveer, Henn, MacKenzie, Brian R., Pitcher, C. Roland, Shirley, Thomas C., Eero, Margit, Tunnell, John W., Doherty, Peter J., Zeller, Brad M., Ellis, Sara L., Incze, Lewis S., Lawton, Peter, Ojaveer, Henn, MacKenzie, Brian R., Pitcher, C. Roland, Shirley, Thomas C., Eero, Margit, Tunnell, John W., Doherty, Peter J., and Zeller, Brad M.

Abstract

We compare objectives and approaches of four regional studies of marine biodiversity: Gulf of Maine Area Census of Marine Life, Baltic Sea History of Marine Animal Populations, Great Barrier Reef Seabed Biodiversity Project, and Gulf of Mexico Biodiversity Project. Each program was designed as an "ecosystem" scale but was created independently and executed differently. Each lasted 8 to 10 years, including several years to refine program objectives, raise funding, and develop research networks. All resulted in improved baseline data and in new, or revised, data systems. Each contributed to the creation or evolution of interdisciplinary teams, and to regional, national, or international science-management linkages. To date, there have been differing extents of delivery and use of scientific information to and by management, with greatest integration by the program designed around specific management questions. We evaluate each research program's relative emphasis on three principal elements of biodiversity organization: composition, structure, and function. This approach is used to analyze existing ecosystem-wide biodiversity knowledge and to assess what is known and where gaps exist. In all four of these systems and studies, there is a relative paucity of investigation on functional elements of biodiversity, when compared with compositional and structural elements. This is symptomatic of the current state of the science. Substantial investment in understanding one or more biodiversity element(s) will allow issues to be addressed in a timely and more integrative fashion. Evaluating research needs and possible approaches across specific elements of biodiversity organization can facilitate planning of future studies and lead to more effective communication between scientists, managers, and stakeholders. Building a general approach that captures how various studies have focused on different biodiversity elements can also contribute to meta-analyses of worldwide experienc

Published
2011

39. Four regional marine biodiversity studies:approaches and contributions to Ecosystem-based management

Author

Ellis, Sara L., Incze, Lewis S., Lawton, Peter, Ojaveer, Henn, Mackenzie, Brian Royce, Pitcher, C. Roland, Shirley, Thomas C., Eero, Margit, Tunnell Jr., John W., Doherty, Peter J., Zeller, Brad M., Ellis, Sara L., Incze, Lewis S., Lawton, Peter, Ojaveer, Henn, Mackenzie, Brian Royce, Pitcher, C. Roland, Shirley, Thomas C., Eero, Margit, Tunnell Jr., John W., Doherty, Peter J., and Zeller, Brad M.

Published
2011

40. Global patterns and predictions of seafloor biomass using random forests

Author

Wei, Chih-Lin, Rowe, Gilbert T., Escobar-Briones, Elva, Boetius, Antje, Soltwedel, Thomas, Caley, M. Julian, Soliman, Yousria, Huettmann, Falk, Qu, Fangyuan, Yu, Zishan, Pitcher, C. Roland, Haedrich, Richard L., Wicksten, Mary K., Rex, Michael A., Baguley, Jeffrey G., Sharma, Jyotsna, Danovaro, Roberto, MacDonald, Ian R., Nunnally, Clifton C., Deming, Jody W., Montagna, Paul, Lévesque, Mélanie, Weslawski, Jan Marcin, Wlodarska-Kowalczuk, Maria, Ingole, Baban S., Bett, Brian J., Billett, David S.M., Yool, Andrew, Bluhm, Bodil A., Iken, Katrin, Narayanaswamy, Bhavani E., Wei, Chih-Lin, Rowe, Gilbert T., Escobar-Briones, Elva, Boetius, Antje, Soltwedel, Thomas, Caley, M. Julian, Soliman, Yousria, Huettmann, Falk, Qu, Fangyuan, Yu, Zishan, Pitcher, C. Roland, Haedrich, Richard L., Wicksten, Mary K., Rex, Michael A., Baguley, Jeffrey G., Sharma, Jyotsna, Danovaro, Roberto, MacDonald, Ian R., Nunnally, Clifton C., Deming, Jody W., Montagna, Paul, Lévesque, Mélanie, Weslawski, Jan Marcin, Wlodarska-Kowalczuk, Maria, Ingole, Baban S., Bett, Brian J., Billett, David S.M., Yool, Andrew, Bluhm, Bodil A., Iken, Katrin, and Narayanaswamy, Bhavani E.

