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3. Integrating economics into fisheries science and advice: progress, needs, and future opportunities

Author

Thébaud, Olivier, Nielsen, J R, Motova, A, Curtis, H, Bastardie, F, Blomqvist, G E, Daures, Fabienne, Goti, L, Holzer, J, Innes, J, Muench, A, Murillas, A, Nielsen, R, Rosa, R, Thunberg, E, Villasante, S, Virtanen, J, Waldo, S, Agnarsson, S, Castilla espino, D, Curtin, R, Depiper, G, Doering, R, Ellefsen, H, García del hoyo, J J, Gourguet, Sophie, Greene, P, Hamon, K G, Haynie, A, Kellner, J B, Kuikka, S, Le gallic, B, Macher, Claire, Prellezo, R, Santiago castro-rial, J, Sys, K, Van oostenbrugge, H, Vastenhoud, B M J, Thébaud, Olivier, Nielsen, J R, Motova, A, Curtis, H, Bastardie, F, Blomqvist, G E, Daures, Fabienne, Goti, L, Holzer, J, Innes, J, Muench, A, Murillas, A, Nielsen, R, Rosa, R, Thunberg, E, Villasante, S, Virtanen, J, Waldo, S, Agnarsson, S, Castilla espino, D, Curtin, R, Depiper, G, Doering, R, Ellefsen, H, García del hoyo, J J, Gourguet, Sophie, Greene, P, Hamon, K G, Haynie, A, Kellner, J B, Kuikka, S, Le gallic, B, Macher, Claire, Prellezo, R, Santiago castro-rial, J, Sys, K, Van oostenbrugge, H, and Vastenhoud, B M J

Abstract

While the science supporting fisheries management has generally been dominated by the natural sciences, there has been a growing recognition that managing fisheries essentially means managing economic systems. Indeed, over the past seven decades, economic ideas and insights have increasingly come to play a role in fisheries management and policy. As an illustration of this, the International Council for the Exploration of the Sea (ICES) has been actively seeking to expand the scope of its scientific expertise beyond natural sciences [another inter-governmental marine science organization which has done this over the same period is the North Pacific Marine Science organization (PICES)]. In particular, the recently created ICES Working Group on Economics set out to review current work and key future needs relating to economic research and management advice on marine capture fisheries. This article presents the results of this review and addresses how economic research can be incorporated into the science of ICES to provide integrated perspectives on fisheries systems that can contribute to the provision of advice in support of policy development and management decision-making for sustainable uses of living marine resources.

Published
2023
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4. Integrating economics into fisheries science and advice : progress, needs, and future opportunities

Author

Thébaud, O., Nielsen, J.R., Motova, A., Curtis, H., Bastardie, F., Blomqvist, G.E., Daurès, F., Goti, L., Holzer, J., Innes, J., Muench, A., Murillas, A., Nielsen, R., Rosa, R., Thunberg, E., Villasante, S., Virtanen, J., Waldo, S., Agnarsson, S., Castilla Espino, D., Curtin, R., DePiper, G., Doering, R., Ellefsen, H., del Hoyo, J.J.G., Gourguet, S., Greene, P., Hamon, K.G., Haynie, A., Kellner, J.B., Kuikka, S., Le Gallic, B., Macher, C., Prellezo, R., Santiago Castro-Rial, J., Sys, K., van Oostenbrugge, H., Vastenhoud, B.M.J., Thébaud, O., Nielsen, J.R., Motova, A., Curtis, H., Bastardie, F., Blomqvist, G.E., Daurès, F., Goti, L., Holzer, J., Innes, J., Muench, A., Murillas, A., Nielsen, R., Rosa, R., Thunberg, E., Villasante, S., Virtanen, J., Waldo, S., Agnarsson, S., Castilla Espino, D., Curtin, R., DePiper, G., Doering, R., Ellefsen, H., del Hoyo, J.J.G., Gourguet, S., Greene, P., Hamon, K.G., Haynie, A., Kellner, J.B., Kuikka, S., Le Gallic, B., Macher, C., Prellezo, R., Santiago Castro-Rial, J., Sys, K., van Oostenbrugge, H., and Vastenhoud, B.M.J.

Abstract

While the science supporting fisheries management has generally been dominated by the natural sciences, there has been a growing recognition that managing fisheries essentially means managing economic systems. Indeed, over the past seven decades, economic ideas and insights have increasingly come to play a role in fisheries management and policy. As an illustration of this, the International Council for the Exploration of the Sea (ICES) has been actively seeking to expand the scope of its scientific expertise beyond natural sciences [another inter-governmental marine science organization which has done this over the same period is the North Pacific Marine Science organization (PICES)]. In particular, the recently created ICES Working Group on Economics set out to review current work and key future needs relating to economic research and management advice on marine capture fisheries. This article presents the results of this review and addresses how economic research can be incorporated into the science of ICES to provide integrated perspectives on fisheries systems that can contribute to the provision of advice in support of policy development and management decision-making for sustainable uses of living marine resources.

Published
2023

5. Integrating economics into fisheries science and advice:progress, needs, and future opportunities

Author

Thébaud, O., Nielsen, J. R., Motova, A., Curtis, H., Bastardie, F., Blomqvist, G. E., Daurès, F., Goti, L., Holzer, J., Innes, J., Muench, A., Murillas, A., Nielsen, R., Rosa, R., Thunberg, E., Villasante, S., Virtanen, J., Waldo, S., Agnarsson, S., Castilla Espino, D., Curtin, R., DePiper, G., Doering, R., Ellefsen, H., García del Hoyo1, J. J., Gourguet, S., Greene, P., Hamon, K. G., Haynie, A., Kellner, J. B., Kuikka, S., Le Gallic, B., Macher, C., Prellezo, R., Santiago Castro-Rial, J., Sys, K., van Oostenbrugge, H., Vastenhoud, B. M. J., Thébaud, O., Nielsen, J. R., Motova, A., Curtis, H., Bastardie, F., Blomqvist, G. E., Daurès, F., Goti, L., Holzer, J., Innes, J., Muench, A., Murillas, A., Nielsen, R., Rosa, R., Thunberg, E., Villasante, S., Virtanen, J., Waldo, S., Agnarsson, S., Castilla Espino, D., Curtin, R., DePiper, G., Doering, R., Ellefsen, H., García del Hoyo1, J. J., Gourguet, S., Greene, P., Hamon, K. G., Haynie, A., Kellner, J. B., Kuikka, S., Le Gallic, B., Macher, C., Prellezo, R., Santiago Castro-Rial, J., Sys, K., van Oostenbrugge, H., and Vastenhoud, B. M. J.

Abstract

While the science supporting fisheries management has generally been dominated by the natural sciences, there has been a growing recognition that managing fisheries essentially means managing economic systems. Indeed, over the past seven decades, economic ideas and insights have increasingly come to play a role in fisheries management and policy. As an illustration of this, the International Council for the Exploration of the Sea (ICES) has been actively seeking to expand the scope of its scientific expertise beyond natural sciences [another inter-governmental marine science organization which has done this over the same period is the North Pacific Marine Science organization (PICES)]. In particular, the recently created ICES Working Group on Economics set out to review current work and key future needs relating to economic research and management advice on marine capture fisheries. This article presents the results of this review and addresses how economic research can be incorporated into the science of ICES to provide integrated perspectives on fisheries systems that can contribute to the provision of advice in support of policy development and management decision-making for sustainable uses of living marine resources.

