Your search keyword '"demersal fish"' showing total 2,096 results

1. Site and species dependent effects of offshore wind farms on fish populations

Author

Bicknell, Anthony W.J., Gierhart, Samuel, and Witt, Matthew J.

Published

2025

2. Microplastic footprints in sharks and rays: First assessment of microplastic pollution in two cartilaginous fishes, hardnose shark and whitespotted whipray

Author

Pasalari, Marzieh, Esmaeili, Hamid Reza, Keshavarzi, Behnam, Busquets, Rosa, Abbasi, Sajjad, and Momeni, Mohammad

Published

2025

3. Microplastics (MPs) accumulation in two edible marine fish species sourced from the Bay of Bengal: Contamination level and risk assessment

Author

Pingki, Farjana Haque, Anisuzzaman, Md, Jolly, Yeasmin N., Nur, As-Ad Ujjaman, Arai, Takaomi, Al-Anazi, Khalid Mashay, Farah, Mohammad Abul, Huque, Roksana, Khatun, Mst.Afifa, Hossain, Imran, Ngah, Norhayati, Yu, Jimmy, and Hossain, M.Belal

Published

2025

4. Nutritional value of seven demersal fish species from the North Atlantic Azores archipelago

Author

Goulart, Joana Filipa Furtado, Pereira, Alexandre Correia, Marques, António Manuel Barros, and do Carmo Alves Martins, Inês

Published

2024

5. Microplastic ingestion and potential risk assessment on commercial and non-commercial marine fish in the Bay of Bengal.

Author

Siddique, Mohammad Abdul Momin, Das, Koushik, Shazada, Nururshopa Eskander, and Walker, Tony R.

Subjects

CORAL reef fishes, PLASTIC marine debris, MARINE fishes, GROUNDFISHES, LIFE sciences, SODIUM iodide

Abstract

Microplastic contamination and potential risk assessment in coral reef fish species have been under-studied, particularly in the Bay of Bengal. Quantification and characterization of microplastics and their potential health risks were assessed for six tropical fishes from Saint Martin's Island, Bay of Bengal. A total of 60 gastrointestinal tracts (GIT) from six fish species (10 individuals/species) were collected and digested with 20 mL of 65% concentrated HNO3 + 80 mL of distilled water at 70 °C for 3 h, and microplastics were extracted by density separation using 4.4 M, 1.5 g/mL of sodium iodide solution. Microplastics were visually observed by a light binocular microscope, and then polymer types were detected with FTIR. Mean microplastic abundance ranged from 4.38 to 10 microplastics/GIT with an average occurrence rate of 100%. Red, transparent, black, and blue fibres (37.50 to 81.82%) were the most dominant MP colour. Most (88.35%) extracted microplastics were 100 to 1500 µm. Polypropylene and polyethylene were the most abundant polymers, accounting for 36.45 to 53.51% and 32.56 to 47.18%, respectively. A risk assessment of microplastics using the polymer hazard index revealed that microplastic contamination in these fishes (PHI = 565.40 to 659.26) from Saint Martin's Island were classified in the "Danger" risk category. [ABSTRACT FROM AUTHOR]

Published

2025

6. Microplastics in pelagic and demersal fishes from the Meghna River estuary, Bangladesh.

Author

Hossain, M. Shahadat, Bhuiyan, Md. Riyad Hossain, Uddin, Mohammad Nasir, and Sharifuzzaman, S. M.