Abstract

A comprehensive seafloor biomass and abundance database has been constructed from 24 oceanographic institutions worldwide within the Census of Marine Life (CoML) field projects. The machine-learning algorithm, Random Forests, was employed to model and predict seafloor standing stocks from surface primary production, water-column integrated and export particulate organic matter (POM), seafloor relief, and bottom water properties. The predictive models explain 63% to 88% of stock variance among the major size groups. Individual and composite maps of predicted global seafloor biomass and abundance are generated for bacteria, meiofauna, macrofauna, and megafauna (invertebrates and fishes). Patterns of benthic standing stocks were positive functions of surface primary production and delivery of the particulate organic carbon (POC) flux to the seafloor. At a regional scale, the census maps illustrate that integrated biomass is highest at the poles, on continental margins associated with coastal upwelling and with broad zones associated with equatorial divergence. Lowest values are consistently encountered on the central abyssal plains of major ocean basins The shift of biomass dominance groups with depth is shown to be affected by the decrease in average body size rather than abundance, presumably due to decrease in quantity and quality of food supply. This biomass census and associated maps are vital components of mechanistic deep-sea food web models and global carbon cycling, and as such provide fundamental information that can be incorporated into evidence-based management.

Published
2010

41. Adaptive management of the Great Barrier Reef: a globally significant demonstration of the benefits of networks of marine reserves

Author

Molloy, Fergus J., Ayling, Tony, Russ, Garry R., Pressey, Robert L., Mapstone, Bruce, Choat, J. Howard, Martins de Freitas, Debora, Marsh, Helene, Evans, Richard D., Jones, Geoffrey P., Sutton, Stephen, Mills, Morena, Wachenfeld, David R., Cappo, Mike, Hughes, Terry P., McCook, Laurence J., Williamson, David H., Pitcher, C. Roland, Heupel, Michael, Tobin, Renae, Stweatman, Hugh, Molloy, Fergus J., Ayling, Tony, Russ, Garry R., Pressey, Robert L., Mapstone, Bruce, Choat, J. Howard, Martins de Freitas, Debora, Marsh, Helene, Evans, Richard D., Jones, Geoffrey P., Sutton, Stephen, Mills, Morena, Wachenfeld, David R., Cappo, Mike, Hughes, Terry P., McCook, Laurence J., Williamson, David H., Pitcher, C. Roland, Heupel, Michael, Tobin, Renae, and Stweatman, Hugh

Abstract

The Great Barrier Reef (GBR) provides a globally significant demonstration of the effectiveness of large-scale networks of marine reserves in contributing to integrated, adaptive management. Comprehensive review of available evidence shows major, rapid benefits of no-take areas for targeted fish and sharks, in both reef and nonreef habitats, with potential benefits for fisheries as well as biodiversity conservation. Large, mobile species like sharks benefit less than smaller, site-attached fish. Critically, reserves also appear to benefit overall ecosystem health and resilience: outbreaks of coral-eating, crown-of-thorns starfish appear less frequent on no-take reefs, which consequently have higher abundance of coral, the very foundation of reef ecosystems. Effective marine reserves require regular review of compliance: fish abundances in no-entry zones suggest that even no-take zones may be significantly depleted due to poaching. Spatial analyses comparing zoning with seabed biodiversity or dugong distributions illustrate significant benefits from application of best-practice conservation principles in data-poor situations. Increases in the marine reserve network in 2004 affected fishers, but preliminary economic analysis suggests considerable net benefits, in terms of protecting environmental and tourism values. Relative to the revenue generated by reef tourism, current expenditure on protection is minor. Recent implementation of an Outlook Report provides regular, formal review of environmental condition and management and links to policy responses, key aspects of adaptive management. Given the major threat posed by climate change, the expanded network of marine reserves provides a critical and cost-effective contribution to enhancing the resilience of the Great Barrier Reef.

