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2. Hypoxia is great for jellyfish

Author

Andreasen, Magnus Heide, Behrens, Jane, Brooks, Mollie Elizabeth, Gorbacovs, Sergejs, Jaspers, Cornelia, Kühnemann, Leo, Rosado, Blanca Morillo, Skovlod, Patrick Nørgaard, Svendsen, Jon Christian, Rist, Sinja, Nielsen, Torkel Gissel, Gardella, Giacomo, Andreasen, Magnus Heide, Behrens, Jane, Brooks, Mollie Elizabeth, Gorbacovs, Sergejs, Jaspers, Cornelia, Kühnemann, Leo, Rosado, Blanca Morillo, Skovlod, Patrick Nørgaard, Svendsen, Jon Christian, Rist, Sinja, Nielsen, Torkel Gissel, and Gardella, Giacomo

Published
2024

3. Effects of sediment type and light availability on the burying behaviour of small sandeel (Ammodytes tobianus)

Author

Henriksen, Ole, Moran, Nicholas P., Veilex, Louis A., Behrens, Jane W., Nielsen, Anders, Mildenberger, Tobias, Wright, Peter J., Jensen, Henrik, van Deurs, Mikael, Henriksen, Ole, Moran, Nicholas P., Veilex, Louis A., Behrens, Jane W., Nielsen, Anders, Mildenberger, Tobias, Wright, Peter J., Jensen, Henrik, and van Deurs, Mikael

Abstract

This study examines the sediment preferences of small sandeel (Ammodytes tobianus), an elongated forage fish common in marine and brackish environments of northern Europe. Sandeel have a high fidelity for sandy habitats and spend much of their lives buried, as an important part of both their diel behavioural cycles and overwintering behaviour. A series of independent choice laboratory assays were conducted using wild-caught schools of small sandeel, to: (1) determine their preferred substrate composition for burial; (2) identify the upper limits of sediment grain-sizes that may be utilised for burial, and; (3) investigate the effects of light intensity on burial behaviour. Initial experiments found a clear preference for burial within sediments composed of coarse sand and fine gravel (0.5–4.0 mm) but showed at least some utilisation of both coarser and finer sediment compositions. In further trials, burial was found to be almost entirely eliminated in sediments that contained significant gravel components >4.0 mm. Light manipulation experiments also showed that light intensity was an important factor that influences their choice of burial area. This study is the first to experimentally investigate the sediment preferences and grain-size tolerance limits of small sandeel. These results specifically highlight how subtle differences in both sediment composition and light may influence the habitat usage of small sandeel, which may be valuable for understanding their distribution in the wild and to inform future management and conservation for the species.

Published
2024

8. Aerobic metabolic scope mapping of an invasive fish species with global warming

Author

Quattrocchi, Giovanni, Christensen, Emil, Sinerchia, Matteo, Marras, Stefano, Cucco, Andrea, Domenici, Paolo, Behrens, Jane W., Quattrocchi, Giovanni, Christensen, Emil, Sinerchia, Matteo, Marras, Stefano, Cucco, Andrea, Domenici, Paolo, and Behrens, Jane W.

Abstract

Climate change will exacerbate the negative effects associated with the introduction of non-indigenous species in marine ecosystems. Predicting the spread of invasive species in relation to environmental warming is therefore a fundamental task in ecology and conservation. The Baltic Sea is currently threatened by several local stressors and the highest increase in sea surface temperature of the world’s large marine ecosystems. These new thermal conditions can further favour the spreading of the invasive round goby (Neogobius melanostomus), a fish of Ponto-Caspian origin, currently well established in the southern and central parts of the Baltic Sea. This study aims to assess the thermal habitat suitability of the round goby in the Baltic Sea considering the past and future conditions. The study combines sightings records with known physiological models of aerobic performance and sea surface temperatures. Physiological models read these temperatures, at sighting times and locations, to determine their effects on the aerobic metabolic scope (AMS) of the fish, a measure of its energetic potential in relation to environmental conditions. The geographical mapping of the AMS was used to describe the changes in habitat suitability during the past 3 decades and for climatic predictions (until 2100) showing that the favourable thermal habitat in the Baltic Sea has increased during the past 32 years and will continue to do so in all the applied climate model predictions. Particularly, the predicted new thermal conditions do not cause any reduction in the AMS of round goby populations, while the wintertime cold ranges are likely expected to preserve substantial areas from invasion. The results of this research can guide future monitoring programs increasing the chance to detect this invader in novel areas.

Published
2023

9. The devil is in the details: exploring how functionally distinct round goby is among native fish in the Baltic Sea

Author

Vivó-Pons, Antoni, Wallin-Kihlberg, Isa, Olsson, Jens, Ljungberg, Peter, Behrens, Jane, Lindegren, Martin, Vivó-Pons, Antoni, Wallin-Kihlberg, Isa, Olsson, Jens, Ljungberg, Peter, Behrens, Jane, and Lindegren, Martin

Abstract

Understanding the characteristics and conditions that make non-indigenous species (NIS) successful at establishing in recipient communities is a key in determining their potential impacts on native species, as well as to improve management actions such as prevention of future invasions. The round goby (Neogobius melanostomus) is one of the most widespread non-indigenous fish species in the Northern Hemisphere, including the coastal zones of the Baltic Sea. The impacts of round goby in the Baltic Sea are pronounced and multifaceted, yet our knowledge regarding the underlying assembly processes determining its establishment is limited. To overcome this knowledge gap, we applied a trait-based approach to assess the degree of niche overlap and functional (trait) similarity between round goby and native fish species in coastal areas from the Baltic Sea, based on the functional distinctiveness metric. Our results show that round goby is generally quite similar (or not dissimilar) to the native fish of the regional species pool, at least in terms of its overall trait composition. Conversely, round goby demonstrates pronounced differences compared to the native community in its display of parental care and territorial behaviour. Such differences in individual traits could play an important role in round goby’s invasion success in the Baltic Sea, including its interactions with native species (e.g. competition). Our results and their potential implications may be highly relevant for conservation and management if integrated within existing risk assessment tools for biological invasions in order to prioritise and enhance the effectiveness of preventative actions towards the expansion of round goby.

Published
2023

10. The interactions between fishing mortality, age, condition and recruitment in exploited fish populations in the North Sea

Author

van Deurs, Mikael, Jacobsen, Nis S., Behrens, Jane W., Henriksen, Ole, Rindorf, Anna, van Deurs, Mikael, Jacobsen, Nis S., Behrens, Jane W., Henriksen, Ole, and Rindorf, Anna

Abstract

A quantity of studies have documented how greater condition and older age of individual fish enhances reproductive success via a variety of processes from egg production to larval survival. If these relations translate into relationships between stock demography and recruitment, maintaining a “healthy” age composition may be a key step towards ensuring stock productivity. We examined the correlation between indicators of the age and size composition and the residual-variation from the stock-recruitment relationship (i.e. the variation not explained by the spawning stock biomass) in eleven commercially exploited fish stocks in the North Sea. We also analyzed to what extent spawner age and size composition responded to variations in fishing mortality. Before detrending to accommodate any temporal patterns, recruitment residuals correlated negatively with the relative age composition in all eleven stocks (plaice, whiting, and saithe being significant). However, after detrending the recruitment residuals, the correlations weakened and only nine out of eleven stocks correlated negatively. Lastly, we also conducted a delay difference analysis, which yielded a more or less even distribution between negative and positive correlations, and in addition two stocks (cod and Norway pout) came out showing significant positive correlations between recruitment residuals and age composition. In contrast, eight of the eleven stocks showed positive correlations between spawner weight and recruitment residuals and correlations were significant for plaice, cod, and saithe. After detrending the data, the significant correlations disappeared, but the overall tendency towards positive correlations between spawner weight and recruitment residuals prevailed. Overall, these results suggest that fish condition is more likely to show positive relationships with recruitment success than age composition. Lastly, it was found that the majority of stocks showed a strong link between fishing mortali

Published
2023

11. Future perspectives for cod in the eastern Baltic Sea – stock development, fisheries and management challenges in a changing ecosystem