Subjects

*PELAGIC fishes, *ESTUARINE fishes, *LIFE sciences, *FISH ecology, *FOOD chains

Abstract

Microplastics (MPs) were investigated in four fish species viz., paradise threadfin (Polynemus paradiseus), corsula mullet (Rhinomugil corsula), flathead sillago (Sillaginopsis panijus) and king gobyeel (Taenioides sandwipi), which were collected from the Meghna River estuary in Bangladesh. The gastrointestinal tracts (GITs) of fishes (n = 80 in total) were examined for the presence of MPs following alkali digestion, microscopic observation and μ-FTIR analysis. A total of 573 MPs were detected across all four fish species, indicating the presence of MPs in 81.3% of the fish samples. On average, there were 7.16 ± 4.33 MP items/fish, 2.16 ± 1.76 items/g of GIT and 0.15 ± 0.12 items/g of body weight. Polyethylene, polypropylene and nylon were the most abundant polymers, comprising 47%, 23% and 19%, respectively, according to μ-FTIR analysis. The majority of MPs were fibers (62.48%), with white being the dominant color. R. corsula demonstrated the highest number of MPs in the < 500 μm size range, suggesting that smaller particles are more bio-available to pelagic fish. The findings confirm the contamination of the Meghna River estuary by MPs, and their presence in local fish raises concerns about potential public health risks through the food chain. [ABSTRACT FROM AUTHOR]

Published

2025

7. Cystacanths of Bolbosoma (Acanthocephala: Polymorphidae) from Six Species of Marine Fish around Japan, with Molecular Information

Author

Yuki Kita, Tsukasa Waki, and Hiroshi Kajihara

Subjects

demersal fish, east china sea, genetic distance, life cycle, pacific, pelagic fish, Zoology, QL1-991

Abstract

Acanthocephalans in the polymorphid genus Bolbosoma Porta, 1908 utilize marine mammals and seabirds as the definitive host, and marine fish as the paratenic host. As in many other groups of acanthocephalans, morphology-based species identification at the cystacanth stage of Bolbosoma is challenging; at present, DNA barcoding is the most reliable approach for larval identification. However, sequence data currently available for Bolbosoma are scarce. In this study, we report the morphology and DNA sequence information (cytochrome c oxidase subunit I and 18S rRNA genes) of Bolbosoma cystacanths from six marine fish species collected in Japan.

Published

2024

8. Multiple-Integrated Biomarker Indexes to Assess the Responses of the Flatfish Achirus lineatus during Exposure to Light Crude Oil Water Accommodated Fraction.

Author

Cañizares-Martínez, Mayra Alejandra, Quintanilla-Mena, Mercedes Amparo, Améndola-Pimenta, Mónica, Rodríguez-Canul, Rossanna, Árcega-Cabrera, Flor, Del Río-García, Marcela, Ceja-Moreno, Victor, Aguirre-Macedo, M. Leopoldina, and Puch-Hau, Carlos Alberto

Abstract

In the present study, we evaluated the biological response of Achirus lineatus to water accommodated fraction (WAF) of light crude oil (American Petroleum Institute gravity 35°) during a sub-chronic bioassay (14 and 28 days) at two different concentrations: 5% v/v (1.20 µg∙L− 1 expressed as total polycyclic aromatic hydrocarbons [∑25 PAH]) and 10% v/v (6.61 µg∙L− 1 [∑25 PAH]). The responses were evaluated through the biomarker response index (BRI), the integrated biomarker response (IBRv2) and the bioconcentration factor (BCF). The results showed an increase in biological response in relation to WAF concentration and exposure time, which resulted in a slight and moderate disturbance in the basal condition and bioconcentration level of metals (Pb > Ni > V > Cd) in fish tissue. Results in the present study denote that flatfish such as A. lineatus may be negatively influenced by spilled light crude oil. [ABSTRACT FROM AUTHOR]

Published

2024

9. Whole transcriptome analysis of demersal fish eggs reveals complex responses to ocean deoxygenation and acidification

Author

Iguchi, Akira, Hayashi, Masahiro, Yorifuji, Makiko, Nishijima, Miyuki, Gibu, Kodai, Kunishima, Taiga, Bell, Tomoko, Suzuki, Atsushi, and Ono, Tsuneo

Published

2024

10. Climate Warming and Mismanagement Drive the Shift of Fish Communities in the Wadi El-Rayan Arid Lakes.

Author

Abdelhady, Ahmed A., Samy-Kamal, Mohamed, Ismail, Esam, Hussain, Ali M., Gamvroula, Dimitra E., Ali, Ahmed, Ahmed, Mohamed S., Abdel-Raheem, Khalaf H. M., Saibi, Hakim, Sami, Mabrouk, Alexakis, Dimitrios E., and Khalil, Mahmoud M.