Published
2023

6. SEAwise report on predicting effect of changes in ‘fishable’ areas on fish and fisheries : WP 5 Deliverable 5.5

Author

Bastardie, F., Spedicato, Maria Teresa, Bitetto, Isabella, Romagnoni, Giovanni, Zupa, Walter, Letschert, Jonas, Puts, Miriam, Damalas, Dimitrios, Kavadas, Stefanos, Maina, Iris, Tsagarakis, Konstantinos, Poos, J.J., Papantoniou, Georgia, Depestele, Jochen, Batts, L., Bluemel, J., Astarloa Diaz, A., van de Wolfshaar, K.E., Binch, L.L.W., Rindorf, Anna, Bastardie, F., Spedicato, Maria Teresa, Bitetto, Isabella, Romagnoni, Giovanni, Zupa, Walter, Letschert, Jonas, Puts, Miriam, Damalas, Dimitrios, Kavadas, Stefanos, Maina, Iris, Tsagarakis, Konstantinos, Poos, J.J., Papantoniou, Georgia, Depestele, Jochen, Batts, L., Bluemel, J., Astarloa Diaz, A., van de Wolfshaar, K.E., Binch, L.L.W., and Rindorf, Anna

Published
2023

7. Report on the first two confirmed autochthonous cases of West Nile virus encephalitis in Catalonia, Spain

Author

Medicina i Cirurgia, Universitat Rovira i Virgili, García-Cervera, C; Iftimie, SM; Martínez, MJ; González, AV; Parra-Pérez, S; Revuelta-López-Cordón, L; Gil-Toral, J; Vallverdú, RMV; Mateo, AM; López-Azcona, AF; Pujol-Bajador, I; Ballester-Bastardie, F; Castro-Salomó, A, Medicina i Cirurgia, Universitat Rovira i Virgili, and García-Cervera, C; Iftimie, SM; Martínez, MJ; González, AV; Parra-Pérez, S; Revuelta-López-Cordón, L; Gil-Toral, J; Vallverdú, RMV; Mateo, AM; López-Azcona, AF; Pujol-Bajador, I; Ballester-Bastardie, F; Castro-Salomó, A

Abstract

West Nile virus (WNV) is a mosquito-borne flavivirus that can cause Central Nervous System infection in humans. Previous autochthonous cases of WNV encephalitis have been described in Spain, but none in Catalonia.We report on the first two autochthonous cases of encephalitis in humans caused by the West Nile virus (WNV) diagnosed in Catalonia (northeastern region of Spain).An old married couple presented with clinical and biological signs compatible with viral encephalitis. Acute and convalescent serum samples showed IgM and IgG positivity for WNV. In addition, IgM was also detected in cerebrospinal fluid in the male patient. The serological results were later confirmed by microneutralization assays.WNV infection must be considered in patients presenting with meningoencephalitis with viral CSF characteristics when common pathogens are excluded.

Published
2023

8. Integrating economics into fisheries science and advice: progress, needs, and future opportunities

Author

Thébaud, O, primary, Nielsen, J R, additional, Motova, A, additional, Curtis, H, additional, Bastardie, F, additional, Blomqvist, G E, additional, Daurès, F, additional, Goti, L, additional, Holzer, J, additional, Innes, J, additional, Muench, A, additional, Murillas, A, additional, Nielsen, R, additional, Rosa, R, additional, Thunberg, E, additional, Villasante, S, additional, Virtanen, J, additional, Waldo, S, additional, Agnarsson, S, additional, Castilla Espino, D, additional, Curtin, R, additional, DePiper, G, additional, Doering, R, additional, Ellefsen, H, additional, García del Hoyo1, J J, additional, Gourguet, S, additional, Greene, P, additional, Hamon, K G, additional, Haynie, A, additional, Kellner, J B, additional, Kuikka, S, additional, Le Gallic, B, additional, Macher, C, additional, Prellezo, R, additional, Santiago Castro-Rial, J, additional, Sys, K, additional, van Oostenbrugge, H, additional, and Vastenhoud, B M J, additional

Published
2023
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10. SEAwise Report on Key Drivers and Impacts of Changes in Spatial Distribution of Fisheries and Fished Stocks

Author

Damalas, D., Brown, E. J., Bastardie, F., Rindorf, A., Jacobsen, N. S., Rolland, M. S., Woillez, M., Vermard, Y., Chust, G., Paradinas, J., Garcia, D., Uhlmann, S., Vaughan, L., Reid, D., Zupa, W., Pierucci, A., Spedicato, M.T., Vassilopoulou, C., Brodersen, M., Fotiadis, N., Maina, L., Probst, N., Letschert, J., Stelzenmüller, V., Bonsu, P., Kempf, A., Taylor, M., Depestele, J., Sys, K., Van De Wolfshaar, K., Kraan, M., Lambert, G., Eliasen, S., Melia, P., Poos, J. J., Damalas, D., Brown, E. J., Bastardie, F., Rindorf, A., Jacobsen, N. S., Rolland, M. S., Woillez, M., Vermard, Y., Chust, G., Paradinas, J., Garcia, D., Uhlmann, S., Vaughan, L., Reid, D., Zupa, W., Pierucci, A., Spedicato, M.T., Vassilopoulou, C., Brodersen, M., Fotiadis, N., Maina, L., Probst, N., Letschert, J., Stelzenmüller, V., Bonsu, P., Kempf, A., Taylor, M., Depestele, J., Sys, K., Van De Wolfshaar, K., Kraan, M., Lambert, G., Eliasen, S., Melia, P., and Poos, J. J.

Abstract

An ecosystem approach to fisheries management requires the consideration of spatially explicit management measures and other impacts on species and the links between the distribution of fished species, their surrounding environment and productivity. Quantification of the spatial aspects of fisheries and ecology of commercially fished stocks may improve the accuracy of the predicted changes in fish productivity, fisheries yield and costs, benefits and selectivity. To provide a knowledge base for spatially explicit considerations, SEAwise consulted stakeholders throughout Europe and conducted a systematic review of the scientific literature. As a first step, engagement with relevant stakeholder groups in each Case Study identified key issues of relevance to spatial management. The input from this stakeholder consultation was supplemented by a systematic literature review with careful consideration of the objectives, search terms, inclusion/exclusion criteria, the method for data/knowledge extraction and ultimately how these data and knowledge will be used. The purpose of the task was to quantify the key drivers and pressures behind the changes occurring in commercial fish stocks and fisheries distribution that have a spatially explicit content, map the relevant existing scientific knowledge and provide input to the subsequent SEAwise tasks. The words identified by the stakeholders consulted focused on factors causing changes to the distribution of commercial fish/shellfish (climate change, MPAs, species interactions, pollution, habitats and invasive species) and fisheries (windfarms, MPAs, Marine spatial planning) as well as the other human impacts. The systematic review extracted data from 331 papers. The most frequently studied topic was the distribution of fish and the region with most papers was the North Sea with about the twice the amount of papers in each of the other regions. The most frequently studied species in the literature were cod, hak

Published
2022

11. SEAwise Report on the Key Social and Economic Aspects of Regional Fisheries

Author

Plataniotis, A., Koundouri, Phoebe, Stratopoulou, A., Rindorf, A., Jacobsen, N. S., Brown, E., Bastardie, F., Savina Rolland, M., Maroño, S. S., Andres, M., Garcia, D., Uhlmann, S., Reid, D., Romagnoni, G., Spedicato, M.T., Lembo, G., Bitetto, I., Liontakis, A., Vassilopoulou, C., Papadopoulou, N., Taylor, M., Kempf, A., Stelzenmüller, V., Depestele, J., Hamon, K., Kraan, M., Northridge, S., Muench, A., Voss, R., Eliasen, S. Q., Frangoudes, K., Heath, M., Moalla, N., Melia, P., Poos, J. J., Binch, L., Plataniotis, A., Koundouri, Phoebe, Stratopoulou, A., Rindorf, A., Jacobsen, N. S., Brown, E., Bastardie, F., Savina Rolland, M., Maroño, S. S., Andres, M., Garcia, D., Uhlmann, S., Reid, D., Romagnoni, G., Spedicato, M.T., Lembo, G., Bitetto, I., Liontakis, A., Vassilopoulou, C., Papadopoulou, N., Taylor, M., Kempf, A., Stelzenmüller, V., Depestele, J., Hamon, K., Kraan, M., Northridge, S., Muench, A., Voss, R., Eliasen, S. Q., Frangoudes, K., Heath, M., Moalla, N., Melia, P., Poos, J. J., and Binch, L.

Abstract

Fishing is a human activity with various social and economic implications. In most countries, those implications are key factors to consider when deciding on specific management strategies. In this report, the fisheries management strategies implemented in the different European marine regions are reviewed, and relevant indicators, models and tools that can be used to predict the effectiveness of these strategies, from a social and economic point of view are identified. The objective was to identify the critical social and economic aspects of fisheries, relevant social and economic indicators, and regionally-relevant management measures to be considered in the evaluations of different management strategies later in the project. The scoping consultations and systematic reviews identified a long list of potentially relevant key social and economic aspects and management measures. Among these, the most frequently mentioned items identified in scoping with stakeholders were windfarms, employment/jobs, MPAs, food supply, small-scale fisheries, local communities and pollution. The systematic review identified landings (volume or value), effort (days at sea), fuel costs, number of vessels, profit, aspects of costs, economic performance, sustainability-resilience, compliance and capacity as frequently occurring topics. The fisheries management policies most frequently mentioned were effort control, landing obligation, Individual Transferable Quota (ITQ), MPAs and TAC. Among the papers analyzed, more than 30%, concerned the Mediterranean region, followed by Western Waters, the North Sea and the Baltic Sea, indicating a higher contribution of Mediterranean studies to the conclusions. Aspects identified frequently in both scoping and in systematic reviews included MPAs and small-scale fisheries, which were all identified in both methods as frequently occurring. However, there were also aspects which appeared to be represented differently in the evaluations (e