Author

Eero, Margit, Axén, Charlotte, Baranova, Tatjana, Behrens, Jane W., Bergström, Ulf, Brander, Keith, Buchmann, Kurt, Bucholtz, Rikke Hagstrøm, Heimbrand, Yvette, Hüssy, Karin, Jacobsen, Charlotte, Krumme, Uwe, Lunneryd, Sven-Gunnar, Neuenfeldt, Stefan, Plikshs, Maris, Politis, Sebastian Nikitas, Radtke, Krzysztof, Plambech Ryberg, Marie, Tomkiewicz, Jonna, Eero, Margit, Axén, Charlotte, Baranova, Tatjana, Behrens, Jane W., Bergström, Ulf, Brander, Keith, Buchmann, Kurt, Bucholtz, Rikke Hagstrøm, Heimbrand, Yvette, Hüssy, Karin, Jacobsen, Charlotte, Krumme, Uwe, Lunneryd, Sven-Gunnar, Neuenfeldt, Stefan, Plikshs, Maris, Politis, Sebastian Nikitas, Radtke, Krzysztof, Plambech Ryberg, Marie, and Tomkiewicz, Jonna

Abstract

The present report describes results of the project ”Future perspectives for cod in the Eastern Baltic Sea–stock development, fisheries and management challenges in a changing ecosystem (FREMTOR)”, funded by European Maritime and Fisheries Fund and the Danish Fisheries Agency. The project provides new knowledge on some key aspects of the status of the stock and associated drivers, as well as synthesizes existing information, altogether providing state-of-the art basis for evaluating future perspectives for this stock. Improved understanding of the factors responsible for the low productivity of the stock is crucially important for being able to assess its recovery potential. Furthermore, realistic targets for stock recovery in the current state of the ecosystem need to take account of changes in biological parameters, including growth and recruitment as well as other indicators of stock health, such as body condition and parasite load. In this project, time series of various biological parameters of the Eastern Baltic cod (incl. condition, size at maturity, parasite load, length structure) were extended back to the 1940s, i.e. the beginning of intensive exploitation of this stock. These data show that the cod stock is presently in unprecedented poor state. Cod body condition and infection load of C. osculatum were in similar adverse states in the 1940s–1950s, however, the relatively more favorable states of other biological parameters back then indicate that the stock was overall in a better shape than is presently the case. The long–term data reveal concurrent trends in seal abundance and C. osculatum infection, the latter being inversely related to cod body condition, which provides correlation based evidence regarding potential associations between these variables. Spatial contrasts in the present state of cod are apparent in cod from the Åland Sea being in a substantially better condition and larger in size compared to the average specimen

Published
2023

12. Boldness and physiological variation in round goby populations along their Baltic Sea invasion front

Author

Galli, Andrea, Behrens, Jane W., Gesto, Manuel, Moran, Nicholas P., Galli, Andrea, Behrens, Jane W., Gesto, Manuel, and Moran, Nicholas P.

Abstract

The round goby (Neogobius melanostomus) is a fish native to the Ponto-Caspian region that is highly invasive through freshwater and brackish habitats in northern Europe and North America. Individual behavioural variation appears to be an important factor in their spread, for example a round goby's personality traits can influence their dispersal tendency, which may also produce variation in the behavioural composition of populations at different points along their invasion fronts. To further analyze the drivers of behavioural variation within invasive round goby populations, we focused on two populations along the Baltic Sea invasion front with closely comparable physical and community characteristics. Specifically, this study measured personality within a novel environment and predator response context (i.e., boldness), and directly analyzed links between individuals’ personality traits and their physiological characteristics and stress responses (i.e., blood cortisol and lactate, brain neurotransmitters). In contrast to previous findings, the more recently established population had similar activity levels but were less bold in response to a predator cue than the older population, which suggests that behavioural compositions within our study populations may be more driven by local environmental conditions rather than being a result of personality-biased dispersal. Furthermore, we found that both populations showed similar physiological stress responses, and there also appeared to be no detectable relationship between physiological parameters and behavioural responses to predator cues. Instead, body size and body condition were important factors influencing individual behavioural responses. Overall, our results reinforce the importance of boldness traits as a form of phenotypic variation in round goby populations in the Baltic Sea. We also highlight the importance of these traits for future studies specifically testing for effects of invasion processes on ph

Published
2023

13. New insights into the recent collapse of Eastern Baltic cod from historical data on stock health

Author

Eero, Margit, Brander, Keith, Baranova, Tatjana, Krumme, Uwe, Radtke, Krzysztof, Behrens, Jane W., Eero, Margit, Brander, Keith, Baranova, Tatjana, Krumme, Uwe, Radtke, Krzysztof, and Behrens, Jane W.

Abstract

The Eastern Baltic cod (Gadus morhua) stock is currently in a very poor state, with low biomass and adverse trends in several life history and demographic parameters. This raises concern over whether and to what level recovery is possible. Here, we look for new insights from a historical perspective, extending the time series of various stock health indicators back to the 1940s, i.e. to the beginning of intensive exploitation of the Eastern Baltic cod. The historical data confirm that the stock deterioration in recent years is unprecedented, as all indicators are presently in their worst states on record. Cod body condition and energy reserves were equally low in the 1940s-1950s, accompanied by high parasitic liver worm infection, comparable to that measured in recent years. However, other stock parameters (size structure, size at maturity, stock distribution) are currently in their worst states over the past 80 years. In contrast, the state of cod in the 1970s to early 1990s that is often perceived as a desirable target, was exceptional, with the most favorable indicator levels in the time series. Long-term observation data reveal concurrent or asynchronous trends in different indicators of stock health and to what extent these have coincided with changes in possible external drivers. In this way, the extended time series contribute to ongoing research on understanding the collapse of the cod and its recovery potential.

Published
2023

14. Comparative histopathology of livers from Baltic cod infected with the parasitic nematode Contracaecum osculatum

Author

Behrens, Jane W., Ryberg, Marie Plambech, Chondromatidou, Virginia, Iburg, Tine Moesgaard, Behrens, Jane W., Ryberg, Marie Plambech, Chondromatidou, Virginia, and Iburg, Tine Moesgaard

Abstract

Infection levels with the parasitic nematode Contracaecum osculatum in Eastern Baltic cod have increased in the last decades. Eastern Baltic cod is transport host for this parasite that has a high affinity for the liver of the fish. The liver is a highly vital organ and damage to the liver tissue can result in reduced functionality of the organ. Previous studies have revealed that cod with high infections loads reveal impaired physiological performance, reduced nutritional condition and show signs of having a liver disease. Yet, little is known about the pathological changes and inflammatory reactions of the cod liver related to the infections. In this study, we performed histological examinations on 30 Baltic cod livers caught in the eastern part of the Baltic Sea (length; 38 ± 0.9 cm, weight; 454 ± 34.8 gram) and three Sound cod livers (length; 63 ± 2.9 cm, weight; 3396 ± 300.2 gram) to categorize the degree of inflammation and its relation to pathological changes in infected cod livers. We further investigated how C. osculatum infection levels varied with intensity of inflammation and co-infections. We found that high infection loads with C. osculatum caused severe inflammation in the liver tissue of cod and reduced fat content of the hepatocytes. Conspicuous amounts of glycogen were found in the muscle and intestinal epithelial cells of the nematodes and parasitic co-infections occurred more frequently in the most heavily infected livers.

Published
2023

15. Bioenergetics modelling of growth processes in parasitized Eastern Baltic cod (Gadus morhua L.)

Author

Ryberg, Marie Plambech, Christensen, Asbjørn, Jørgensen, Christian, Neuenfeldt, Stefan, Skov, Peter V., Behrens, Jane W., Ryberg, Marie Plambech, Christensen, Asbjørn, Jørgensen, Christian, Neuenfeldt, Stefan, Skov, Peter V., and Behrens, Jane W.