Subjects

GLOBAL warming, ECOSYSTEM health, FISH diversity, CLIMATE change, CTENOPHARYNGODON idella

Abstract

The Wadi El-Rayan lakes are important aquatic environments located at the border of the great North African Sahara. Quantifying the temporal changes in these lakes due to natural and/or anthropogenic stressors is critical when assessing potential impacts on aquatic ecosystem health and the sustainability of fisheries. To detect the changes in fish communities and their drivers, the landing composition of the Wadi El-Rayan lakes over the past 30 years was quantitatively analyzed. The areas of the lakes dramatically decreased from 110 km2 in 1991 to 73 km2 in 2019. The loss of the lake area was attributed to climate warming, where the evaporation rate exceeded the volume of recharge and the recharge decreased due to an increase in agriculture and aquaculture. The total landing significantly increased in the past three decades due to an increase in the fishing effort (number of licensed boats). Nile tilapia, mullet, and grass carp dominated the landings. The pelagic-to-demersal ratio indicated a shift in the fish community composition towards demersal species. This shift was attributed to an increase in the eutrophication level. The fish communities of the landing data were clustered into four distinct groups. These clusters were significantly differentiated (p < 0.001) in both a PERMANOVA test and a PCA plot. There was a gradual replacement of the dominant species among these clusters. The most recent cluster (2018–2019) was characterized by rare species dominating the community. This shift in species composition suggests that target taxa may have been overexploited. The total landing also decreased, which may have been a result of climate warming. Furthermore, the presence of alien and warm-water species significantly increased. The fish community structure and composition shift could be attributed to anthropogenic (mismanagement) and natural climatic changes (warming). [ABSTRACT FROM AUTHOR]

Published

2024

11. Attraction and avoidance of wild demersal fish and crustaceans to open-net aquaculture pens resolved by baited and towed underwater camera surveys.

Author

Dunlop, Katherine, Strammer, Ilona, and Keeley, Nigel

Subjects

UNDERWATER cameras, POLYCHAETA, AQUACULTURE, FISHERIES, FISH farming, HERMIT crabs, PLAICE, EDIBLE coatings

Abstract

Wild gadoids are known to have close associations with open-net fish farms, leading to concerns about changes in natural fish distribution and feeding patterns. However, the nature of the relationships between non-pelagic fish and mobile benthic invertebrates and aquaculture facilities remains poorly documented, even though this group contains widespread commercial North Atlantic species. This study utilizes baited remote and towed underwater video surveys to resolve the ecosystem-level effects of open salmon aquaculture cages and organic enrichment on the spatial structure and relative abundance of demersal fish and crustacean communities. Towed camera surveys were carried out 50 to >600 m downstream of three farms producing finfish in Western Finnmark and four in the Frøya region of Norway. Towed camera surveys were paired with baited remote underwater video surveys at the four Frøya farms. The declining enrichment gradient with distance downstreamof the farm cages was confirmed by modeled and observed depositional flux measurements and benthic infaunal community composition. The community structure of wild demersal fish and crustaceans in close association with the seafloor varied with the distance from the aquaculture sites. In addition to the established pattern of the attraction of gadoids, the edible crab (Cancer pagurus) and flatfish (Pleuronectes platessa andMicrostomus kitt) showed a preference for areas 10--150mfromfarmcages where organically enriched sediments contain a rich food source of opportunistic polychaetes. In contrast, the cuckoo wrasse (Labrus mixtus) and the common hermit crab (Pagurus bernhardus) exhibited higher numbers in locations over 600 m from the farms. Findings show how changes in the benthic food web from aquaculture enrichment can affect the spatial distribution of poorly studied but commercially important fish and crustaceans. Such changes in distribution can impact the availability of these species to coastal fisheries, especially in dense aquaculture regions. [ABSTRACT FROM AUTHOR]

Published

2024

12. Microplastic-induced oxidative stress response in turbot and potential intake by humans.

Author

Köktürk, Mine, Özgeriş, Fatma Betül, Atamanalp, Muhammed, Uçar, Arzu, Özdemir, Süleyman, Parlak, Veysel, Duyar, Hünkar Avni, and Alak, Gonca