Published
2022

12. Different bottom trawl fisheries have a differential impact on the status of the North Sea seafloor habitats

Author

Rijnsdorp, A D, Hiddink, J G, Van Denderen, P D, Hintzen, N T, Eigaard, O R, Valanko, S, Bastardie, F, Bolam, S G, Boulcott, P, Egekvist, J, Garcia, C, Van Hoey, G, Jonsson, P, Laffargue, Pascal, Nielsen, J R, Piet, G J, Sköld, M, Van Kooten, T, and Degraer, Steven

Subjects
0106 biological sciences, Trawling impact, Beam trawl, Population, Fishing, Footprint, Otter trawl, Aquatic Science, Oceanography, 010603 evolutionary biology, 01 natural sciences, Otter, Method comparison, Onderz. Form. D, Demersal fish, Aquaculture and Fisheries, Recovery, biology.animal, 14. Life underwater, education, Ecology, Evolution, Behavior and Systematics, education.field_of_study, Biomass (ecology), Dredge, Ecology, biology, Aquacultuur en Visserij, Trawling, 010604 marine biology & hydrobiology, Seine, biology.organism_classification, Bottom trawling, Fishery, Soft sediment, Benthic zone, WIAS, Environmental science, Seafloor habitats
Abstract

Fisheries using bottom trawls are the most widespread source of anthropogenic physical disturbance to seafloor habitats. To mitigate such disturbances, the development of fisheries-, conservation-, and ecosystem-based management strategies requires the assessment of the impact of bottom trawling on the state of benthic biota. We explore a quantitative and mechanistic framework to assess trawling impact. Pressure and impact indicators that provide a continuous pressure–response curve are estimated at a spatial resolution of 1 × 1 min latitude and longitude (∼2 km2) using three methods: L1 estimates the proportion of the community with a life span exceeding the time interval between trawling events; L2 estimates the decrease in median longevity in response to trawling; and population dynamic (PD) estimates the decrease in biomass in response to trawling and the recovery time. Although impact scores are correlated, PD has the best performance over a broad range of trawling intensities. Using the framework in a trawling impact assessment of ten métiers in the North Sea shows that muddy habitats are impacted the most and coarse habitats are impacted the least. Otter trawling for crustaceans has the highest impact, followed by otter trawling for demersal fish and beam trawling for flatfish and flyshooting. Beam trawling for brown shrimps, otter trawling for industrial fish, and dredging for molluscs have the lowest impact. Trawling is highly aggregated in core fishing grounds where the status of the seafloor is low but the catch per unit of effort (CPUE) per unit of impact is high, in contrast to peripheral grounds, where CPUE per unit of impact is low.

Published
2020
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13. Evaluation of maximum catch limits and closure areas in the Western Mediterranean (STECF-22-01)

Author

Pinto, C, Bastardie, F, Bitetto, I, Borges, L, Certain, G, Gourguet, S, Grati, F, Kupschus, s, Leutha, S, Mannini, A, Maynou, F, Merzereaud, M, Musumeci, C, Phan, T.A, Pierucci, A, Russo, T, Sala-Coromina, J, Spedicato, M.T, Tassetti, A.N, Viva, C, Pinto, Cecilia, Mannini, Alessandro, and STECF

Subjects
SMART, ISIS-FISH, Bio-economic models, IAM, TAC, ITQ, BEMTOOL, Economic indicators, Maximum catch limits
Abstract

Commission Decision of 25 February 2016 setting up a Scientific, Technical and Economic Committee for Fisheries, C(2016) 1084, OJ C 74, 26.2.2016, p. 4–10. The Commission may consult the group on any matter relating to marine and fisheries biology, fishing gear technology, fisheries economics, fisheries governance, ecosystem effects of fisheries, aquaculture or similar disciplines. This report is the eighth of a suite of STECF EWG reports dedicated to the evaluation of the implementation of the Western Mediterranean Sea Multi-Annual management Plan (hereafter, MAP), following EWG reports 18-09, 18-13, 19-01, 19-14, 20-13, 21-01 and 21-13. The group was requested to implement mixed fisheries bio-economic models to run a number of scenarios up to 2025 with varying parameters and up to 2030 with fixed parameters, to evaluate existing closure areas implemented since 2020 and 2022, maximum catch limits (MCLs) implemented since 2022 and draft a mixed fisheries advice. For all mixed fisheries models applied during the EWG, the data from the DCF official data calls and from the western Mediterranean stock assessments, were the same as the ones used during STECF EWG 21-13, as there were no updates since 2021. The non-spatially explicit mixed fisheries models, IAM (for EMU 1) and BEMTOOL (for EMU 2), focused on the scenarios evaluating MCLs on ARA, ARS and HKE. Reference MCLs for ARA and ARS where obtained from the Regulation EU 2022/110 and from STECF EWG 21-11, while for HKE were obtained solely from EWG 21-11. IAM was updated to differentiate between a coastal and a deep-water trawling within the Spanish fleet segments, as France does not have a deep-water fishery at present. As the model timescale has a yearly resolution, it was not possible to estimate the effect of a monthly MCL. The scenarios considered had a MCL for HKE, one for ARA, and one for both HKE and ARA. These scenarios were run for a decreasing MCL through time (forward scenario: aims at reaching catch at Fmsy by 2025) and an increasing MCL through time (inverse scenario: starting value is catch at Fmsy) accounting for the distribution of stocks by GSA, for a total of 10 scenarios alternative to the baseline. None of the scenarios allowed reaching Fmsy for all six species targeted by the MAP, except when applying a MCL on both ARA and HKE, simultaneously. The results for the HKE stock should be taken with caution as the MCL was applied only to trawlers in these scenarios, but this species can generally be targeted also by longliners and gillnetters. The economic consequences of scenarios accounting for a MCL on HKE, or both ARA and HKE, lead to a massive drop of GVA for the Spanish and French trawling fleets, while economic advantages are observed for longliners and gillnetters. BEMTOOL was updated and refined to consider the different types of fishing activity exerted by each fleet segment at metier level. The model timescale is set at a monthly resolution, so it was possible to run scenarios accounting for a monthly MCL (monthly flexibility was not considered). Only scenarios accounting for a MCL either for ARA or ARS where run, but never in combination (ARA+ARS), nor considering a MCL on HKE, for a total of eight scenarios: forward scenario, inverse scenario, monthly forward scenario, monthly inverse scenario, once with an MCL on ARA and once with an MCL on ARS. Implementing a MCL on the deep-water fisheries suggested an improvement for all stocks except for HKE. ARA and ARS would improve thanks to the control of the MCL, while MUT, DPS and NEP would stay within the upper and lower limits of Fmsy, despite the reallocation of fishing effort from deep to coastal fisheries. The implementation of a reverse MCL did not show a recovery of the stocks. Moreover, a MCL split by month seems to have a lower impact on the catches of ARA and ARS in the short term. The GVA shows an increase for the passive gears fleets (i.e., gillnetters and longliners) and a strong decrease for all trawling fleets in the first two years, with a stable trend over the following years. The spatially explicit mixed fisheries model ISIS-Fish also ran scenarios accounting for MCLs, but only for HKE in GSA 7, implementing a forward, an inverse and a monthly MCL for a total of four scenarios. The forward scenario led to fishing mortalities below Fmsy in 2025 because the value defined for MCL did not account for biomass rebuilding. On the other hand, the fishing mortality achieved using the HCR in the inverse scenario, never fell below Fmsy, because of the unrestricted catches of netters and long-liners. In terms of revenues, both MCL paths led to strong decreases for trawlers. The spatially explicit mixed fisheries models, ISIS-Fish (GSA 7) and SMART (EMU 2), focused on the evaluation of closure areas: existing closure areas, existing closure areas which were seasonal to become permanent, existing closure areas extended to all fishing gears, additional closure areas (only EMU 2), expansion of closure areas by 50% (only EMU 2) and expansion of closure areas by 100% (only EMU 2). ISIS-Fish was applied only for HKE in GSA 7 being the first time this model was used within this working group. The extension of closure areas to all fishing gears (passive gears on top of trawlers) in GSA 7 did not show any improvement, while shifting from a seasonal to a permanent closure showed a decrease in F and an increase in SSB. A decrease of catches of juvenile hake of 20% was observed both with seasonal and permanent closures. Catches of adults increased due to recovery of the stock and considering the low level of initial catches. It should be noted that revenues increased for passive gears but decreased for trawlers. SMART was updated, increasing the spatial resolution of the spatial grid of the model, to be in line with outputs of the ad-hoc contracts preceding the EWG and with ISIS-Fish. None of the scenarios considered for EMU 2 evaluating spatial closures allowed to reach Fmsy by 2025, except for MUT in 10 and NEP in 9 which remains underutilized. SSB shows, nevertheless, an increase across years. None of the scenarios allowed to reduce catches by 20% for all species. All scenarios are associated with a sharp decrease in revenues; spatial closures not widened or seasonal would involve lower decrease of the profits than widened and permanent closures. Loss of profits is more evident for VL12-18 and VL18-24, although the loss is evident for all fleet segments. During EWG 22-01 no explicit comparison between the implementation of an effort regime and a MCL regime was run. The group advices to do so accounting for the limitations encountered in the implementation of MCLs during EWG 22-01. It should be noted that the reduction of GVA is estimated in the short term (up to 2025), but further tests should be done to estimate the trend of GVAs in the mid- and long-term. It is highlighted that given the large number of other species exploited beyond the key ones included in the management plan and in the simulation models, the actual socio-economic impact of the plan remains uncertain. Also, the economic results are presented considering a constant number of vessels, and would differ if the number of vessels is reduced. Additionally, it is difficult to evaluate the socio-economic impact of the MAP on the fleets as at present no socio-economic reference points are used to compare the results against those. European Union Submitted Non Refereed