Abstract

Changes in physiological processes can reveal how individuals respond to environmental stressors. It can be difficult to link physiological responses to changes in vital rates such as growth, reproduction and survival. Here, bioenergetics modelling can aid in understanding non-intuitive outcomes from stressor combinations. Building on an established bioenergetics model, we examine the potential effects of parasite infection on growth rate and body condition. Parasites represent an overlooked biotic factor, despite their known effects on the physiology of the host organism. As a case study, we use the host–parasite system of Eastern Baltic cod (Gadus morhua) infected with the parasitic nematode Contraceacum osculatum. Eastern Baltic cod have during the past decade experienced increasing infection loads with C. osculatum that have been shown to lead to physiological changes. We hypothesized that infection with parasites affects cod growth negatively as previous studies reveal that the infections lead to reduced energy turnover, severe liver disease and reduced nutritional condition. To test this, we implemented new variables into the bioenergetics model representing the physiological changes in infected fish and parameterized these based on previous experimental data. We found that growth rate and body condition decreased with increased infection load. Highly infected cod reach a point of no return where their energy intake cannot maintain a surplus energy balance, which may eventually lead to induced mortality. In conclusion, parasite infections cannot be ignored when assessing drivers of fish stock dynamics.

Published
2023

20. Parasite load of Atlantic cod Gadus morhua in the Baltic Sea assessed by the liver category method, and associations with infection density and critical condition

Author

Ryberg, Marie Plambech, Huwer, Bastian, Nielsen, Anders, Dierking, Jan, Buchmann, Kurt, Sokolova, Maria, Krumme, Uwe, Behrens, Jane W., Ryberg, Marie Plambech, Huwer, Bastian, Nielsen, Anders, Dierking, Jan, Buchmann, Kurt, Sokolova, Maria, Krumme, Uwe, and Behrens, Jane W.

Abstract

During the 2010s, Atlantic cod Gadus morhua L. in the eastern Baltic Sea experienced increasing infection loads of the parasitic nematode Contracaecum osculatum (Rudolphi) in their livers. Starting in 2021, a mandatory part of the routine sampling protocol on Baltic monitoring surveys is to assign a liver category to individual cod livers, based on the number of nematodes visible on the liver surface, to follow spatiotemporal changes in nematode infection loads. The validity of the liver category method has never been evaluated. Based on data from 642 cod livers, the method was verified and found to be a good predictor of the total number of nematodes. Moreover, the probability of cod being in a critical condition increased with the parasite load. In addition to their direct applicability to Baltic cod, the present findings may inspire others working with disease in fish stocks to include parasite monitoring.

Published
2022
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21. Working Group on Introductions and Transfers of Marine Organisms (WGITMO)

Author

McKenzie, Cynthia, Behrens, Jane, Blakeslee, April, Canning-Clode, Joao, Chainho, Paula, Copp, Gordon, Curd, Amelia, Darling, John, Davison, Phil, Galil, Bella, Gislason, Sindri, Gollasch, Stephan, Hegele-Drywa, Joanna, Heibeck, Nicole, Howland, Kimberly, Jaspers, Cornelia, Jelmert, Anders, Jensen, Kathe, Kakkonen, Jenni, Kerckhof, Francis, Lehtiniemi, Maiju, Marchini, Agnese, Naddafi, Rahmat, Normant-Saremba, Monika, Occhipinti-Ambrogi, Anna, Olenin, Sergej, Celmente, Macarena Ros, Simard, Nathalie, Smolders, Sander, Viard, Frederique, Zabrocki, Mariusz, Zenetos, Argyro, McKenzie, Cynthia, Behrens, Jane, Blakeslee, April, Canning-Clode, Joao, Chainho, Paula, Copp, Gordon, Curd, Amelia, Darling, John, Davison, Phil, Galil, Bella, Gislason, Sindri, Gollasch, Stephan, Hegele-Drywa, Joanna, Heibeck, Nicole, Howland, Kimberly, Jaspers, Cornelia, Jelmert, Anders, Jensen, Kathe, Kakkonen, Jenni, Kerckhof, Francis, Lehtiniemi, Maiju, Marchini, Agnese, Naddafi, Rahmat, Normant-Saremba, Monika, Occhipinti-Ambrogi, Anna, Olenin, Sergej, Celmente, Macarena Ros, Simard, Nathalie, Smolders, Sander, Viard, Frederique, Zabrocki, Mariusz, and Zenetos, Argyro

Abstract

The goal of the ICES Working Group on the Introduction and Transfers of Marine Organisms (WGITMO) is to contribute to the ICES vision and mission by addressing specific science objectives related to the introduction, spread and impacts of non-indigenous marine species (NIS). The expert working group provides information and advice on the impacts of human activities (e.g. pressures caused by invasive species, litter, aquaculture, biofouling) on marine ecosystems including the Arctic. The Terms of Reference include annual national reporting on NIS detections and research, climate change impact on the spread of NIS, the risk and impacts of NIS, vectors of spread of NIS including biofouling, marine debris and aquaculture. This report summarizes the key findings and outcomes from the 2020–2022 term. A joint meeting in (2020) with WGBOSV [Ballast Water and Other Ship Vectors] and WGHABD [Harmful Algal Bloom Dynamics] was held to discuss scientific issues of joint interest including climate change in the Arctic environment, and early detection of and response to species through the use of innovative molecular tools. The discussion on molecular tools was used by the groups to develop the framework for a targeted Molecular Tools workshop in conjunction with at the International Conference for Marine Bioinvasions (ICMB) in May 2023. National activities were presented and discussed from over 20 countries each year. Common themes included, new species introduction and monitoring, recent activities on traditional and innovative methods for detection and surveillance (including molecular tools). Science highlights include the submission of the ICES biofouling viewpoint to the International Maritime Organization (IMO) regarding biofouling guidelines, development and publication of a global scale NIS screening tool, and publication of a global review of NIS trends over 50 years. The Information system on aquatic non-indigenous and cryptogenic species AquaNIS continu

Published
2022

22. Ecosystem based management of fish stocks in the North Sea (ECOMAN)

Author

van Deurs, Mikael, Kokkalis, Alexandros, Rindorf, Anna, Trijoulet, Vanessa, Vinther, Morten, Brooks, Mollie Elizabeth, Jacobsen, Nis Sand, Henriksen, Ole, Behrens, Jane, Håkansson, Kirsten Birch, van Deurs, Mikael, Kokkalis, Alexandros, Rindorf, Anna, Trijoulet, Vanessa, Vinther, Morten, Brooks, Mollie Elizabeth, Jacobsen, Nis Sand, Henriksen, Ole, Behrens, Jane, and Håkansson, Kirsten Birch

Abstract

The ecosystem approach to fisheries management is a key element in the Common Fisheries Policy (CFP). In light of the importance of the North Sea to the Danish fisheries, Denmark needs to take a leading role in the development of best practice and methods for the implementation of the ecosystem approach to fisheries management. The ECOMAN project consisted of five separate work packages. WP1: Sampling designs should ensure the provision of accurate data on biological parameters and stock information to be used as input to single-species assessments and multi-species models. Via this project, we were able to engage in discussions and thereby influence the development of data collection approaches. WP2: The productivity of fish stocks in the North Sea has undergone substantial changes in recent decades, with some species increasing in numbers, while other species have shown prolonged recruitment failure with a resulting decline in stock size. Here we investigated multiple aspects of stock productivity in order to identify important drivers, such as density dependent regulation and spawner quality; all of which are ecological processes not accounted for conventional stock-by-stock fisheries management. Also methods for estimating biomass reference points were scrutinized and changes over time in the environmental conditions were visited. The latter results provided a basis for improving how reference points are defined and which processes needs further attention (i.e. in management strategy evaluations). WP3: Natural mortality is a key component of estimation of historical stock development and the setting of reference points such as Bescapement, MSY Btrigger, FMSY and Fcap. The natural mortality varies considerably over time, and particularly the mortality introduced by grey seal and mackerel has increased for North Sea fish stocks in the most recent decades. The present project was used to built an application that allow scientists and stak

Published
2022

23. Workshop on Stickleback and Round Goby in the Baltic Sea (WKSTARGATE)

Author

Behrens, Jane, Bergström, Ulf, Borcherding, Jost, Carruel, Guillaume, Florin, Ann-Britt, Green, Leon, Henseler, Christina, Jusufovski, Dunja, Lilja, Juha, Moran, Nicholas Patrick, Mosegaard, Henrik, Naddafi, Rahmat, Nõomaa, Kristiina, Oesterwind, Daniel, Ojaveer, Henn, Olsson, Jens, Pedersen, Eva Maria, Puntila-Dood, Riikka, Putnis, Ivars, Rozenfelde, Loreta, Persson, Anders, Wiegleb, Joschka, Zielinski, Jaroslaw, Behrens, Jane, Bergström, Ulf, Borcherding, Jost, Carruel, Guillaume, Florin, Ann-Britt, Green, Leon, Henseler, Christina, Jusufovski, Dunja, Lilja, Juha, Moran, Nicholas Patrick, Mosegaard, Henrik, Naddafi, Rahmat, Nõomaa, Kristiina, Oesterwind, Daniel, Ojaveer, Henn, Olsson, Jens, Pedersen, Eva Maria, Puntila-Dood, Riikka, Putnis, Ivars, Rozenfelde, Loreta, Persson, Anders, Wiegleb, Joschka, and Zielinski, Jaroslaw