Subjects

*OXIDATIVE stress, *PSETTA maxima, *GLUTATHIONE peroxidase, *SUPEROXIDE dismutase, *ECOSYSTEM health

Abstract

Microplastic (MP) pollution has become a health concern subject in recent years. Althoughann increasing number of studies about the ingestion of microplastics by fish, research on the oxidative stress response to MPs in natural environments is quite limited. In this study, the identification and characterization of MPs in gill (G), muscle tissues (M), and gastrointestinal tract (GI) of turbot (Scophthalmus maximus) were evaluated. Oxidative damage of MPs on the brain (B), liver (L), gill (G), and muscle (M) tissues as well as their effect on superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx), paraoxonase (PON), arylesterase (AR) myeloperoxidase (MPO), and malondialdehyde (MDA) biomarkers were evaluated. The potential transmission of MPs from muscle tissues to humans was examined. Results showed that gills contain the highest amounts of MPs, ethylene propylene is the most dominant polymer type, black and blue are the most common MP color, fiber is the most common shape, and 50-200 µm is the most common MP size. Results showed that MPs cause oxidative stress of tissues with inhibiting effect on enzyme activities and promoting impact on lipid peroxidation. The oxidative damage mostly affected the liver (detoxification organ) followed by gill tissue. The intake of MPS in the European Union was estimated by EFSA as 119 items/year, while in Turkey it is 47.88 items/year. This study shows that more research is needed in terms of ecosystem health and food chain safety. The risk assessment of MPs in living organisms and environmental matrices including food safety and human health should be considered a public health issue. [ABSTRACT FROM AUTHOR]

Published

2024

13. Attraction and avoidance of wild demersal fish and crustaceans to open-net aquaculture pens resolved by baited and towed underwater camera surveys

Author

Katherine Dunlop, Ilona Strammer, and Nigel Keeley

Subjects

demersal fish, marine crustaceans, aquaculture, baited underwater cameras, coastal zone management, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Wild gadoids are known to have close associations with open-net fish farms, leading to concerns about changes in natural fish distribution and feeding patterns. However, the nature of the relationships between non-pelagic fish and mobile benthic invertebrates and aquaculture facilities remains poorly documented, even though this group contains widespread commercial North Atlantic species. This study utilizes baited remote and towed underwater video surveys to resolve the ecosystem-level effects of open salmon aquaculture cages and organic enrichment on the spatial structure and relative abundance of demersal fish and crustacean communities. Towed camera surveys were carried out 50 to >600 m downstream of three farms producing finfish in Western Finnmark and four in the Frøya region of Norway. Towed camera surveys were paired with baited remote underwater video surveys at the four Frøya farms. The declining enrichment gradient with distance downstream of the farm cages was confirmed by modeled and observed depositional flux measurements and benthic infaunal community composition. The community structure of wild demersal fish and crustaceans in close association with the seafloor varied with the distance from the aquaculture sites. In addition to the established pattern of the attraction of gadoids, the edible crab (Cancer pagurus) and flatfish (Pleuronectes platessa and Microstomus kitt) showed a preference for areas 10–150 m from farm cages where organically enriched sediments contain a rich food source of opportunistic polychaetes. In contrast, the cuckoo wrasse (Labrus mixtus) and the common hermit crab (Pagurus bernhardus) exhibited higher numbers in locations over 600 m from the farms. Findings show how changes in the benthic food web from aquaculture enrichment can affect the spatial distribution of poorly studied but commercially important fish and crustaceans. Such changes in distribution can impact the availability of these species to coastal fisheries, especially in dense aquaculture regions.

Published

2024

14. Evaluating the design of the first marine protected area network in Pacific Canada under a changing climate

Author

Emily M. Rubidge, Carrie K. Robb, Patrick L. Thompson, Chris McDougall, Karin M. Bodtker, Katie S.P. Gale, Stephen Ban, Kil Hltaanuwaay Tayler Brown, Vicki Sahanatien, Sachiko Ouchi, Sarah K. Friesen, Natalie C. Ban, Karen L. Hunter, Angelica Pena, Amber Holdsworth, and Rebecca Martone

Subjects

climate change, Marine Protected Area network, demersal fish, MPA design, ecological representation, replication, Education, Science