Published
2022

14. SCIENTIFIC, TECHNICAL AND ECONOMIC COMMITTEE FOR FISHERIES – 67th PLENARY REPORT (PLEN-20-03)

Author

Abella, J.A. (J. Alvaro), Bastardie, F. (Francois), Sampedro-Pastor, P. (Paz), Ulrich-Rescan, C. (Clara), and Doerner, Hendrik

Subjects
Fisheries management, European Fisheries, European Comission, Fisheries institutions, Fisheries, Fisheries organizations, STECF, Pesquerías, Fisheries Management, Fisheries regulations, Centro Oceanográfico de A Coruña
Published
2021

16. Overview of the effects of offshore wind farms on fisheries and aquaculture

Author

van Hoey, G., Bastardie, F., Birchenough, Silvana N.R., De Backer, A., Gill, Andrew B., de Koning, S., Hodgson, Sophia, Mangi Chai, Stephen, Steenbergen, J., Termeer, E.E.W., van den Burg, S.W.K., and Hintzen, N.T.

Subjects
Onderz. Form. D, Groene Economie en Ruimte, Aquaculture and Fisheries, Aquacultuur en Visserij, Life Science, WASS, International Policy, Internationaal Beleid, Green Economy and Landuse
Abstract

Publication metadataThe global shift to renewable energy, including large-scale development of offshore wind farms (OWFs), is well underway. This expansion will in certain places lead to increased coexistence and the potential for multiple uses of the space available for fishing and aquaculture activities, or to potential conflicts and restrictions for some fishing activities. Therefore, the overall objective of this study is to provide an overview of the state of knowledge on the existing and potential future effects of offshore wind farms (OWFs) on fisheries and aquaculture. A literature review on several aspects (ecology, management, legislation, socio-economics, stakeholders and governance) is executed, and complemented by stakeholder interviews and two case studies.

Published
2021

17. The identification of measures to protect by-catch species in mixed-fisheries management plans (ProByFish): Final Report

Author

Rindorf, A., Bastardie, F., Bouch, P., Brunel, T., Depestele, J., Farnsworth, K., Garcia, D., Haslob, H., Ilic, M., Kempf, A., Kokkalis, A., Mahévas, S., Nielsen, J. R., Püts, M., Reid, D., Sys, K., Taylor, M., Trijoulet, V., and Vermard, Y.

Subjects
SDG 14 - Life Below Water
Abstract

The ProByFish study was initiated to assist in the development of methods to evaluate the impact of different fisheries management options on the objectives of the Common Fisheries Policy (CFP). The study developed robust methods to a) define target and bycatch species and b) to divide the bycatch species into valuable and collateral bycatch species, the first generally retained on board and landed and the latter generally discarded. The classification of a species depended on the fleet and area in which the fleet operates. The study also identified species which can only sustain low levers of fishing and proceeded to include examples of these in mixed fisheries models. After the development of stock assessments, reference points and mixed fisheries management strategy evaluation models for a variety of stocks, the study identified the species for which annual catch limits of target species would be sufficient to ensure sustainable exploitation even in the absence of species specific management actions. Then it proceeded to identify measures that will lead to the sustainable development of the bycatch stocks and agreed reference levels to safeguard stocks. The measures included various combinations of single species annual catch limits and annual catch limits afor groups of species on target and valuable bycatch species, gear modifications and spatial management under different implementations of the landing obligation. The management strategy evaluations showed major differences in the results between different implementations of the landing obligation. Under the current implementation, fisheries remained relatively unchanged but a variety of stocks, with cod as the most prevalent example in the Celtic Sea and greater North Sea, remained fished at levels above the level consistent with the maximum long term yield and with a risk of impairing recruitment that exceeded 5%. In contrast, the study found that enforcing the landing obligation fully would safeguard the stocks, but would lead to so-called ‘choke species’ effects. A ‘choke species’ is a species for which the catch opportunity restricts the catches of one or more other species caught together with this species beyond what is compatible with fishing at the levels that provides the maximum sustainable yield of these other species. The ‘choke species’ issue leads to prolonged closures of most demersal fisheries with subsequent socio-economic impacts. The predicted effect of various measures targeted at reducing catches of choke species was mitigated by associated increases in effort as fishing became less effective for several species at the same time. A possible exception to this was gear changes applied to the nephrops fishery. In general, no scenarios predicted stock recovery of all stocks without an associated reduction in fishing effort.

Published
2021
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18. Scientific, Technical and Economic Committee for Fisheries (STECF) - Review of technical measures (part 1) (STECF-20-02)

Author

Rindorf, A., Polet, H., Bastardie, F., Basterretxea, M., De Carlo, F., Feekings, J., Glemarec, G., Königson, S., Konrad, C., Kraak, S.B.M., Miehault, S., Moutopoulos, D., Reid, D., Rihan, D., Sala, A., Setputtis, D., Valeiras, J., Vasilakopoulos, P., and Viva, C.

Subjects
SDG 14 - Life Below Water
Abstract

Commission Decision of 25 February 2016 setting up a Scientific, Technical and Economic Committee for Fisheries, C(2016) 1084, OJ C 74, 26.2.2016, p. 4–10. The Commission may consult the group on any matter relating to marine and fisheries biology, fishing gear technology, fisheries economics, fisheries governance, ecosystem effects of fisheries, aquaculture or similar disciplines. This report evaluates the performance of technical measures to conserve fishery resources and protect marine ecosystems in accordance with Article 31 of Regulation (EU) 1241/201.

Published
2021
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20. Different bottom trawl fisheries have a differential impact on the status of the North Sea seafloor habitats

Author

Rijnsdorp, A.D., Hiddink, J.G., Denderen, P.D., van, Hintzen, N.T., Eigaard, O.R., Valanko, S., Bastardie, F., Bolam, S.G., Boulcott, P., Egekvist, J., Garcia, C., Hoey, G., van, Jonsson, P., Laffargue, P., Nielsen, J.R., Piet, G.J., Sköld, M., Kooten, T., van, Rijnsdorp, A.D., Hiddink, J.G., Denderen, P.D., van, Hintzen, N.T., Eigaard, O.R., Valanko, S., Bastardie, F., Bolam, S.G., Boulcott, P., Egekvist, J., Garcia, C., Hoey, G., van, Jonsson, P., Laffargue, P., Nielsen, J.R., Piet, G.J., Sköld, M., and Kooten, T., van

Abstract

Fisheries using bottom trawls are the most widespread source of anthropogenic physical disturbance to seafloor habitats. To mitigate such disturbances, the development of fisheries-, conservation-, and ecosystem-based management strategies requires the assessment of the impact of bottom trawling on the state of benthic biota. We explore a quantitative and mechanistic framework to assess trawling impact. Pressure and impact indicators that provide a continuous pressure–response curve are estimated at a spatial resolution of 1 χ 1 min latitude and longitude (~2 km2) using three methods: L1 estimates the proportion of the community with a life span exceeding the time interval between trawling events; L2 estimates the decrease in median longevity in response to trawling; and population dynamic (PD) estimates the decrease in biomass in response to trawling and the recovery time. Although impact scores are correlated, PD has the best performance over a broad range of trawling intensities. Using the framework in a trawling impact assessment of ten métiers in the North Sea shows that muddy habitats are impacted the most and coarse habitats are impacted the least. Otter trawling for crustaceans has the highest impact, followed by otter trawling for demersal fish and beam trawling for flatfish and flyshooting. Beam trawling for brown shrimps, otter trawling for industrial fish, and dredging for molluscs have the lowest impact. Trawling is highly aggregated in core fishing grounds where the status of the seafloor is low but the catch per unit of effort (CPUE) per unit of impact is high, in contrast to peripheral grounds, where CPUE per unit of impact is low.