Abstract

The aim of the Workshop on Stickleback and Round Goby in the Baltic Sea (WKSTARGATE) was to update, summarize and synthesize the current knowledge of both species with respect to their ecology and potential use in fisheries. Ongoing projects were presented in the mornings of the first two days to inform participants about current research in the respective countries (Annex 5). The group discussed ecological aspects that are relevant to fisheries, such as distribution and abundances, feeding ecology and behaviour. So far, no dedicated monitoring exists for either of the species. However, the Baltic International Acoustic Survey (BIAS), coordinated by ICES, has been used to estimate abundances and biomasses of pelagic stickleback in offshore areas across the Baltic, while the availability and quality of coastal data differs between countries, but is generally scarce. Even less current abundance information is available for round goby. It is only available for areas where it is already commercially exploited like Latvia. Most studies on the ecological impact of these species focus on trophic interactions, and its resulting competition. It became clear, that these ecological impacts depend on the abundance of the species and that the effects therefore vary on a temporal and spatial scale. Estimating the ecological impact of a stickleback or round goby fishery is therefore very speculative without reliable abundance data, why the group decided to describe the known impact of the species on the ecosystem. Landings of round goby increased significantly in Latvia during the last years, while stickleback landings decreased over the last five decades but most recently show a slight increase. A targeted round goby fishery exists in Latvian waters, while the stickleback is solely taken as bycatch in all Baltic countries. Both fisheries are currently unmanaged and, with the exception of round goby fishery in Latvia, unregulated. In Latvia the round goby fishery

Published
2022

26. Seasonal depth distribution and thermal experience of the non-indigenous round goby Neogobius melanostomus in the Baltic Sea: implications to key trophic relations

Author

Behrens, Jane W., Ryberg, Marie P., Einberg, Heli, Eschbaum, Redik, Florin, Ann-Britt, Grygiel, Wlodzimierz, Herrmann, Jens Peter, Huwer, Bastian, Hüssy, Karin, Knospina, Elina, Nõomaa, Kristiina, Oesterwind, Daniel, Polte, Patrick, Smoliński, Szymon, Ustups, Didzis, van Deurs, Mikael, Ojaveer, Henn, Behrens, Jane W., Ryberg, Marie P., Einberg, Heli, Eschbaum, Redik, Florin, Ann-Britt, Grygiel, Wlodzimierz, Herrmann, Jens Peter, Huwer, Bastian, Hüssy, Karin, Knospina, Elina, Nõomaa, Kristiina, Oesterwind, Daniel, Polte, Patrick, Smoliński, Szymon, Ustups, Didzis, van Deurs, Mikael, and Ojaveer, Henn

Abstract

Native to the Ponto-Caspian region, the benthic round goby (Neogobius melanostomus) has invaded several European inland waterbodies as well as the North American Great Lakes and the Baltic Sea. The species is capable of reaching very high densities in the invaded ecosystems, with not only evidence for significant food-web effects on the native biota and habitats, but also negative implications to coastal fishers. Although generally considered a coastal species, it has been shown that round goby migrate to deeper areas of the Great Lakes and other inland lakes during the cold season. Such seasonal movements may create new spatio-temporal ecosystem consequences in invaded systems. To seek evidence for seasonal depth distribution in coastal marine habitats, we compiled all available catch data for round goby in the Baltic Sea since its invasion and until 2017. We furthermore related the depths at capture for each season with the ambient thermal environment. The round goby spend autumn and winter at significantly deeper and offshore areas compared to spring and summer months; few fish were captured at depths < 25 m in these colder months. Similarly, in spring and summer, round goby were not captured at depths > 25 m. The thermal conditions at which round goby were caught varied significantly between seasons, being on average 18.3 °C during summer, and dropping to a low 3.8 °C during winter months. Overall, the fish sought the depths within each season with the highest possible temperatures. The spatial distribution of the round goby substantially overlaps with that of its main and preferred prey (mussels) and with that of its competitor for food (flatfish), but only moderately with the coastal predatory fish (perch), indicating thereby very complex trophic interactions associated with this invasion. Further investigations should aim at quantifying the food web consequences and coupling effects between different habitats related to seasonal migrations of the

Published
2022

27. Eastern Baltic cod in distress: biological changes and challenges for stock assessment

Author

Eero, Margit, Hjelm, Joakim, Behrens, Jane, Buchmann, Kurt, Cardinale, Massimiliano, Casini, Michele, Gasyukov, Pavel, Holmgren, Noél, Horbowy, Jan, Hüssy, Karin, Kirkegaard, Eskild, Kornilovs, Georgs, Krumme, Uwe, Köster, Friedrich W., Oeberst, Rainer, Plikshs, Maris, Radtke, Krzysztof, Raid, Tiit, Schmidt, Jörn, Tomczak, Maciej T., Vinther, Morten, Zimmermann, Christopher, and Storr-Paulsen, Marie

Published
2015
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31. Impacts of the invasive round goby (Neogobius melanostomus) on benthic invertebrate fauna: a case study from the Baltic Sea

Author

van Deurs, Mikael, Moran, Nicholas P., Schreiber Plet-Hansen, Kristian, Dinesen, Grete E., Azour, Farivar, Carl, Henrik, Møller, Peter R., and Behrens, Jane W.

Subjects
0106 biological sciences, invasion impacts, predator-prey interactions, Fauna, Infauna, Predation, Plant Science, 01 natural sciences, invasive species, bepress|Life Sciences, Biology (General), Chordata, bepress|Life Sciences|Ecology and Evolutionary Biology|Terrestrial and Aquatic Ecology, Ecology, biology, Ecological Modeling, Invasion impacts, Biota, Habitat, Benthic zone, Round goby, predation, Neogobius, Neritidae, QH301-705.5, Aquatic Science, Predator-prey interactions, bepress|Life Sciences|Ecology and Evolutionary Biology, 010603 evolutionary biology, Anthropogenic change, Neogobius melanostomus, Animalia, 14. Life underwater, SDG 14 - Life Below Water, non-indigenous species, Ecology, Evolution, Behavior and Systematics, VDP::Landbruks- og Fiskerifag: 900::Fiskerifag: 920, infauna, Invertebrate, VDP::Agriculture and fishery disciplines: 900::Fisheries science: 920, Actinopterygii, Invasive species, 010604 marine biology & hydrobiology, fungi, biology.organism_classification, Perciformes, Insect Science, Non-indigenous species, Biological dispersal, Animal Science and Zoology, Gobiidae
Abstract

The round goby (Neogobius melanostomus) was first observed in the Baltic Sea in 1990 and has since displayed substantial secondary dispersal, establishing numerous dense populations where they may outcompete native fish and negatively impact prey species. There have been multiple round goby diet studies from both the Baltic Sea and the North American Great Lakes where they are similarly invasive. However, studies that quantify their effects on recipient ecosystems and, specifically, their impacts on the benthic invertebrate macrofauna are rare, particularly from European waters. In this study, we conducted the first before-after study of the potential effects of round goby on benthic invertebrate macrofauna taxa in marine-brackish habitats in Europe, focusing of two sites in the Western Baltic Sea, Denmark. Results were in line with those from the Great Lakes, indicating negative impacts on specific molluscan taxa (e.g. Cardiidae bivalves and Neritidae gastropods, which both showed a fall in detected densities of approximately 98% within the Guldborgsund Strait). In contrast, many other groups appeared to be largely unaffected or even show positive trends following invasion. Round goby gut content data were available at one of our study sites from the period immediately after the invasion. These data confirmed that round goby had in fact been preying on the subset of taxa displaying negative trends.