Abstract

Marine protected area (MPAs) networks can buffer marine ecosystems from the impacts of climate change by allowing species to redistribute as conditions change and by reducing other stressors. There are, however, few examples where climate change has been considered in MPA network design. In this paper, we assess how climate change considerations were integrated into the design of a newly released MPA network in the Northern Shelf Bioregion in British Columbia, Canada, and then evaluate the resulting network against projected physical and biogeochemical changes and biological responses. We found that representation, replication, and size and spacing recommendations integrated into the design phase were met in most cases. Furthermore, despite varying degrees of projected changes in temperature, dissolved oxygen, and aragonite saturation across the MPA network, suitable habitat for demersal fish species is projected to remain in the network despite some redistribution among sites. We also found that mid-depth MPAs are particularly important for persistence, as fish are projected to move deeper to avoid warming in shallower areas. Our results highlight that a representative MPA network with adequate replication, that incorporates areas of varying climate change trajectory, should buffer against the impacts of climate change.

Published

2024

15. Demersal Fish Community in the Near-Shelf Zone of the Cosmonaut Sea, Southern Ocean.

Author

Wang, Rui, Zhang, Ran, Miao, Xing, Li, Hai, Song, Puqing, Li, Yuan, and Lin, Longshan

Subjects

*FISH communities, *ASTRONAUTS, *FISHING villages, *PHYSICAL geography, *DREDGING (Fisheries), *TUNDRAS, *FISHING nets, ANTARCTIC exploration

Abstract

Studies on the demersal fish composition of the East Antarctic nearshore region are very scarce due to the harsh physical geography of the East Antarctic region, which is covered in ice and snow year round, leading to a scarcity of scientific surveys. Based on the data from the bottom trawl survey conducted by the 37–38th Chinese National Antarctic Research Expedition (CHINARE) program in the Cosmonaut Sea, East Antarctica, the species of demersal fishes were identified, and the demersal fish composition and the characteristics of depth distribution were examined and analyzed. The basic biological information of highly abundant species was analyzed. The results from 97 individuals sampled within 30–60° E, south of −65° S, indicate that the fishes belong to 5 orders, 11 families, 19 genera, and 23 species. Most of the species are found in Myctophidae and Bathydraconidae, and the most common species is Macrourus whitsoni (Macrouridae). Macrourus whitsoni and Prionodraco evansii have a high abundance in the survey. Macrourus whitsoni has body lengths of 144–662 mm and body weights of 17.3–1425.1 g, and Prionodraco evansii has body lengths of 90.18–134.33 mm and body weights of 4.9–20.7 g. The length–weight relationships for Macrourus whitsoni and Prionodraco evansii are y = 0.00002 x 2.748 and y = 0.000006 x 3.353 , respectively. All the Macrourus whitsoni samples were found in waters deeper than 1000 m, with the highest number of individuals captured at depths of 1500–2000 m. Prionodraco evansii was found only at stations less than 250 m deep. These results complement the demersal fish composition and distribution data of the Cosmonaut Sea, East Antarctica. These data can provide valuable basic information for characterizing regional assemblages and delineating zoogeographic boundaries. [ABSTRACT FROM AUTHOR]

Published

2024

16. Identification of critical essential habitat for demersal fish in the Gulf of Guinea.

Author

Quenum, Crespin Luc, El Vally, Yeslem, Tapé, Joanny, Guitton, Jérôme, Ekuban, Ebenezer Francis, Kouakou, N'Goran David, and Le Pape, Olivier

Subjects

*MARINE fishes, *FISH habitats, *GEOGRAPHICAL distribution of fishes, *MARINE habitats, *EPINEPHELUS