Published
2010

43. Global Patterns and Predictions of Seafloor Biomass Using Random Forests

Author

Wei, Chih-Lin, primary, Rowe, Gilbert T., additional, Escobar-Briones, Elva, additional, Boetius, Antje, additional, Soltwedel, Thomas, additional, Caley, M. Julian, additional, Soliman, Yousria, additional, Huettmann, Falk, additional, Qu, Fangyuan, additional, Yu, Zishan, additional, Pitcher, C. Roland, additional, Haedrich, Richard L., additional, Wicksten, Mary K., additional, Rex, Michael A., additional, Baguley, Jeffrey G., additional, Sharma, Jyotsna, additional, Danovaro, Roberto, additional, MacDonald, Ian R., additional, Nunnally, Clifton C., additional, Deming, Jody W., additional, Montagna, Paul, additional, Lévesque, Mélanie, additional, Weslawski, Jan Marcin, additional, Wlodarska-Kowalczuk, Maria, additional, Ingole, Baban S., additional, Bett, Brian J., additional, Billett, David S. M., additional, Yool, Andrew, additional, Bluhm, Bodil A., additional, Iken, Katrin, additional, and Narayanaswamy, Bhavani E., additional

Published
2010
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49. Global Patterns and Predictions of Seafloor Biomass Using Random Forests.

Author

Chih-Lin Wei, Rowe, Gilbert T., Escobar-Briones, Elva, Boetius, Antje, Soltwedel, Thomas, Caley, M. Julian, Soliman, Yousria, Huettmann, Falk, Fangyuan Qu, Zishan Yu, Pitcher, C. Roland, Haedrich, Richard L., Wicksten, Mary K., Rex, Michael A., Baguley, Jeffrey G., Sharma, Jyotsna, Danovaro, Roberto, MacDonald, Ian R., Nunnally, Clifton C., and Deming, Jody W.

Subjects
BIOMASS, DEMOGRAPHIC surveys, SINGLE cell proteins, AQUATIC invertebrates, SUBMARINE topography, FUNGUS-bacterium relationships, MEIOFAUNA, FOOD industry, ORGANIC compounds
Abstract

A comprehensive seafloor biomass and abundance database has been constructed from 24 oceanographic institutions worldwide within the Census of Marine Life (CoML) field projects. The machine-learning algorithm, Random Forests, was employed to model and predict seafloor standing stocks from surface primary production, water-column integrated and export particulate organic matter (POM), seafloor relief, and bottom water properties. The predictive models explain 63% to 88% of stock variance among the major size groups. Individual and composite maps of predicted global seafloor biomass and abundance are generated for bacteria, meiofauna, macrofauna, and megafauna (invertebrates and fishes). Patterns of benthic standing stocks were positive functions of surface primary production and delivery of the particulate organic carbon (POC) flux to the seafloor. At a regional scale, the census maps illustrate that integrated biomass is highest at the poles, on continental margins associated with coastal upwelling and with broad zones associated with equatorial divergence. Lowest values are consistently encountered on the central abyssal plains of major ocean basins The shift of biomass dominance groups with depth is shown to be affected by the decrease in average body size rather than abundance, presumably due to decrease in quantity and quality of food supply. This biomass census and associated maps are vital components of mechanistic deep-sea food web models and global carbon cycling, and as such provide fundamental information that can be incorporated into evidence-based management. [ABSTRACT FROM AUTHOR]

Published
2010
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50. Fishery-independent surveys and stock assessment of Panulirus ornatusin Torres Strait

Author

Pitcher, C. Roland, Dennis, Darren M., and Skewes, Timothy D.

Abstract

The Torres Strait lobster fishery differs culturally and ecologically from other Australian lobster fisheries. Ornate rock lobsters (Panulirus ornatus) have been fished by the inhabitants of Torres Strait for centuries, and commercial fishing began in the late 1960s. The fishery is a major source of income for Torres Strait Islanders, and the aim of management is to balance the needs of traditional and commercial users under a treaty between Australia and Papua New Guinea. In 1989, the absolute abundance of lobsters in the main fishing grounds was estimated by a visual census and a simple assessment was made. Since then, annual fishery-independent surveys of the relative stock abundance, and catch sampling, have contributed to the development of a simple cohort dynamics model of the fishery; for a range of fishing mortalities, it estimates the potential yield and percentage escapement and has provided annual assessments of the status of the stock and potential yield one year in advance— information valuable for managers considering development options and negotiating catch-sharing agreements and access rights. Future research will develop the model by incorporating information from ongoing surveys, catch recording, and logbook data from the Australian and Papua New Guinean fisheries.

Published
1997
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