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Evaluating the effects of man-made structures on macro-benthic ecological functioning in the North Sea (2017)

Dannheim, Jennifer ; Birchenough, Silvana N.R. ; Beermann, Jan ; [et al.]

In: EPIC3ICES Annual Science Conference, Fort Lauderdale, USA, 2017-09-18-2017-09-21

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Publication Date: 2017-09-30

Description: The sustainable development of the marine environment has resulted in the introduction of man-made structures (MMS) in the North Sea. These structures range from oil and gas platforms, buoys, wrecks to wind turbines, offering additional artificial habitat over predominantly soft-sediment areas. The expected effects from MMS in shallow shelf seas will modify benthic communities over various spatial and temporal scales with repercussions for overall ecosystem functioning. Research on large offshore structures have identified a suite of unique effects ranging from biodiversity changes with repercussions on local ecosystem functioning to the provision of habitat for fouling communities, acting as stepping stones and many other ecological modifications. Consequently, MMS might induce structural, functional and process-driven changes, which are different from those expected in natural soft bottom benthic systems. This study considers soft-sediment and introduced hard-substrate epifouling communities. The combination of these systems provides a unique ecological opportunity to ascertain biodiversity changes triggered by loss and gain of species provided by the addition of MMS. To date, our current understanding of how ecological functioning might be modified by the addition of these MMSs is still in its infancy. Our current analysis aimed at evaluating functional changes with a combination of biological traits analysis and energy flow changes calculated via modelled secondary production. Further, our study compared the different types of introduced MMS among the natural soft sediment communities, disentangling how the ecological functioning of the macrobenthos may be altered by the introduction of these structures, which provides improved concepts for current monitoring assessments.

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

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Benthic production and energy export from man-made structures to natural soft bottoms: repercussions for food provisioning services? (2019)

Dannheim, Jennifer ; Birchenough, Silvana N.R. ; Beermann, Jan ; [et al.]

In: EPIC3Marine resources and offshore wind farms" - Symposium, Thuenen Institute, Bremerhaven, Germany, 2019-11-12-2019-11-13

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Publication Date: 2019-11-28

Description: Over the last decade, the installation and operation of extensive offshore wind farms led to a substantial increase in artificial substrates in the North Sea. Man-made structures (MMS) such as wind turbines represent additional hard-substrate habitats in the areas of the North Sea that are predominantly characterized by soft sediments. Man-made structures, colonised by fouling populations, may have potential effects by additional biomass discharge from MMS on the benthic soft bottom systems. At the same time, many ecosystem goods and services of the North Sea such as long-term carbon storage and natural resources (e.g. for fish, birds, mammals and finally humans) are intimately linked to the benthic system. Benthic invertebrates form the major food source for many commercially exploited fish species and thus the production (i.e. species energy that is turned into biomass) of benthic communities is of direct relevance for the food provisioning ecosystem service. In this study, production was calculated based on species populations as a quantification of energy flow and trophic interactions. The obtained results may thus provide clear signals for status and possible responses of populations and entire ecosystems to the introduction of MMS. The analysis included different datasets from various monitoring programs of offshore wind farms (i.e. the production and biomass of fouling communities and of natural soft-bottom community) from the Southern North Sea over several years. We analysed production changes due to environmental parameters and the presence of the structures in a meta-analysis. The analysis revealed clear modifications in the upper parts of MMSs, where the highest production values and potential biomass export to soft bottoms were detected. The outcome may thus represent a first step to disentangle the potential effects of additional biomass discharge from MMS on the ecological functioning of benthic systems. Future monitoring should therefore focus on specific targeted monitoring, i.e. investigate the cause-effect relationships to understand changes in energy flow and how this might affect (positive-neutral-negative) the food provisioning in marine ecosystems.

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

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Understanding the impact of man-made structures on the trophic network of the benthic system of the Southern North Sea (2017)

Garcia, Clement ; Dannheim, Jennifer ; Beermann, Jan ; [et al.]

In: EPIC3ICES Annual Science Conference, Fort Lauderdale, USA, 2017-09-18-2017-09-21

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Publication Date: 2017-09-30

Description: Over the last decades, the rapid expansion of man-made structures (MMS) in the marine environment has generated increased attention by industry, scientists and legislators. In the North Sea, these hard substrates host fauna that is different from the naturally occurring widespread soft sediment communities. These new areas are expected to have an ecological footprint on the environment. To investigate the potential trophic changes through carbon flows caused by MMS, we built an Ecopath with Ecosim (EwE) model focusing on the benthic community. The challenge here was to combine meaningful ecological compartments that are both representative of the benthic functional biodiversity and can detect potential changes in energy flow patterns due to MMS. We adapted a framework developed in terrestrial systems for our analysis whereby the selection of categories was based on functional traits representative of the North Sea fauna, with emphasis on their trophic behaviour, the preferred sediment and environmental position. This method yields a simple, yet effective conceptual trophic network that was then tested under various scenarios. A ‘typical soft bottom’ reference was used to compare the effect of three hard structure scenarios (e.g. ‘offshore wind farm’, ‘oil and gas’ and ‘wrecks’). Temporal assessments of each of these scenarios were also considered (i.e. immediately after construction vs 5 years old structures). The results of these simulations can aid further understanding of the wider effects of man-made structure across the marine food-web, improving the limited knowledge available to date with regards to MMS in these systems.