Abstract

Habitats of three marine fish species of major interest (Epinephelus aeneus, Pseudotolithus senegalensis, and Pagellus bellottii) at both juvenile and adult life stages were identified and mapped in the western part of the Gulf of Guinea. Habitat suitability models (HSMs) were designed to quantify species- and stage-specific fish densities from scientific survey data collected for the last 40 years according to two environmental descriptors (bathymetry, distance to river mouth) and accounting for temporal contrasts. Delta general linear models were selected to fit with the 0-inflated distribution of the fish density data. Despite their high residual deviance, both the prediction accuracy and robustness of these HSMs were satisfactory. HSMs showed a strong influence of bathymetry on stage-specific fish distribution and a lower and non systematic influence of proximity to river mouths. The spatial distribution of juveniles of E. aeneus and P. senegalensis evidenced their concentration in shallow coastal nurseries. The adults of P. senegalensis were also located in nearshore habitats under estuarine influence, whereas adults of E. aeneus were spread towards deeper waters. P. bellottii did not rely on coastal fringes at juvenile or adult stages. Finally, model outputs showed a decrease in abundance in recent decades for all species at both life stages. These HSMs and maps reveal the importance of the coastal fringe as a critical essential habitat for two of the three studied species and the usefulness of space-based management measures to maintain populations and ensure sustainable fishing exploitation. [ABSTRACT FROM AUTHOR]

Published

2024

17. Spatiotemporal changes in the Atlantic cod (Gadus morhua) stock at Flemish Cap (1993-2019) and their relationships with demersal communities.

Author

Songin, Krerkkrai, Pierce, Graham, and Saborido-Rey, Fran

Subjects

ATLANTIC cod, FOOD chains, PREDATION, FISHERY management, DREDGING (Fisheries)

Abstract

Changes in Atlantic cod (Gadus morhua) abundance at Flemish Cap, likely due to exploitation and perhaps also to changing environmental conditions, have been well documented since 1980s. While the ecological implications of cod fluctuations have been explored in relation to dominant and commercially important species including redfish (Sebastes spp.), northern shrimp (Pandalus borealis) and Greenland halibut (Reinhardtius hippoglossoides), the broader ecological impacts, e.g. on less abundant species, remain less well explored. This study aimed to analyse spatiotemporal variation in the distribution and abundance of cod, and identify associated changes in distribution and abundance of other species with various trophic relationships to cod. This analysis used a delta Generalized Additive Model (GAM) approach, incorporating binomial and quasi-Poisson GAMs fitted to EU bottom trawl survey data from 1993 to 2019. Trophic species and guilds were defined based on the sizes and feeding habits of each species, as established in previous studies. Atlantic cod is considered to comprise of two trophic species: cod under 46 cm and larger cod. Model predictions were used to construct distribution maps and estimate distribution range and annual total abundance. Bottom temperature was a more important predictor in abundance (quasi-Poisson) models than in presence (binomial) models. The observed decline in cod abundance was associated with contraction in the distribution range. Significant negative correlations were identified between cod trophic species and all but one of the other trophic species in the same trophic guilds, for both distribution range and abundance. Species in other trophic guilds that rely on northern shrimp as prey also exhibited negative correlations with cod. The abundances of the main prey of cod, namely juvenile redfish and northern shrimp, showed negative correlations with cod abundance but no relationship was seen for distribution range. The abundance of large Acadian redfish (S. fasciatus) and large beaked redfish (S. mentella), which are major prey species of cod, was positively correlated with that of large cod, suggesting that the abundance of these prey species depends more on external variables, such as intense exploitation, than on their predator-prey relationships. These findings highlight the importance, for fishery management, of considering both the direct effects of fishing mortality and the indirect effects via trophic relationships. [ABSTRACT FROM AUTHOR]

Published

2024

18. Are we ready to track climate-driven shifts in marine species across international boundaries? - A global survey of scientific bottom trawl data.