Published
2020

22. Workshop on tradeoffs scenarios between the impact on seafloor habitats and provisions of catch-value (WKTRADE2)

Author

Bastardie, F., Berkenhagen, F., Bitetto, I., and Goldsborough, D.G.

Subjects
Visserij
Abstract

The second Workshop on Tradeoffs Scenarios between the Impact on Seafloor Habitats and Provisions of catch/value (WKTRADE2) was established to provide input on trade-offs aspects to the Working group on Fisheries Benthic Impact and Trade-offs (WGFBIT). As such, the workshop was tasked to: 1) demonstrate the applicability of a set of approaches to better estimate fisheries revenue; 2) establish ways to assess effort reduction scenarios; and 3) explore how to (better) incorporate social factors associated with fisheries. The workshop suggests that to improve estimates of the “value” of an area to fisheries that the contribution margin (income from landings minus variable costs) should be calculated. To do this two complementary approaches (disaggregation and mechanistic) are presented and can be developed using the current ICES VMS and logbook data, supplemented with economic data layers. A modular workflow to integrate the variables into the assessment is also presented. Furthermore, the workshop found that redistribution of total revenue among individual fishers and fishers’ communities will need to be considered to accurately predict displacement effects and impact evaluation on fisheries economics. Applying predictive modelling techniques adds to assessing a static picture (current fishing activity) because it considers displacement effects which may elucidate increased pressure on essential fish habitats, sensitive vulnerable habitats, or previously untrawled areas. To better identify trade-offs between ecological, economic and social factors for use by the ICES working group WGFBIT, the workshop recommends also using integrative approaches (e.g. bioeconomic models, stakeholder engagement) that account for direct linkages between fish, fisheries and benthos dynamics to address issues related to MSFD, CFP and spatial management plans in a consistent way. When considering the effects of displacement the contribution margin should be accounted for as the fishing closures are likely to have indirect (positive or negative) effects. For example, protecting part of the fish stocks might lead to better catch rates and therefore fuel savings, etc. The workshop also found static models to be operational and more easily used to identify impacted fishing fleets. While, dynamic modelling approaches allow for the adaptation of fishing fleets (e.g. displacement, gear modifications), potentially mitigating the estimated impact of spatial and temporal restrictions. Static approaches are easy to use in stakeholder processes, and can facilitate stakeholder engagement. Future development of static and dynamic models will need to account for the influence of other activities (e.g. closures due to wind farm) on fisheries activities. Running scenarios using dynamic models will indicate which areas are most valuable to fisheries after spatial management scenarios are proposed. This elicits the socio-economic valuable fisheries areas. The workshop’s focus was on the spatial management scenarios so far identified by the working group WGFBIT, but the suggested workflow can also be used to address other scenarios, e.g. technical measures aimed at reducing gear penetration depths, disturbance effects and improving selectivity, habitat credits approaches that define credits related to the sensitivity of habitat and convey credits to the fishing industry to manage either collectively or individually. The workshop also identified some follow-up work that working group WGFBIT could take on to both to improve the current scenario testing on spatial restrictions, as well as how to deal with fleet adaptation/effort displacement in reaction to the spatial restrictions. This work would benefit by stronger links to ICES working groups WGECON and WGSOCIAL to ensure the required fisheries economic expertise.

Published
2019

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

Author

Amoroso, R.O., Pitcher, C.R., Rijnsdorp, A.D., McConnaughey, R.A., Parma, A.M., Suuronen, P., Eigaard, O.R., Bastardie, F., Hintzen, N.T., Althaus, F., Baird, S.J., Black, J., Buhl-Mortensen, L., Campbell, A.B., Catarino, R., Collie, J., Cowan, J.H., Durholtz, D., Engstrom, N., Fairweather, T.P., Fock, H.O., Ford, R., Gálvez, P.A., Gerritsen, H., Góngora, M.E., González, J.A., Hiddink, J.G., Hughes, K.M., Intelmann, S.S., Jenkins, C., Jonsson, P., Kainge, P., Kangas, M., Kathena, J.N., Kavadas, S., Leslie, R.W., Lewis, S.G., Lundy, M., Makin, D., Martin, J., Mazor, T., Gonzalez-Mirelis, G., Newman, S.J., Papadopoulou, N., Posen, P.E., Rochester, W., Russo, T., Sala, A., Semmens, J.M., Silva, C., Tsolos, A., Vanelslander, B., Wakefield, C.B., Wood, B.A., Hilborn, R., Kaiser, M.J., Jennings, S., Amoroso, R.O., Pitcher, C.R., Rijnsdorp, A.D., McConnaughey, R.A., Parma, A.M., Suuronen, P., Eigaard, O.R., Bastardie, F., Hintzen, N.T., Althaus, F., Baird, S.J., Black, J., Buhl-Mortensen, L., Campbell, A.B., Catarino, R., Collie, J., Cowan, J.H., Durholtz, D., Engstrom, N., Fairweather, T.P., Fock, H.O., Ford, R., Gálvez, P.A., Gerritsen, H., Góngora, M.E., González, J.A., Hiddink, J.G., Hughes, K.M., Intelmann, S.S., Jenkins, C., Jonsson, P., Kainge, P., Kangas, M., Kathena, J.N., Kavadas, S., Leslie, R.W., Lewis, S.G., Lundy, M., Makin, D., Martin, J., Mazor, T., Gonzalez-Mirelis, G., Newman, S.J., Papadopoulou, N., Posen, P.E., Rochester, W., Russo, T., Sala, A., Semmens, J.M., Silva, C., Tsolos, A., Vanelslander, B., Wakefield, C.B., Wood, B.A., Hilborn, R., Kaiser, M.J., and Jennings, S.

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-km2 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.

Published
2018

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

Author

Amoroso, R. O., Pitcher, C. R., Rijnsdorp, A. D., McConnaughey, R. A., Parma, A. M., Suuronen, P., Eigaard, O. R., Bastardie, F., Hintzen, N. T., Althaus, F., Baird, S. J., Black, J., Buhl-Mortensen, L., Campbell, A. B., Catarino, R., Collie, J., Cowan, J. H., Durholtz, D., Engstrom, N., Fairweather, T. P., Fock, H. O., Ford, R., Gálvez, P. A., Gerritsen, H., Góngora, M. E., González, J. A., Hiddink, J. G., Hughes, K. M., Intelmann, S. S., Jenkins, C., Jonsson, P., Kainge, P., Kangas, M., Kathena, J. N., Kavadas, S., Leslie, R. W., Lewise, S. G., Lundy, M., Makin, D., Martin, J., Mazor, T., Gonzalez-Mirelis, G., Newman, S. J., Papadopoulou, N., Posen, P. E., Rochester, W., Russok, T., Salal, A., Semmens, J. M., Silvan, C., Tsoloso, A., Vanelslander, B., Wakefield, C. B., Wood, B. A., Hilborn, R., Kaiser, M. J., Jennings, S., Amoroso, R. O., Pitcher, C. R., Rijnsdorp, A. D., McConnaughey, R. A., Parma, A. M., Suuronen, P., Eigaard, O. R., Bastardie, F., Hintzen, N. T., Althaus, F., Baird, S. J., Black, J., Buhl-Mortensen, L., Campbell, A. B., Catarino, R., Collie, J., Cowan, J. H., Durholtz, D., Engstrom, N., Fairweather, T. P., Fock, H. O., Ford, R., Gálvez, P. A., Gerritsen, H., Góngora, M. E., González, J. A., Hiddink, J. G., Hughes, K. M., Intelmann, S. S., Jenkins, C., Jonsson, P., Kainge, P., Kangas, M., Kathena, J. N., Kavadas, S., Leslie, R. W., Lewise, S. G., Lundy, M., Makin, D., Martin, J., Mazor, T., Gonzalez-Mirelis, G., Newman, S. J., Papadopoulou, N., Posen, P. E., Rochester, W., Russok, T., Salal, A., Semmens, J. M., Silvan, C., Tsoloso, A., Vanelslander, B., Wakefield, C. B., Wood, B. A., Hilborn, R., Kaiser, M. J., and Jennings, S.

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-km2 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 highresolution spatial data are unavailable. If SAR was =0.1, as in 8 of 24 regions, therewas > 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. © 2018 National Academy of Sciences. All rights reserved.