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

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Benthic production and energy export from man-made structures to softbottoms: does it matter? (2018)

Dannheim, Jennifer ; Birchenough, Silvana N.R. ; Beermann, Jan ; [et al.]

In: EPIC3European Marine Biology Symposium, Ostende, Belgium, 2018-09-17-2018-09-21

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Publication Date: 2018-09-28

Description: Over the last decade, the installation and operation of extensive offshore wind farms led to a substantial increase in artificial substrates in the North Sea. Man-made structures (MMS) such as wind turbines, oil and gas rigs represent additional hard-substrate habitats in the areas of the North Sea that are predominantly characterized by soft sediments. Research on large offshore structures has identified a suite of unique effects ranging from biodiversity changes with repercussions on local ecosystem functioning to the provision of habitat for fouling communities, acting as stepping stones also for non-native species. Consequently, MMS might induce structural, functional and process-driven changes over various spatial and temporal scales, that are different from those expected for natural soft-bottom benthic systems. However, our current understanding of how ecological functioning might be modified by the addition of these MMSs is still scarce. Many ecosystem goods and services of the North Sea such as long-term carbon storage and natural resources (e.g. for fish, birds, mammals and finally humans) are intimately linked to the benthic system. Benthic invertebrates form the major food source for many commercially exploited fish species and thus the production (i.e. species energy that is turned into biomass) of benthic communities is of direct relevance for the food provisioning ecosystem service. In this study, production was calculated based on species populations as a quantification of energy flow and trophic interactions. The obtained results may thus provide clear signals for status and possible responses of populations and entire ecosystems to the introduction of MMS. The analysis included different datasets from various monitoring programmes of offshore wind farms and oil and gas rigs (i.e. the production and biomass of fouling communities and of natural soft-bottom community) from the Southern North Sea over several years. We analysed production changes due to environmental parameters and the presence of the structures in a meta-analysis. The analysis revealed clear modifications in the upper parts of MMSs, where the highest production values and potential biomass export to soft bottoms were detected. The outcome may thus represent a first step to disentangle the potential effects of additional biomass discharge from MMS on the ecological functioning of benthic systems.

Repository Name: EPIC Alfred Wegener Institut

Type: Conference , notRev

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Generalized changes of benthic communities after construction of wind farms in the southern North Sea (2022)

Coolen, Joop W.P. ; Vanaverbeke, Jan ; Dannheim, Jennifer ; [et al.]

In: EPIC3Journal of Environmental Management, 315(115173), pp. 1-11, ISSN: 03014797

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Publication Date: 2022-05-13

Description: Over the last years, the development of offshore renewable energy installations such as offshore wind farms led to an increasing number of man-made structures in marine environments. Since 2009, benthic impact monitoring programs were carried out in wind farms installed in the southern North Sea. We collated and analyzed data sets from three major monitoring programs. Our analysis considered a total of 2849 sampling points converted to a set of biodiversity response metrics. We analyzed biodiversity changes related to the implementation of offshore wind farms and generalized the correlation of these changes with spatial and temporal patterns. Our results demonstrate that depth, season and distance to structure (soft-bottom community) consistently determined diversity indicators and abundance parameters, whereas the age and the country affiliation were significantly related to some but not all indices. The water depth was the most important structuring factor for fouling communities while seasonal effects were driving most of the observed changes in soft-sediment communities. We demonstrate that a meta-analysis can provide an improved level of understanding of ecological patterns on largescale effects of anthropogenic structures on marine biodiversity, which were not visible in single monitoring studies. We believe that meta-analyses should become an indispensable tool for management of offshore wind farm effects in the future, particularly in the view of the foreseen development of offshore renewable energies. This might lead to a better picture and more comprehensive view on potential alterations. However, this requires a modern open-source data policy and data management, across institutions and across national borders.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Working Group on Fisheries Benthic Impact and Trade-Offs (WGFBIT; outputs from 2021 meeting). (2022)

Pierucci, Andrea ; Nguyen Xuan, Alessandra ; Kraan, Casper ; [et al.]