Published
2021
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33. Parasite load of Atlantic cod Gadus morhua in the Baltic Sea assessed by the liver category method, and associations with infection density and critical condition

Author

Ryberg, Marie Plambech, Huwer, Bastian, Nielsen, Anders, Dierking, Jan, Buchmann, Kurt, Sokolova, Maria, Krumme, Uwe, Behrens, Jane W., Ryberg, Marie Plambech, Huwer, Bastian, Nielsen, Anders, Dierking, Jan, Buchmann, Kurt, Sokolova, Maria, Krumme, Uwe, and Behrens, Jane W.

Abstract

During the 2010s, Atlantic cod Gadus morhua L. in the eastern Baltic Sea experienced increasing infection loads of the parasitic nematode Contracaecum osculatum (Rudolphi) in their livers. Starting in 2021, a mandatory part of the routine sampling protocol on Baltic monitoring surveys is to assign a liver category to individual cod livers, based on the number of nematodes visible on the liver surface, to follow spatiotemporal changes in nematode infection loads. The validity of the liver category method has never been evaluated. Based on data from 642 cod livers, the method was verified and found to be a good predictor of the total number of nematodes. Moreover, the probability of cod being in a critical condition increased with the parasite load. In addition to their direct applicability to Baltic cod, the present findings may inspire others working with disease in fish stocks to include parasite monitoring.

Published
2021

34. Personality-dependent inter- and intraspecific foraging competition in the invasive round goby, Neogobius melanostomus

Author

Ericsson, Philip, Persson, Anders, Behrens, Jane W., Brodin, Tomas, Hirsch, Philipp Emanuel, Sundelin, Anna, van Deurs, Mikael, von Friesen, Lisa W., Nilsson, P. Anders, Ericsson, Philip, Persson, Anders, Behrens, Jane W., Brodin, Tomas, Hirsch, Philipp Emanuel, Sundelin, Anna, van Deurs, Mikael, von Friesen, Lisa W., and Nilsson, P. Anders

Abstract

This study examines the impact of boldness on foraging competition of the highly invasive round goby Neogobius melanostomus Pallas 1815. Individual risk tolerance, or boldness, was measured as the time to resume movement after a simulated predation strike. Fish that resumed movement faster were categorized as "bold," fish that took more time to resume movement were categorized as "shy" and those that fell in between these two categories were determined to have "intermediate" boldness. Competitive impacts of boldness in N. melanostomus were determined in a laboratory foraging experiment in which interspecific (juvenile Atlantic cod Gadus morhua Linnaeus 1758) and intraspecific (intermediate N. melanostomus) individuals were exposed to either bold or shy N. melanostomus competitors. G. morhua consumed fewer prey when competing with bold N. melanostomus than when competing with shy N. melanostomus, whereas intermediately bold N. melanostomus foraging was not affected by competitor boldness. Bold and shy N. melanostomus consumed similar amounts of prey, and the number of interactions between paired fish did not vary depending on the personality of N. melanostomus individuals. Therefore, intraspecific foraging competition was not found to be personality dependent. This study provides evidence that individual differences in boldness can mediate competitive interactions in N. melanostomus; nonetheless, results also show that competition is also governed by other mechanisms that require further study.

Published
2021
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35. Estimating salinity stress via hsp70 expression in the invasive round goby (Neogobius melanostomus): implications for further range expansion

Author

Puntila-Dodd, Riikka, Bekkevold, Dorte, Behrens, Jane W., Puntila-Dodd, Riikka, Bekkevold, Dorte, and Behrens, Jane W.

Abstract

Species invasions often occur on coasts and estuaries where abiotic conditions vary, e.g. salinity, temperature, runoff etc. Successful establishment and dispersal of non-indigenous species in many such systems are poorly understood, partially since the species tend to show genetic and ecological plasticity at population level towards many abiotic conditions, including salinity tolerance. Plasticity may be driven by shifting expression of heat shock proteins such as Hsp70, which is widely recognized as indicator of physical stress. In this study, we developed a qPCR assay for expression of the hsp70 gene in the invasive round goby (Neogobius melanostomus) and tested the expression response of fish collected from a brackish environment in the western Baltic Sea to three different salinities, 0, 10 and 30. hsp70 expression was highest in fresh water, indicating higher stress, and lower at brackish (ambient condition for the sampled population) and oceanic salinities, suggestive of low stress response to salinities above the population’s current distribution. The highest stress in fresh water was surprising since populations in fresh water exist, e.g. large European rivers and Laurentian Great Lakes. The results have implications to predictions for the species’ plasticity potential and possible range expansion of the species into other salinity regimes.

Published
2021
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36. Effects of temperature on physiological performance and behavioral thermoregulation in an invasive fish, the round goby

Author

Christensen, Emil A. F., Norin, Tommy, Tabak, Iren, van Deurs, Mikael, Behrens, Jane W., Christensen, Emil A. F., Norin, Tommy, Tabak, Iren, van Deurs, Mikael, and Behrens, Jane W.

Abstract

Invasive species exert negative impacts on biodiversity and ecosystems on a global scale, which may be enhanced in the future by climate change. Knowledge of how invasive species respond physiologically and behaviorally to novel and changing environments can improve our understanding of which traits enable the ecological success of these species, and potentially facilitate mitigation efforts. We examined the effects of acclimation to temperatures ranging from 5 to 28°C on aerobic metabolic rates, upper temperature tolerance (critical thermal maximum, CTmax), as well as temperature preference (Tpref) and avoidance (Tavoid) of round goby (Neogobius melanostomus), one of the most impactful invasive species in the world. We show that round goby maintained a high aerobic scope from 15 to 28°C; that is, the capacity to increase its aerobic metabolic rate above that of its maintenance metabolism remained high across a broad thermal range. Although CTmax increased relatively little with acclimation temperature compared to other species, Tpref and Tavoid were not affected by acclimation temperature at all, meaning that round goby maintained a large thermal safety margin (CTmax − Tavoid) across acclimation temperatures, indicating a high level of thermal resilience in the species. The unperturbed physiological performance and high thermal resilience was likely facilitated by high levels of phenotypic buffering, which can make species readily adaptable and ecologically competitive in novel and changing environments. We suggest that these physiological and behavioral traits could be common for invasive species, which would only increase their success under continued climate change.

Published
2021

37. Impacts of the invasive round goby (Neogobius melanostomus) on benthic invertebrate fauna:a case study from the Baltic Sea

Author

van Deurs, Mikael, Moran, Nicholas P., Plet-Hansen, Kristian Schreiber, Dinesen, Grete E., Azour, Farivar, Carl, Henrik, Møller, Peter R., Behrens, Jane W., van Deurs, Mikael, Moran, Nicholas P., Plet-Hansen, Kristian Schreiber, Dinesen, Grete E., Azour, Farivar, Carl, Henrik, Møller, Peter R., and Behrens, Jane W.

Abstract

The round goby (Neogobius melanostomus) was first observed in the Baltic Sea in 1990 and has since displayed substantial secondary dispersal, establishing numerous dense populations where they may out compete native fish and negatively impact prey species. There have been multiple round goby diet studies from both the Baltic Sea and the North American Great Lakes where they are similarly invasive. However, studies that quantify their effects on recipient ecosystems and, specifically, their impacts on the benthic invertebrate macrofauna are rare, particularly from European waters. In this study, we conducted the first before-after study of the potential effects of round goby on benthic invertebrate macrofauna taxa in marine-brackish habitats in Europe, focusing of two sites in the Western Baltic Sea, Denmark. Results were in line with those from the Great Lakes, indicating negative impacts on specific molluscan taxa (e.g. Cardiidae bivalves and Neritidae gastropods, which both showed a fall in detected densities of approximately 98% within the Guldborgsund Strait). In contrast, many other groups appeared to be largely unaffected or even show positive trends following invasion. Round goby gut content data were available at one of our study sites from the period immediately after the invasion. These data confirmed that round goby had in fact been preying on the subset of taxa displaying negative trends.