Published
2018

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

Author

Amoroso, R., Pitcher, C., Rijnsdorp, A., McConnaughey, R., Parma, A., Suuronen, P., Eigaard, O., Bastardie, F., Hintzen, N., Althaus, F., Baird, S., Black, J., Buhl-Mortensen, L., Campbell, A., Catarino, R., Collie, J., Cowan, J., Durholtz, D., Engstrom, N., Fairweather, T., Fock, H., Ford, R., Gálvez, P., Gerritsen, H., Góngora, M., González, J., Hiddink, J., Hughes, K., Intelmann, S., Jenkins, C., Jonsson, P., Kainge, P., Kangas, M., Kathena, J., Kavadas, S., Leslie, R., Lewise, S., Lundy, M., Makin, D., Martin, J., Mazor, T., Gonzalez-Mirelis, G., Newman, Stephen, Papadopoulou, N., Posen, P., Rochester, W., Russok, T., Salal, A., Semmens, J., Silvan, C., Tsoloso, A., Vanelslander, B., Wakefield, Corey, Wood, B., Hilborn, R., Kaiser, M., Jennings, S., Amoroso, R., Pitcher, C., Rijnsdorp, A., McConnaughey, R., Parma, A., Suuronen, P., Eigaard, O., Bastardie, F., Hintzen, N., Althaus, F., Baird, S., Black, J., Buhl-Mortensen, L., Campbell, A., Catarino, R., Collie, J., Cowan, J., Durholtz, D., Engstrom, N., Fairweather, T., Fock, H., Ford, R., Gálvez, P., Gerritsen, H., Góngora, M., González, J., Hiddink, J., Hughes, K., Intelmann, S., Jenkins, C., Jonsson, P., Kainge, P., Kangas, M., Kathena, J., Kavadas, S., Leslie, R., Lewise, S., Lundy, M., Makin, D., Martin, J., Mazor, T., Gonzalez-Mirelis, G., Newman, Stephen, Papadopoulou, N., Posen, P., Rochester, W., Russok, T., Salal, A., Semmens, J., Silvan, C., Tsoloso, A., Vanelslander, B., Wakefield, Corey, Wood, B., Hilborn, R., Kaiser, M., and Jennings, S.

Abstract

© 2018 National Academy of Sciences. All rights reserved. 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-km2 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 highresolution spatial data are unavailable. If SAR was =0.1, as in 8 of 24 regions, therewas > 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.

Published
2018

26. The footprint of bottom trawling in European waters: distribution, intensity, and seabed integrity

Author

Eigaard, O, Bastardie, F, Niels, T, Hintzen, T, Buhl Mortensen, L, Buhl Mortensen, M, Catarino, R, Dinesen, G, Egekvist, J, Fock, H, Geitner, K, Gerritsen, H, Marín González, M, Jonsson, P, Kavadas, S, Laffargue, P, Lundy, M, Mirelis, G, Rasmus Nielsen, J, Papadopoulou, N, Posen, P, Pulcinella, J, Russo, T, Sala, A, Silva, C, Smith, C, Vanelslander, B, and Rijnsdorp, A

Subjects
0106 biological sciences, bottom trawl, trawling intensity, fishing pressure, trawling footprint, seabed habitat, indicators, seabed integrity, benthic impact, north east Atlantic, Mediterranean Sea, Bottom trawl, Oceanography, 01 natural sciences, trawling footprint, trawling intensity, seabed integrity, Mediterranean sea, Benthic impact, marine ecosystems, Seabed, disturbance, Biomass (ecology), geography.geographical_feature_category, seabed habitat, Ecology, benthic communities, Bottom trawling, bottom trawl, Benthic zone, Seabed integrity, impact, floor integrity, Fishing pressure, Fisheries management, Trawling intensity, management, north east Atlantic, Settore BIO/07, Seabed habitat, southern north-sea, Aquatic Science, 010603 evolutionary biology, Trawling footprint, Onderzoeksformatie, framework, Mediterranean Sea, Indicators, Northeast Atlantic, 14. Life underwater, fishing pressure, Ecology, Evolution, Behavior and Systematics, geography, mobile fishing gear, Trawling, Continental shelf, 010604 marine biology & hydrobiology, indicators, benthic impact, fisheries, WIAS, Environmental science
Abstract

Mapping trawling pressure on the benthic habitats is needed as background to support an ecosystem approach to fisheries management. The extent and intensity of bottom trawling on the European continental shelf (0–1000 m) was analysed from logbook statistics and vessel monitoring system data for 2010–2012 at a grid cell resolution of 1 1 min longitude and latitude. Trawling intensity profiles with seabed impact at the surface and subsurface level are presented for 14 management areas in the North-east Atlantic, Baltic Sea and Mediterranean Sea. The footprint of the management areas ranged between 53–99% and 6–94% for the depth zone from 0 to 200 m (Shallow) and from 201 to 1000 m (Deep), respectively. The footprint was estimated as the total area of all grid cells that were trawled fully or partially. Excluding the VC International Council for the Exploration of the Sea 2016. All rights reserved. For Permissions, please email: journals.permissions@oup.com ICES Journal of Marine Science (2016), doi:10.1093/icesjms/fsw194 ICES Journal of Marine Science Advance Access published December 22, 2016 Downloaded from http://icesjms.oxfordjournals.org/ by Howard Browman on December 23, 2016 untrawled proportions reduced the footprint estimates to 28–85% and 2–77%. Largest footprints per unit landings were observed off Portugal and in the Mediterranean Sea. Mean trawling intensity ranged between 0.5 and 8.5 times per year, but was less in the Deep zone with a maximum intensity of 6.4. Highest intensities were recorded in the Skagerrak-Kattegat, Iberian Portuguese area, Tyrrhenian Sea and Adriatic Sea. Bottom trawling was highly aggregated. For the Shallow zone the seabed area where 90% of the effort occurred comprised between 17% and 63% (median 36%) of the management area. Footprints were high over a broad range of soft sediment habitats. Using the longevity distribution of the untrawled infaunal community, the seabed integrity was estimated as the proportion of the biomass of benthic taxa where the trawling interval at the subsurface level exceeds their life span. Seabed integrity was low (

Published
2017
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29. STECF Evaluation of Fisheries Dependent Information (STECF-15-12)

Author

Holmes, Steven J., Bastardie, F. (Francois), Carlshamre, S. (Sofia), Davie, S., Demaneche, Sebastien, Gil, J. (Juan), Jakovleva, I., Kaljuste, O., Kempf, A. (Alexander), Kovsars, M. (Maksims)|Ligas, A. (Alessandro), Lundy, M. (Mathieu), Mugerza, E. (Estanis), Nimmegeers, S. (Sofie), O'Hea, B. (Brendan), Ozernaja, O., Pilgrim-Morrison, S., Raid, Tiit, Reilly, T., Vermard, Y. (Youen), Zolubas, T., and González-Herraiz, I. (Isabel)

Subjects
Effort regime, Pesquerías, Centro Oceanográfico de A Coruña
Abstract

STECF

Published
2015

31. Towards a framework for the quantitative assessment of trawling impact on the seabed and benthic ecosystem

Author

Rijnsdorp, A. D., Bastardie, F., Bolam, S. G., Buhl-mortensen, L., Eigaard, O. R., Hamon, Katell, Hiddink, J. G., Hintzen, N. T., Ivanovic, A., Kenny, A., Laffargue, Pascal, Nielsen, J. R., O'Neill, F. G., Piet, G. J., Polet, H., Sala, A., Smith, C., Van Denderen, P. D., Van Kooten, T., Zengin, M., Rijnsdorp, A. D., Bastardie, F., Bolam, S. G., Buhl-mortensen, L., Eigaard, O. R., Hamon, Katell, Hiddink, J. G., Hintzen, N. T., Ivanovic, A., Kenny, A., Laffargue, Pascal, Nielsen, J. R., O'Neill, F. G., Piet, G. J., Polet, H., Sala, A., Smith, C., Van Denderen, P. D., Van Kooten, T., and Zengin, M.

Abstract

A framework to assess the impact of mobile fishing gear on the seabed and benthic ecosystem is presented. The framework that can be used at regional and local scales provides indicators for both trawling pressure and ecological impact. It builds on high-resolution maps of trawling intensity and considers the physical effects of trawl gears on the seabed, on marine taxa, and on the functioning of the benthic ecosystem. Within the framework, a reductionist approach is applied that breaks down a fishing gear into its components, and a number of biological traits are chosen to determine either the vulnerability of the benthos to the impact of that gear component, or to provide a proxy for their ecological role. The approach considers gear elements, such as otter boards, twin trawl clump, and groundrope, and sweeps that herd the fish. The physical impact of these elements on the seabed, comprising scraping of the seabed, sediment mobilization, and penetration, is a function of the mass, size, and speed of the individual component. The impact of the elements on the benthic community is quantified using a biological-trait approach that considers the vulnerability of the benthic community to trawl impact (e.g. sediment position, morphology), the recovery rate (e.g. longevity, maturation age, reproductive characteristics, dispersal), and their ecological role. The framework is explored to compare the indicators for pressure and ecological impact of bottom trawling in three main seabed habitat types in the North Sea. Preliminary results show that the Sublittoral mud (EUNIS A5.3) is affected the most due to the combined effect of intensive fishing and large proportions of long-lived taxa.