Author

A Maureaud, Aurore, Frelat, Romain, Pécuchet, Laurène, Shackell, Nancy, Mérigot, Bastien, Pinsky, Malin, Amador, Kofi, Anderson, Sean, Arkhipkin, Alexander, Auber, Arnaud, Barri, Iça, Bell, Richard, Belmaker, Jonathan, Beukhof, Esther, Camara, Mohamed, Guevara-Carrasco, Renato, Choi, Junghwa, Christensen, Helle, Conner, Jason, Cubillos, Luis, Diadhiou, Hamet, Edelist, Dori, Emblemsvåg, Margrete, Ernst, Billy, Fairweather, Tracey, Fock, Heino, Friedland, Kevin, Garcia, Camilo, Gascuel, Didier, Gislason, Henrik, Goren, Menachem, Guitton, Jérôme, Jouffre, Didier, Hattab, Tarek, Hidalgo, Manuel, Kathena, Johannes, Knuckey, Ian, Kidé, Saïkou, Koen-Alonso, Mariano, Koopman, Matt, Kulik, Vladimir, León, Jacqueline, Levitt-Barmats, Yaarit, Lindegren, Martin, Llope, Marcos, Massiot-Granier, Félix, Masski, Hicham, McLean, Matthew, Meissa, Beyah, Mérillet, Laurène, Mihneva, Vesselina, Nunoo, Francis, ODriscoll, Richard, OLeary, Cecilia, Petrova, Elitsa, Ramos, Jorge, Refes, Wahid, Román-Marcote, Esther, Siegstad, Helle, Sobrino, Ignacio, Sólmundsson, Jón, Sonin, Oren, Spies, Ingrid, Steingrund, Petur, Stephenson, Fabrice, Stern, Nir, Tserkova, Feriha, Tserpes, Georges, Tzanatos, Evangelos, van Rijn, Itai, van Zwieten, Paul, Vasilakopoulos, Paraskevas, Yepsen, Daniela, Ziegler, Philippe, and T Thorson, James

Subjects

bottom trawl survey, climate change, demersal fish, fisheries policy, global data synthesis, open science, species distribution, transboundary conservation, Animals, Climate Change, Ecosystem, Fisheries, Fishes, Surveys and Questionnaires

Abstract

Marine biota are redistributing at a rapid pace in response to climate change and shifting seascapes. While changes in fish populations and community structure threaten the sustainability of fisheries, our capacity to adapt by tracking and projecting marine species remains a challenge due to data discontinuities in biological observations, lack of data availability, and mismatch between data and real species distributions. To assess the extent of this challenge, we review the global status and accessibility of ongoing scientific bottom trawl surveys. In total, we gathered metadata for 283,925 samples from 95 surveys conducted regularly from 2001 to 2019. We identified that 59% of the metadata collected are not publicly available, highlighting that the availability of data is the most important challenge to assess species redistributions under global climate change. Given that the primary purpose of surveys is to provide independent data to inform stock assessment of commercially important populations, we further highlight that single surveys do not cover the full range of the main commercial demersal fish species. An average of 18 surveys is needed to cover at least 50% of species ranges, demonstrating the importance of combining multiple surveys to evaluate species range shifts. We assess the potential for combining surveys to track transboundary species redistributions and show that differences in sampling schemes and inconsistency in sampling can be overcome with spatio-temporal modeling to follow species density redistributions. In light of our global assessment, we establish a framework for improving the management and conservation of transboundary and migrating marine demersal species. We provide directions to improve data availability and encourage countries to share survey data, to assess species vulnerabilities, and to support management adaptation in a time of climate-driven ocean changes.

Published

2021

19. Assessment of health risks due to toxic metals in demersal fish captured from Saros and Edremit Bays, Northern Aegean Sea.

Author

Dogruyol, Hande, Erkan, Nuray, Özden, Özkan, Can Tuncelli, Idil, and Karakulak, Firdes Saadet