Published
2021

40. Ancestral Sperm Ecotypes Reveal Multiple Invasions of a Non-Native Fish in Northern Europe

Author

Green, Leon, Apostolou, Apostolos, Faust, Ellika, Palmqvist, Kajsa, Behrens, Jane W., Havenhand, Jonathan N., Leder, Erica H., Kvarnemo, Charlotta, Green, Leon, Apostolou, Apostolos, Faust, Ellika, Palmqvist, Kajsa, Behrens, Jane W., Havenhand, Jonathan N., Leder, Erica H., and Kvarnemo, Charlotta

Abstract

For externally fertilising organisms in the aquatic environment, the abiotic fertilisation medium can be a strong selecting force. Among bony fishes, sperm are adapted to function in a narrow salinity range. A notable exception is the family Gobiidae, where several species reproduce across a wide salinity range. The family also contains several wide-spread invasive species. To better understand how these fishes tolerate such varying conditions, we measured sperm performance in relation to salinity from a freshwater and a brackish population within their ancestral Ponto-Caspian region of the round goby, Neogobius melanostomus. These two ancestral populations were then compared to nine additional invaded sites across northern Europe, both in terms of their sperm traits and by using genomic SNP markers. Our results show clear patterns of ancestral adaptations to freshwater and brackish salinities in their sperm performance. Population genomic analyses show that the ancestral ecotypes have generally established themselves in environments that fit their sperm adaptations. Sites close to ports with intense shipping show that both outbreeding and admixture can affect the sperm performance of a population in a given salinity. Rapid adaptation to local conditions is also supported at some sites. Historical and contemporary evolution in the traits of the round goby sperm cells is tightly linked to the population and seascape genomics as well as biogeographic processes in these invasive fishes. Since the risk of a population establishing in an area is related to the genotype by environment match, port connectivity and the ancestry of the round goby population can likely be useful for predicting the species spread.For externally fertilising organisms in the aquatic environment, the abiotic fertilisation medium can be a strong selecting force. Among bony fishes, sperm are adapted to function in a narrow salinity range. A notable exception is the family Gobiidae, where several sp

Published
2021

41. Sperm performance limits the reproduction of an invasive fish in novel salinities

Author

Green, Leon, Niemax, Jan, Herrmann, Jens-Peter, Temming, Axel, Behrens, Jane W., Havenhand, Jonathan N., Leder, Erica, Kvarnemo, Charlotta, Green, Leon, Niemax, Jan, Herrmann, Jens-Peter, Temming, Axel, Behrens, Jane W., Havenhand, Jonathan N., Leder, Erica, and Kvarnemo, Charlotta

Abstract

Aim: The few fish species able to reproduce across wide osmotic ranges either plastically acclimate sperm performance to, or are locally adapted to, different salinities. The invasive round goby (Neogobius melanostomus) is spreading in Eurasia and the Americas, into both fresh and brackish water. We aim to understand if reproduction in different salinities is affected by an ability to acclimate. Location: Brackish and freshwater systems of northern Europe and the Baltic Sea. Methods: We cross-exposed round gobies of freshwater and brackish origin to 0 and 16 practical salinity units (PSU), and the fish were given nest boxes in which to spawn. After 4 weeks, we measured their sperm performance in both 0 and 16 PSU; fertilization success of each egg clutch was measured through visual analysis of eggs. Clutches were split and allowed to develop in both 0 and 16 PSU salinity, and reproductive success (zygote development) was measured 20 ± 1 days later. Responses were analysed using generalized mixed models. Results: After a month, the fish showed no plasticity in sperm performance to their acclimation salinity, regardless of their origin. Sperm velocity was highest in the salinity similar to the males’ origin. Significantly lower fertilization success was measured for individuals that reproduced outside their salinity of origin despite recurring spawning events in all treatment groups. Among fertilized eggs, zygote development was similar regardless of salinity treatment of either eggs or parents. Main Conclusions: Short-term acclimation to new salinities does not affect sperm performance in the round goby. Alternative hypotheses such as local adaption should be further investigated. Limits to the species’ reproductive success, and therefore invasion processes, are likely dependent on environment-phenotype matches. Fish of brackish origin spawned successfully in freshwater, pointing to an

Published
2021

42. Andre presfaktorer end næringsstoffer og klima- forandringer – vurdering af de invasive arter amerikansk ribbegople og sortmundet kutling

Author

Petersen, Jens Kjerulf, Behrens, Jane, van Deurs, Michael, Dinesen, Grete, Jaspers, Cornelia, Møller, Lene Friis, and S.Plet-Hansen, Kristian

Abstract

As part of a larger project funded by the Danish Environmental Protection Agency (“Effects on the quality elements defined by the EU Water Framework Directive (WFD) of other pressure factors than excess nutrient load and climate change”) a number of environmental pressure factors other than excess nutrient loading and climate change have been identified as potential risks to all of the quality elements of the WFD (Petersen et al. 2018). In a larger review, a number of invasive species were identified as potential pressure factors on the quality elements of the WFD. In the review, it was estimated that the invasive species Mnemiopsis leidyi and Neogobius melanostomus may have potential significant effects on the quality elements phytoplankton and benthic fauna, respectively (Petersen et al. 2018). Both species are known to be aggressive invaders and in international per-reviewed studies, effects on the ecosystem have been documented but for none of the species, sufficient data were available to perform a scientific analysis at the level of water bodies as defined in the WFD (Petersen et al. 2018). However, the Danish Environmental Protection Agency wanted an expert assessment of potential effects of the two invasive species based on the data available at present. Mnemiopsis leidyi possess many characteristics of invasive species such as rapid growth, high dispersal potential, high fertility, short generation time, high competitiveness and high tolerance to environmental conditions. Mnemiopsis leidyi was first observed in northern European waters in 2005 and major occurrences were observed in Limfjorden in 2007. Since then, it has been observed in most Danish waters. The expected effect of Mnemiopsis leidyi in the ecosystem is that it eats zooplankton, thereby reducing grazing pressure on phytoplankton, which can then grow uncontrolled and thereby lead to a number of biological cascade effects. As data on occurrence of jelly fish including Mnemiopsis leidyi is not a part of any national Danish monitoring program, only data from scientific publications are available. These have not hitherto been collected systematically and data is primarily available from Limfjorden up to 2011. Most other data for the analysis, e.g. concentration of Chlorophyll a, derives from the national environmental monitoring program. Overall, the analysis demonstrated a negative correlation between the occurrence of Mnemiopsis leidyi and copepod biomass in Limfjorden. There could, however, not be demonstrated a relation between Mnemiopsis leidyi and concentrations of Chlorophyll a. One reason for the lack of a cascade effect of the grazing on zooplankton is probably that other suspension-feeders - especially blue mussels - can affect the concentration of Chlorophyll a and thus disguise the effect of reduced concentrations of zooplankton. No unequivocal effects of the occurrence of Mnemiopsis leidyi can thus be demonstrated for the WFD quality element phytoplankton. In order to demonstrate any effect, a more elaborate monitoring program including Mnemiopsis leidyi, as well as other jelly fish like Aurelia aurita, needs to be established.Neogobius melanostomus is found in coastal shallow waters during the spring, summer and fall, while in winter it hibernates in deeper water. The species has many invasive characteristics such as high competitiveness of territory and food, a broad diet, high dispersal potential and high tolerance to fluctuations in temperature, oxygen content and salinity. Neogobius melanostomus was first observed in Danish waters at Bornholm in 2008, and the following year the first individuals were found at Guldborgsund and subsequently along the coasts of Lolland, Falster, Møn and Zealand's southwest and southeast coast and also in the later years at the coasts of Fyn. The expected effect of invasion of Neogobius melanostomus is a selective predation pressure on the benthic fauna leading to a reduced diversity and potentially cascade effects at selective feeding on benthic suspension-feeders. The analysis was performed as a BACI-analysis using data from the national environmental monitoring program on benthic fauna. From the monitoring data, species that are known prey for the fish were selected for the analysis. For Neogobius melanostomus only presence/absence data was used, as no quantitative data are available. The selected 'impact' areas are respectively Gulborgsund (Neogobius melanostomus first observed 2009) and Stege Bugt (Neogobius melanostomus first observed 2011) and as 'control' area was used the inner part of Isefjord. Overall, the results of the analysis showed that there was no statistical evidence of a negative effect of Neogobius melanostomus on bottom fauna in the two selected 'impact' areas. Some variation in data was found, and the primary cause of a 'significant positive effect' found in some 'impact' areas was mainly a negative development of the species in the 'control' area. In order to demonstrate a potential effect of Neogobius melanostomus on bottom fauna, sampling with a better representation than in the present environmental monitoring of epibenthic and in particular mobile epibenthic species is required. We have not been able to demonstrate significant effects of neither Mnemiopsis leidyi on the quality element phytoplankton nor Neogobius melanostomus on the quality element benthic fauna. For both species, part of the explanation is that there is an insufficient data basis for the analysis. Basically, Mnemiopsis leidyi have not been monitored for a sufficiently long period of time and with sufficient geographical coverage, and it is not possible to separate the effects of Mnemiopsis leidyi from the effects of other jellyfish. For Neogobius melanostomus, quantitative data on the distribution of the species are not available, and the monitoring of benthic fauna does not consider the preferred prey for Neogobius melanostomus. The present analysis thus illustrates current knowledge gaps in our understanding of the potential impact of invasive species for the coastal environmental condition. However, it cannot be concluded that if only data were sufficient, an effect could have been documented. Both analyses demonstrate large variations in the measured quality elements that cannot in themselves be explained by the presence of invasive species.