Published
2016
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33. Estimating seabed pressure from demersal trawls, seines, and dredges based on gear design and dimensions

Author

Eigaard, O.R., Bastardie, F., Breen, M., Hintzen, N.T., Rijnsdorp, A.D., Eigaard, O.R., Bastardie, F., Breen, M., Hintzen, N.T., and Rijnsdorp, A.D.

Abstract

This study assesses the seabed pressure of towed fishing gears and models the physical impact (area and depth of seabed penetration) from trip-based information of vessel size, gear type, and catch. Traditionally fishing pressures are calculated top-down by making use of large-scale statistics such as logbook data. Here, we take a different approach starting from the gear itself (design and dimensions) to estimate the physical interactions with the seabed at the level of the individual fishing operation. We defined 14 distinct towed gear groups in European waters (eight otter trawl groups, three beam trawl groups, two demersal seine groups, and one dredge group), for which we established gear “footprints”. The footprint of a gear is defined as the relative contribution from individual larger gear components, such as trawl doors, sweeps, and groundgear, to the total area and severity of the gear's impact. An industry-based survey covering 13 countries provided the basis for estimating the relative impact-area contributions from individual gear components, whereas sediment penetration was estimated based on a literature review. For each gear group, a vessel size–gear size relationship was estimated to enable the prediction of gear footprint area and sediment penetration from vessel size. Application of these relationships with average vessel sizes and towing speeds provided hourly swept-area estimates by métier.

Published
2016

34. Towards a framework for the quantitative assessment of trawling impact on the seabed and benthic ecoystem

Author

Rijnsdorp, A.D., Bastardie, F., Bolam, Stefan G., Hintzen, N.T., Bolam, S.G., Buhl-Mortensen, L., Eigaard, O.R., Hamon, K.G., Piet, G.J., van Denderen, P.D., van Kooten, T., Rijnsdorp, A.D., Bastardie, F., Bolam, Stefan G., Hintzen, N.T., Bolam, S.G., Buhl-Mortensen, L., Eigaard, O.R., Hamon, K.G., Piet, G.J., van Denderen, P.D., and van Kooten, T.

Abstract

A framework to assess the impact of mobile fishing gear on the seabed and benthic ecosystem is presented. The framework that can be used at regional and local scales provides indicators for both trawling pressure and ecological impact. It builds on high-resolution maps of trawling intensity and considers the physical effects of trawl gears on the seabed, on marine taxa, and on the functioning of the benthic ecosystem. Within the framework, a reductionist approach is applied that breaks down a fishing gear into its components, and a number of biological traits are chosen to determine either the vulnerability of the benthos to the impact of that gear component, or to provide a proxy for their ecological role. The approach considers gear elements, such as otter boards, twin trawl clump, and groundrope, and sweeps that herd the fish. The physical impact of these elements on the seabed, comprising scraping of the seabed, sediment mobilization, and penetration, is a function of the mass, size, and speed of the individual component. The impact of the elements on the benthic community is quantified using a biological-trait approach that considers the vulnerability of the benthic community to trawl impact (e.g. sediment position, morphology), the recovery rate (e.g. longevity, maturation age, reproductive characteristics, dispersal), and their ecological role. The framework is explored to compare the indicators for pressure and ecological impact of bottom trawling in three main seabed habitat types in the North Sea. Preliminary results show that the Sublittoral mud (EUNIS A5.3) is affected the most due to the combined effect of intensive fishing and large proportions of long-lived taxa

Published
2016

35. Towards a framework for the quantitative assessment of trawling impact on the seabed and benthic ecosystem

Author

Rijnsdorp, A. D., primary, Bastardie, F., additional, Bolam, S. G., additional, Buhl-Mortensen, L., additional, Eigaard, O. R., additional, Hamon, K. G., additional, Hiddink, J. G., additional, Hintzen, N. T., additional, Ivanović, A., additional, Kenny, A., additional, Laffargue, P., additional, Nielsen, J. R., additional, O'Neill, F. G., additional, Piet, G. J., additional, Polet, H., additional, Sala, A., additional, Smith, C., additional, van Denderen, P. D., additional, van Kooten, T., additional, and Zengin, M., additional

Published
2015
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37. X-ray tomographic and hydraulic characterization of burrowing by three earthworm species in repacked soil cores

Author

Bastardie, F., Capowiez, Yvan, De Dreuzy, Jean-Raynald, Cluzeau, Daniel, Unité mixte de recherche Ecologie des invertébrés (UAPV), and Institut National de la Recherche Agronomique (INRA)-Avignon Université (AU)

Subjects
TOMOGRAPHIE RAYON X, IMAGERIE 3D, STRUCTURE, [SDV]Life Sciences [q-bio], VER DE TERRE, TRANSPORT DE L'EAU, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2003

38. A model-based evaluation of Marine Protected Areas: the example of eastern Baltic cod (Gadus morhua callarias L.).

Author

Kraus, G., Pelletier, D., Dubreuil, J., Möllmann, C., Hinrichsen, Hans-Harald, Bastardie, F., Vermard, Y., Mahevas, S., Kraus, G., Pelletier, D., Dubreuil, J., Möllmann, C., Hinrichsen, Hans-Harald, Bastardie, F., Vermard, Y., and Mahevas, S.

Abstract

The eastern Baltic cod stock collapsed as a consequence of climate-driven adverse hydrographic conditions and overfishing and has remained at historically low levels. Spatio-temporal fishing closures [Marine Protected Areas (MPAs)] have been implemented since 1995, to protect and restore the spawning stock. However, no signs of recovery have been observed yet, either suggesting that MPAs are an inappropriate management measure or pointing towards suboptimal closure design. We used the spatially explicit fishery simulation model ISIS-Fish to evaluate proposed and implemented fishery closures, combining an age-structured population module with a multifleet exploitation module and a management module in a single model environment. The model is parameterized based on (i) the large amount of biological knowledge available for cod and (ii) an analysis of existing spatially disaggregated fishery data. As the population dynamics of eastern Baltic cod depend strongly on the climate-driven hydrographic regime, we considered two production regimes of the stock. MPAs were only effective for stock recovery when they reduced overall fishing effort. The performance of MPAs needs to be evaluated relative to environmental regimes, especially for stocks facing strong environmental variability.

Published
2009
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42. New computer models of plant roots

Author

Pierret, Alain, Doussan, C., Capowiez, Y., Bastardie, F., Pages, L., Pierret, Alain, Doussan, C., Capowiez, Y., Bastardie, F., and Pages, L.

43. New computer models of plant roots

Author

Pierret, Alain, Doussan, C., Capowiez, Y., Bastardie, F., Pages, L., Pierret, Alain, Doussan, C., Capowiez, Y., Bastardie, F., and Pages, L.

44. Report on the first two confirmed autochthonous cases of West Nile virus encephalitis in Catalonia, Spain.

Author

García-Cervera C, Iftimie SM, Martínez MJ, Vázquez González A, Parra-Pérez S, Revuelta-López-Cordón L, Gil-Toral J, Vileu Vallverdu RM, Martínez Mateo A, López-Azcona AF, Pujol-Bajador I, Ballester-Bastardie F, and Castro-Salomó A

Subjects
Animals, Humans, Male, Spain, Antibodies, Viral, Immunoglobulin M, West Nile Fever diagnosis, West Nile virus
Abstract

Background: West Nile virus (WNV) is a mosquito-borne flavivirus that can cause Central Nervous System infection in humans. Previous autochthonous cases of WNV encephalitis have been described in Spain, but none in Catalonia., Materials and Methods: We report on the first two autochthonous cases of encephalitis in humans caused by the West Nile virus (WNV) diagnosed in Catalonia (northeastern region of Spain)., Results: An old married couple presented with clinical and biological signs compatible with viral encephalitis. Acute and convalescent serum samples showed IgM and IgG positivity for WNV. In addition, IgM was also detected in cerebrospinal fluid in the male patient. The serological results were later confirmed by microneutralization assays., Conclusions: WNV infection must be considered in patients presenting with meningoencephalitis with viral CSF characteristics when common pathogens are excluded.

Published
2023
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45. Bridging the gap between commercial fisheries and survey data to model the spatiotemporal dynamics of marine species.