International Council for the Exploration of the Sea | Copenhagen, Denmark

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Publication Date: 2022-03-10

Description: The Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT) develops methods and performs assessments to evaluate benthic impact from fisheries at regional scale, while con-sidering fisheries and seabed impact trade-offs. In this report, new fishery benthic impact assessments are carried out for several sub-regions in the Mediterranean (Greek waters, South Adriatic Sea, Sicily waters). For other regions, updates of the whole assessment or specific steps only were presented. A standard advice sheet for the regional benthic assessments, intended as input to the next generation of the ICES Ecosystem and Fisheries Overviews, was finalised and compiled for some regions as example (Greek wa-ters, Baltic Sea). A validation of the longevity relationships using new data was executed for the Kattegat area and the Southern North Sea. In relation to the methodology, some recommenda-tions were formulated concerning the update on depletion rates, the use of epifauna- or infauna-based data, guidance on which set of epibenthic species to include and the time scale for setting the average swept-area-ratio (SAR) used in model fitting and assessment. A benchmarking pro-cess comparing available benthic impact assessment approaches for MSFD descriptor 6 “Seafloor integrity” is needed, as the WGFBIT approach (relative benthic state) is not the only way to assess benthic impacts from physical disturbances. A start was made to explore how to incorporate more explicitly ecosystem functioning in to the WGFBIT seafloor assessment methodology. An improved understanding of the relationships between total community biomass and ecosystem functioning may assist in setting acceptable thresholds for ecosystem impacts from trawling. Furthermore, an improved understanding of the link between species functional effect traits and proxies and processes for specific ecosystem functions could help increase our ability to predict the impact of fishing disturbance on benthic ecosystem functioning more accurately. The ecosys-tem function we focus on is the biogeochemical cycling of organic matter. Two approaches were discussed (i) Biological traits approach focusing on the linkage between biological traits and eco-system functions and (ii) biogeochemical modelling approach using the established the OMEXDIA model.

Description: FBIT

Description: Published

Description: Non Refereed

Keywords: Fishery ; Fishing pressure ; Fisheries Benthic Impact ; Trade-offs ; AIS data ; VMS data ; Longevity ; Fishing gear technology ; Spatial modelling

Repository Name: AquaDocs

Type: Report

Format: 133pp.

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ICES (2023): Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT). (2023)

Pierucci, Andrea ; Nguyen Xuan, Alessandra ; Di Lorenzo, Bianca ; [et al.]

International Council for the Exploration of the Sea (ICES) | Copenhagen, Denmark

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Publication Date: 2023-02-28

Description: The Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT) develops methods and performs assessments to evaluate benthic impact from fisheries at regional scale, while con- sidering fisheries and seabed impact trade-offs. In this report, new fishery benthic impact assessments (ToR A) are shown out for several sub- regions in (French Mediterranean, Celtic Seas). For other regions, updates of the whole assess- ment or specific steps only were presented. To further standardise the different components of the WGFBIT approach across all (sub-)re- gional assessments, a more detail overview of those components was compiled. These compo- nents were slightly different among those regions, related to variation in data availability, envi- ronmental characteristics and implementation possibilities among the (sub-)regions. In WGFBIT, assessments are sometimes based on trawl or grab data, which are sampling differ- ent components of the seafloor ecosystem and can have consequences on the created sensitivity layer. Therefore, there is looked in more detail how the sensitivity outcome (and layers) can dif- fer due to the use of benthic data gathered with different gears (grab/core, trawl or video). The preliminary comparability analyses are performed on different levels: (1) based on co-located sampling; (2) comparing sensitivity maps of the (sub-) area, based on different gears. There were differences observed in longevity distribution at locations sampled with different gears and dif- ferences in data and models lead also to differences in the sensitivity layers. The WGFBIT seafloor assessment framework is not the only way to assess benthic impacts from physical disturbance. A discussion session was held on how the future workflow on advice that ICES WGFBIT assessment contribute to, will be organized. Marine sediments harbour significant levels of biodiversity that play a key role in ecosystem functions and services such as biogeochemical cycling, carbon storage and the regulation of cli- mate. Through the removal of fauna, changes in physico-chemical nature and resuspension of sediment, bottom trawling may result in significant changes in the ecosystem functioning of shelf seas. An assumption of the current PD model is that high community biomass implies higher ecosystem functioning. However, total community biomass does not necessarily reflect changes in species and functional trait composition which play a key role in regulating ecosystem func- tions. ToR D is working on an improved understanding of the link between species functional effect traits and proxies and processes for specific ecosystem functions to improve our ability to predict the impact of fishing disturbance on benthic ecosystem functioning more accurately. Links between species traits and biogeochemical parameters and the impact of trawling on these links are being explored using multivariate ordination analyses using different fauna and bioge- ochemical datasets collected in the North Sea, Celtic Sea, Kattegat, Baltic Sea and the eastern Mediterranean. Changes due to trawling in the trajectories of species densities over time and the concurrent changes in the bioturbation and bioirrigation potential of communities are being modelled using a combination of data-driven mechanistic model and a biogeochemical model. We report on the different data analysis methods that ToR D members have developed over the last year.

Description: ICES

Description: Published

Description: Refereed

Keywords: WGFBIT ; Fishery Benthic Impact ; Benthic Impact ; Human impact ; Fishery management ; Benthos ; Seabed ecoystem

Repository Name: AquaDocs

Type: Report

Format: 112pp.

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