Published
2020

43. Andre presfaktorer end næringsstoffer og klimaforandringer – vurdering af de invasive arter amerikansk ribbegople og sortmundet kutling

Author

Petersen, Jens Kjerulf, Behrens, Jane, van Deurs, Mikael, Dinesen, Grete, Jaspers, Cornelia, Møller, Lene Friis, and S. Plet-Hansen, Kristian

Abstract

As part of a larger project funded by the Danish Environmental Protection Agency (“Effects on the quality elements defined by the EU Water Framework Directive (WFD) of other pressure factors than excess nutrient load and climate change”) a number of environmental pressure factors other than excess nutrient loading and climate change have been identified as potential risks to all of the quality elements of the WFD (Petersen et al. 2018). In a larger review, a number of invasive species were identified as potential pressure factors on the quality elements of the WFD. In the review, it was estimated that the invasive species Mnemiopsis leidyi and Neogobius melanostomus may have potential significant effects on the quality elements phytoplankton and benthic fauna, respectively (Petersen et al. 2018). Both species are known to be aggressive invaders and in international per-reviewed studies, effects on the ecosystem have been documented but for none of the species, sufficient data were available to perform a scientific analysis at the level of water bodies as defined in the WFD (Petersen et al. 2018). However, the Danish Environmental Protection Agency wanted an expert assessment of potential effects of the two invasive species based on the data available at present. Mnemiopsis leidyi possess many characteristics of invasive species such as rapid growth, high dispersal potential, high fertility, short generation time, high competitiveness and high tolerance to environmental conditions. Mnemiopsis leidyi was first observed in northern European waters in 2005 and major occurrences were observed in Limfjorden in 2007. Since then, it has been observed in most Danish waters. The expected effect of Mnemiopsis leidyi in the ecosystem is that it eats zooplankton, thereby reducing grazing pressure on phytoplankton, which can then grow uncontrolled and thereby lead to a number of biological cascade effects. As data on occurrence of jelly fish including Mnemiopsis leidyi is not a part of any national Danish monitoring program, only data from scientific publications are available. These have not hitherto been collected systematically and data is primarily available from Limfjorden up to 2011. Most other data for the analysis, e.g. concentration of Chlorophyll a, derives from the national environmental monitoring program. Overall, the analysis demonstrated a negative correlation between the occurrence of Mnemiopsis leidyi and copepod biomass in Limfjorden. There could, however, not be demonstrated a relation between Mnemiopsis leidyi and concentrations of Chlorophyll a. One reason for the lack of a cascade effect of the grazing on zooplankton is probably that other suspension-feeders - especially blue mussels - can affect the concentration of Chlorophyll a and thus disguise the effect of reduced concentrations of zooplankton. No unequivocal effects of the occurrence of Mnemiopsis leidyi can thus be demonstrated for the WFD quality element phytoplankton. In order to demonstrate any effect, a more elaborate monitoring program including Mnemiopsis leidyi, as well as other jelly fish like Aurelia aurita, needs to be established.Neogobius melanostomus is found in coastal shallow waters during the spring, summer and fall, while in winter it hibernates in deeper water. The species has many invasive characteristics such as high competitiveness of territory and food, a broad diet, high dispersal potential and high tolerance to fluctuations in temperature, oxygen content and salinity. Neogobius melanostomus was first observed in Danish waters at Bornholm in 2008, and the following year the first individuals were found at Guldborgsund and subsequently along the coasts of Lolland, Falster, Møn and Zealand's southwest and southeast coast and also in the later years at the coasts of Fyn. The expected effect of invasion of Neogobius melanostomus is a selective predation pressure on the benthic fauna leading to a reduced diversity and potentially cascade effects at selective feeding on benthic suspension-feeders. The analysis was performed as a BACI-analysis using data from the national environmental monitoring program on benthic fauna. From the monitoring data, species that are known prey for the fish were selected for the analysis. For Neogobius melanostomus only presence/absence data was used, as no quantitative data are available. The selected 'impact' areas are respectively Gulborgsund (Neogobius melanostomus first observed 2009) and Stege Bugt (Neogobius melanostomus first observed 2011) and as 'control' area was used the inner part of Isefjord. Overall, the results of the analysis showed that there was no statistical evidence of a negative effect of Neogobius melanostomus on bottom fauna in the two selected 'impact' areas. Some variation in data was found, and the primary cause of a 'significant positive effect' found in some 'impact' areas was mainly a negative development of the species in the 'control' area. In order to demonstrate a potential effect of Neogobius melanostomus on bottom fauna, sampling with a better representation than in the present environmental monitoring of epibenthic and in particular mobile epibenthic species is required. We have not been able to demonstrate significant effects of neither Mnemiopsis leidyi on the quality element phytoplankton nor Neogobius melanostomus on the quality element benthic fauna. For both species, part of the explanation is that there is an insufficient data basis for the analysis. Basically, Mnemiopsis leidyi have not been monitored for a sufficiently long period of time and with sufficient geographical coverage, and it is not possible to separate the effects of Mnemiopsis leidyi from the effects of other jellyfish. For Neogobius melanostomus, quantitative data on the distribution of the species are not available, and the monitoring of benthic fauna does not consider the preferred prey for Neogobius melanostomus. The present analysis thus illustrates current knowledge gaps in our understanding of the potential impact of invasive species for the coastal environmental condition. However, it cannot be concluded that if only data were sufficient, an effect could have been documented. Both analyses demonstrate large variations in the measured quality elements that cannot in themselves be explained by the presence of invasive species.

Published
2020

44. Personality- and size-related metabolic performance in invasive round goby (Neogobius melanostomus)

Author

Behrens, Jane W., von Friesen, Lisa W., Brodin, Tomas, Ericsson, Philip, Hirsch, Philipp Emanuel, Persson, Anders, Sundelin, Anna, van Deurs, Mikael, Nilsson, P. Anders, Behrens, Jane W., von Friesen, Lisa W., Brodin, Tomas, Ericsson, Philip, Hirsch, Philipp Emanuel, Persson, Anders, Sundelin, Anna, van Deurs, Mikael, and Nilsson, P. Anders

Abstract

Differences between individuals in behavioral type (i.e. animal personality) are ecologically and evolutionarily important because they can have significant effects on fitness components such as growth and predation risk. In the present study we are used the invasive round goby (Neogobius melanostomus) from an established population in controlled experiments to examine the relationships among personality, metabolic performance, and growth rate (inferred as size-at-age). Boldness was measured as the time to return to normal behavior after a simulated predator attack, where fish with shorter freezing times were categorized as "bold" and fish with longer times were categorized as "shy." We show that bold fish have significantly higher standard metabolic rate (SMR) than their shy conspecifics, whereas there was no difference between personality types in their maximum metabolic rate (MMR) or aerobic scope (AS). Bold fish furthermore had a smaller size-at-age as compared to shy fish. Together this provides evidence of a metabolic underpinning of personality where the high-SMR bold fish require more resources to sustain basic life functions than their low-SMR shy conspecifics, indicating that bold round goby from established populations with high densities (and high competition for food) pay a price of reduced growth rate.