Author

Rufener MC, Kristensen K, Nielsen JR, and Bastardie F

Subjects
Animals, Fishes, Models, Statistical, Population Dynamics, Uncertainty, Conservation of Natural Resources methods, Fisheries
Abstract

Monitoring and assessment of natural resources often require inputs from multiple data sources. In fisheries science, for example, the inference of a species' abundance distribution relies on two main data sources, namely commercial fisheries and scientific survey data. Despite efforts to combine these data into an integrated statistical model, their coupling is frequently hampered due to differences in their sampling designs, which imposes distinct bias sources in the estimator of the abundance distribution. We developed a flexible species distribution model (SDM) that can integrate both data sources while filtering out their relative bias contributions. We applied the model on three different age groups of the western Baltic cod stock. For each age group, we tested the model on (1) survey data and (2) integrated data (survey + commercial) as a means to compare their differences and investigate how the inclusion of commercial fisheries data improved the spatiotemporal abundance estimator and parameter estimates. Moreover, we proposed a novel validation approach to evaluate whether the inclusion of commercial fisheries data in the integrated model is not in direct contradiction with the survey data. Following our approach, the results indicated that the use of commercial fisheries data is suitable for the integrated model. Across all age groups, our results demonstrated how commercial fisheries supplied additional information on cod's spatiotemporal abundance dynamics, highlighting sometimes abundance hot spots that were not detected by the survey model alone. Additionally, the integrated model provided a reduction of up to 20% and 10% in the uncertainty (SE) of the predicted abundance fields and fixed-effect parameters, respectively. The proposed model represents thus a valuable benchmark for evaluating spatiotemporal dynamics of fish, and strengthens the science-based advice for marine policymakers., (© 2021 by the Ecological Society of America.)

Published
2021
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46. Classifying grey seal behaviour in relation to environmental variability and commercial fishing activity - a multivariate hidden Markov model.

Author

van Beest FM, Mews S, Elkenkamp S, Schuhmann P, Tsolak D, Wobbe T, Bartolino V, Bastardie F, Dietz R, von Dorrien C, Galatius A, Karlsson O, McConnell B, Nabe-Nielsen J, Olsen MT, Teilmann J, and Langrock R

Subjects
Animals, Atlantic Ocean, Baltic States, Conservation of Natural Resources trends, Diving, Ecology, Ecosystem, Fisheries trends, Seafood, Behavior, Animal classification, Conservation of Natural Resources methods, Seals, Earless psychology
Abstract

Classifying movement behaviour of marine predators in relation to anthropogenic activity and environmental conditions is important to guide marine conservation. We studied the relationship between grey seal (Halichoerus grypus) behaviour and environmental variability in the southwestern Baltic Sea where seal-fishery conflicts are increasing. We used multiple environmental covariates and proximity to active fishing nets within a multivariate hidden Markov model (HMM) to quantify changes in movement behaviour of grey seals while at sea. Dive depth, dive duration, surface duration, horizontal displacement, and turning angle were used to identify travelling, resting and foraging states. The likelihood of seals foraging increased in deeper, colder, more saline waters, which are sites with increased primary productivity and possibly prey densities. Proximity to active fishing net also had a pronounced effect on state occupancy. The probability of seals foraging was highest <5 km from active fishing nets (51%) and decreased as distance to nets increased. However, seals used sites <5 km from active fishing nets only 3% of their time at sea highlighting an important temporal dimension in seal-fishery interactions. By coupling high-resolution oceanographic, fisheries, and grey seal movement data, our study provides a scientific basis for designing management strategies that satisfy ecological and socioeconomic demands on marine ecosystems.

Published
2019
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47. 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
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48. The Baltic Sea Atlantis: An integrated end-to-end modelling framework evaluating ecosystem-wide effects of human-induced pressures.

Author

Bossier S, Palacz AP, Nielsen JR, Christensen A, Hoff A, Maar M, Gislason H, Bastardie F, Gorton R, and Fulton EA

Subjects
Animals, Atlantic Ocean, Baltic States, Biomass, Climate Change, Computer Simulation, Ecosystem, Eutrophication, Humans, Predatory Behavior physiology, Conservation of Natural Resources trends, Fisheries trends, Fishes physiology, Food Chain, Models, Statistical, Phytoplankton physiology
Abstract

Achieving good environmental status in the Baltic Sea region requires decision support tools which are based on scientific knowledge across multiple disciplines. Such tools should integrate the complexity of the ecosystem and enable exploration of different natural and anthropogenic pressures such as climate change, eutrophication and fishing pressures in order to compare alternative management strategies. We present a new framework, with a Baltic implementation of the spatially-explicit end-to-end Atlantis ecosystem model linked to two external models, to explore the different pressures on the marine ecosystem. The HBM-ERGOM initializes the Atlantis model with high-resolution physical-chemical-biological and hydrodynamic information while the FISHRENT model analyses the fisheries economics of the output of commercial fish biomass for the Atlantis terminal projection year. The Baltic Atlantis model composes 29 sub-areas, 9 vertical layers and 30 biological functional groups. The balanced calibration provides realistic levels of biomass for, among others, known stock sizes of top predators and of key fish species. Furthermore, it gives realistic levels of phytoplankton biomass and shows reasonable diet compositions and geographical distribution patterns for the functional groups. By simulating several scenarios of nutrient load reductions on the ecosystem and testing sensitivity to different fishing pressures, we show that the model is sensitive to those changes and capable of evaluating the impacts on different trophic levels, fish stocks, and fisheries associated with changed benthic oxygen conditions. We conclude that the Baltic Atlantis forms an initial basis for strategic management evaluation suited for conducting medium to long term ecosystem assessments which are of importance for a number of pan-Baltic stakeholders in relation to anthropogenic pressures such as eutrophication, climate change and fishing pressure, as well as changed biological interactions between functional groups., Competing Interests: The authors have declared that no competing interests exist.

Published
2018
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49. Stable isotopes reveal the effect of trawl fisheries on the diet of commercially exploited species.

Author

Hinz H, Moranta J, Balestrini S, Sciberras M, Pantin JR, Monnington J, Zalewski A, Kaiser MJ, Sköld M, Jonsson P, Bastardie F, and Hiddink JG

Subjects
Animals, Commerce, Feeding Behavior, Fisheries, Oceans and Seas, Population Dynamics, Animal Feed analysis, Carbon Isotopes analysis, Fishes physiology, Nitrogen Isotopes analysis
Abstract

Bottom trawling can change food availability for benthivorous demersal species by (i) changing benthic prey composition through physical seabed impacts and (ii) by removing overall benthic consumer biomass increasing the net availability of benthic prey for remaining individuals. Thus trawling may both negatively and positively influence the quantity and quality of food available. Using δ 13 C and δ 15 N we investigated potential diet changes of three commercially exploited species across trawling gradients in the Kattegat (plaice, dab and Norway lobster (Nephrops)) and the Irish Sea (Nephrops). In the Kattegat, trawling affected primarily the biomass of benthic consumers, lowering competition. Nephrops showed significant positive relationships for δ 13 C and a domed relationship for δ 15 N with trawling. In the Irish Sea, intense trawling had a negative effect on benthic prey. δ 13 C and δ 15 N thus showed the inverse relationships to those observed in the Kattegat. Plaice from the Kattegat, showed a significant relationship with trawling intensity for δ 13 C, but not for δ 15 N. No relationship was found for dab. Changes of δ 13 C and δ 15 N correlated with changes in condition of species. The results show that the removal of demersal competitors and benthos by trawling can change the diets of commercial species, ultimately affecting their body condition.

Published
2017
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50. [Rickettsiosis after tick bite: A subtle clinic picture on many occasions, we must be vigilant].

Author

Monterde-Álvarez ML, Calbet-Ferré C, Rius-Gordillo N, Pujol-Bajador I, Ballester-Bastardie F, and Escribano-Subías J

Subjects
Child, Child, Preschool, Humans, Retrospective Studies, Rickettsia Infections diagnosis, Rickettsia Infections etiology, Tick Bites complications
Abstract

Rickettsia diseases are a group of tick-borne transmitted diseases, classified into 2 large groups: spotted fevers and typhus fevers. In addition, a new condition has been described recently, known as tick-borne lymphadenopathy. A retrospective series is presented of paediatric cases of rickettsia diseases diagnosed in 2013 and 2014. A total of 8 patients were included, of which 2 of them were diagnosed as Mediterranean spotted fever, and 6 as tick-borne lymphadenopathy. Rickettsia slovaca, Rickettsia sibirica mongolitimonae, and Rickettsia massiliae were identified in 3 of them. Aetiology, clinical features and treatment carried out in each of them are described. The interest of these cases is that, although most have a benign course, the high diagnostic suspicion and early treatment seem to be beneficial for its outcome., (Copyright © 2016 Elsevier España, S.L.U. and Sociedad Española de Enfermedades Infecciosas y Microbiología Clínica. All rights reserved.)

Published
2017
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