Published
2020
Full Text
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45. Estimating salinity stress via hsp70 expression in the invasive round goby (Neogobius melanostomus): implications for further range expansion

Author

Puntila-Dodd, Riikka, Bekkevold, Dorte, Behrens, Jane W., Puntila-Dodd, Riikka, Bekkevold, Dorte, and Behrens, Jane W.

Abstract

Species invasions often occur on coasts and estuaries where abiotic conditions vary, e.g. salinity, temperature, runoff etc. Successful establishment and dispersal of non-indigenous species in many such systems are poorly understood, partially since the species tend to show genetic and ecological plasticity at population level towards many abiotic conditions, including salinity tolerance. Plasticity may be driven by shifting expression of heat shock proteins such as Hsp70, which is widely recognized as indicator of physical stress. In this study, we developed a qPCR assay for expression of the hsp70 gene in the invasive round goby (Neogobius melanostomus) and tested the expression response of fish collected from a brackish environment in the western Baltic Sea to three different salinities, 0, 10 and 30. hsp70 expression was highest in fresh water, indicating higher stress, and lower at brackish (ambient condition for the sampled population) and oceanic salinities, suggestive of low stress response to salinities above the population’s current distribution. The highest stress in fresh water was surprising since populations in fresh water exist, e.g. large European rivers and Laurentian Great Lakes. The results have implications to predictions for the species’ plasticity potential and possible range expansion of the species into other salinity regimes.

Published
2020

47. Physiological condition of Eastern Baltic cod, Gadus morhua, infected with the parasitic nematode Contracaecum osculatum

Author

Plambech Ryberg, Marie, Skov, Peter V., Vendramin, Niccolò, Buchmann, Kurt, Nielsen, Anders, Behrens, Jane W., Plambech Ryberg, Marie, Skov, Peter V., Vendramin, Niccolò, Buchmann, Kurt, Nielsen, Anders, and Behrens, Jane W.

Abstract

Establishing relationships between parasite infection and physiological condition of the host can be difficult and therefore are often neglected when describing factors causing population declines. Using the parasite–host system between the parasitic nematode Contracaecum osculatum and the Eastern Baltic cod Gadus morhua, we here shed new light on how parasite load may relate to the physiological condition of a transport host. The Eastern Baltic cod is in distress, with declining nutritional conditions, disappearance of the larger fish, high natural mortality and no signs of recovery of the population. During the latest decade, high infection levels with C. osculatum have been observed in fish in the central and southern parts of the Baltic Sea. We investigated the aerobic performance, nutritional condition, organ masses, and plasma and proximate body composition of wild naturally infected G. morhua in relation to infection density with C. osculatum. Fish with high infection densities of C. osculatum had (i) decreased nutritional condition, (ii) depressed energy turnover as evidenced by reduced standard metabolic rate, (iii) reduction in the digestive organ masses, and alongside (iv) changes in the plasma, body and liver composition, and fish energy source. The significantly reduced albumin to globulin ratio in highly infected G. morhua suggests that the fish suffer from a chronic liver disease. Furthermore, fish with high infection loads had the lowest Fulton’s condition factor. Yet, it remains unknown whether our results steam from a direct effect of C. osculatum, or because G. morhua in an already compromised nutritional state are more susceptible towards the parasite. Nevertheless, impairment of the physiological condition can lead to reduced swimming performance, compromising foraging success while augmenting the risk of predation, potentially leading to an increase in the natural mortality of the h

Published
2020

48. Size‐dependent predation of round goby Neogobius melanostomus on blue mussels Mytilus edulis

Author

Schwartzbach, Adina, Behrens, Jane W., Svendsen, Jon Christian, Nielsen, Pernille, van Deurs, Mikael, Schwartzbach, Adina, Behrens, Jane W., Svendsen, Jon Christian, Nielsen, Pernille, and van Deurs, Mikael

Abstract

Many aquatic ecosystems are invaded by alien species, often with severe implications for native species and associated fisheries. Round goby Neogobius melanostomus is of Ponto-Caspian origin and has established large populations in the Baltic Sea. Here, round goby often feed on blue mussel Mytilus edulis, which may affect the invaded ecosystems. Experimental data were modelled and showed that round goby up to c. 15 cm of total length (TL) feed on mussels <3 cm. Moreover, logistic regression models revealed significant negative relationships between mussel size and probability of being consumed by round goby. The maximum prey size to gape size ratio rmax varied from 1.5 to 2 (mean = 1.75 ± 0.25) between five round goby size groups and was unrelated to fish TL. A mechanistic model is presented that describes maximum prey size as a function of fish TL. The results of this study can be embedded in ecosystem models and used to predict ecosystem effects of invasions by the round goby.

Published
2020

49. Personality- and size-related metabolic performance in invasive round goby (Neogobius melanostomus)

Author

Behrens, Jane, von Friesen, Lisa W., Brodin, Tomas, Hirsch, Philipp E., Persson, Anders, Sundelin, Anna, van Deurs, Mikael, Nilsson, P. Anders, Behrens, Jane, von Friesen, Lisa W., Brodin, Tomas, Hirsch, Philipp E., Persson, Anders, Sundelin, Anna, van Deurs, Mikael, and Nilsson, P. Anders

Abstract

Differences between individuals in behavioral type (i.e. animal personality) are ecologically and evolutionarily important because they can have significant effects on fitness components such as growth and predation risk. In the present study we ere used the invasive round goby (Neogobius melanostomus) from an established population in controlled experiments to examine the relationships among personality, metabolic performance, and growth rate (inferred as size-at-age). Boldness was measured as the time to return to normal behavior after a simulated predator attack, where fish with shorter freezing times were categorized as “bold” and fish with longer times were categorized as “shy.” We show that bold fish have significantly higher standard metabolic rate (SMR) than their shy conspecifics, whereas there was no difference between personality types in their maximum metabolic rate (MMR) or aerobic scope (AS). Bold fish furthermore had a smaller size-at-age as compared to shy fish. Together this provides evidence of a metabolic underpinning of personality where the high-SMR bold fish require more resources to sustain basic life functions than their low-SMR shy conspecifics, indicating that bold round goby from established populations with high densities (and high competition for food) pay a price of reduced growth rate.

Published
2020

50. Physiological condition of Eastern Baltic cod, Gadus morhua, infected with the parasitic nematode Contracaecum osculatum

Author

Ryberg, Marie Plambech, Skov, Peter V, Vendramin, Niccolò, Buchmann, Kurt, Nielsen, Anders, Behrens, Jane W, Ryberg, Marie Plambech, Skov, Peter V, Vendramin, Niccolò, Buchmann, Kurt, Nielsen, Anders, and Behrens, Jane W

Abstract

Establishing relationships between parasite infection and physiological condition of the host can be difficult and therefore are often neglected when describing factors causing population declines. Using the parasite–host system between the parasitic nematode Contracaecum osculatum and the Eastern Baltic cod Gadus morhua, we here shed new light on how parasite load may relate to the physiological condition of a transport host. The Eastern Baltic cod is in distress, with declining nutritional conditions, disappearance of the larger fish, high natural mortality and no signs of recovery of the population. During the latest decade, high infection levels with C. osculatum have been observed in fish in the central and southern parts of the Baltic Sea. We investigated the aerobic performance, nutritional condition, organ masses, and plasma and proximate body composition of wild naturally infected G. morhua in relation to infection density with C. osculatum. Fish with high infection densities of C. osculatum had (i) decreased nutritional condition, (ii) depressed energy turnover as evidenced by reduced standard metabolic rate, (iii) reduction in the digestive organ masses, and alongside (iv) changes in the plasma, body and liver composition, and fish energy source. The significantly reduced albumin to globulin ratio in highly infected G. morhua suggests that the fish suffer from a chronic liver disease. Furthermore, fish with high infection loads had the lowest Fulton’s condition factor. Yet, it remains unknown whether our results steam from a direct effect of C. osculatum, or because G. morhua in an already compromised nutritional state are more susceptible towards the parasite. Nevertheless, impairment of the physiological condition can lead to reduced swimming performance, compromising foraging success while augmenting the risk of predation, potentially leading to an increase in the natural mortality of the host. We hence argue that fish–parasite interactions must not be

Published
2020

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