Abstract

Bays are vulnerable ecosystems generally located near densely populated areas where toxic metals tend to accumulate and stay longer, affecting marine life. This study aimed to investigate the age-based health risks arising from Hg, Cd, Pb, and As in demersal fish captured from two major bays in the Aegean Sea. For this purpose, red mullet, whiting, piper gurnard, and tub gurnard, frequently consumed species, were caught from Saros and Edremit Bays. Toxic metal concentrations were determined from the muscle tissue of fish. Health risk assessments were conducted by the estimation of weekly intake (EWI), provisional tolerable weekly intake (PTWI), target hazard quotient (THQ), total THQ (TTHQ), and target carcinogenic risk (TR). Red mullet from Edremit Bay was the species with the highest toxic metal levels, which were 1.597 mg/kg, 0.041 mg/kg, 0.070 mg/kg, and 19.351 mg/kg for Hg, Cd, Pb, and As, respectively. Whiting from Edremit Bay had higher mean concentrations of Hg and As than those from Saros Bay. The levels of Hg, Pb, and As (0.328, 0.043, and 0.574 mg/kg) in the tub gurnard were higher in comparison with the piper gurnard (0.252, 0.020, and 0.382 mg/kg) caught in the same station in Saros. TTHQs of red mullet and whiting from the same bay were found to be > 1, indicating potential health risks for all nine age categories studied. On the other hand, TTHQs of all species from Saros Bay were determined to be > 1 for the first four age categories, which might trigger health risks for children and adolescents. According to the TR index for Pb, no risk was determined for the fish from both bays. However, TR calculations for inorganic As indicated high cancer risk in most of the age categories for red mullet and whiting from Edremit Bay. To sum up, the results revealed that the fish captured from Edremit Bay posed serious health risks in terms of Hg and As concentrations for all nine age categories. Surveillance and monitoring of toxic metal levels in demersal fish and population-based health risk evaluation are vital in heavily populated bays. [ABSTRACT FROM AUTHOR]

Published

2023

20. Are there distribution patterns and population structure differences among demersal fish species in relation to Antarctic benthic communities? A case study in the Weddell Sea.

Author

Baena, Patricia, Santín, Andreu, La Mesa, Mario, Riginella, Emilio, Owsianowski, Nils, Gili, Josep-Maria, and Ambroso, Stefano

Subjects

*FISH communities, *FISH diversity, *SPARSE matrices, *SPECIES, *FISHING villages, *ALCYONACEA, *GROUNDFISHES, *VIDEO recording, *FISHES

Abstract

Despite the general belief that the Southern Ocean harbors low fish biodiversity, the Weddell Sea hosts one of the richest fish communities in the region. Parallelly, the Weddell Sea is also known for the presence of dense and diverse macrobenthos. Most macrobenthic invertebrates, such as gorgonians, sponges and bryozoans, are considered ecosystem engineers as they generate a three-dimensional structure that increases habitat heterogeneity. This structural complexity serves as a refuge against predators as well as a nursery ground for many organisms, including fish species. By analyzing video transects recorded by a Remotely Operated Vehicle, we investigated density, spatial distribution and size-frequency of populations of the demersal fish species inhabiting macrobenthic communities in the southernmost part of the Weddell Sea. We also attempted to unveil whether there is any relationship between benthic and fish communities and substrate, as well as some fish behavioral patterns. The dominance of juveniles in the surveyed fish assemblages provides evidence that, at this life stage, some fish species appear to be positively associated with complex benthic communities conformed by bryozoans, sponges and gorgonians which are more common in sand matrix with sparse rocks substrates. Moreover, about 37% of all specimens recorded were resting on benthic invertebrates or were using them to hide, implying that Antarctic benthic communities might offer suitable habitat. As such, it can be concluded that there was an apparent relationship between certain species of fish and the different benthic communities, yet the exact triggers and/or factors behind such an association remain partially elusive. [ABSTRACT FROM AUTHOR]

Published

2023

21. Seasonal and interannual variability of fish species composition in catches of bottom nets in the Russian waters of the Kunashir Strait

Author

A. Ya. Velikanov, I. N. Mukhametov, G. V. Shevchenko, Zh. R. Tshai, and V. N. Chastikov

Subjects

demersal fish, zoogeographical complex, ecological group, seasonal migration, interannual change, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Seasonal and interannual variability of the demersal fish species composition is considered for the depths of 70–315 m in the eastern Kunashir Strait on the data obtained in 1998–2014. The fish community includes the species belonged to nine zoogeographical complexes and eighth ecological groups. Among them, species diversity is higher for the arctic-boreal, wide-boreal Pacific, wide-boreal Asian, and low-boreal Asian complexes and for the sublittoral, elittoral, and mesobental groups. The species diversity of fish in the surveyed area depends on seasonal migrations of demersal and pelagic fishes, including pacific salmon and some subtropical and tropical species. Interannual variations in the species composition are determined mainly by changes in the depth of netting and water temperature, but do not depend on the timing of samples collection during a season.

Published

2023

22. Biological Parameters and Biomass and Abundance Indices of Two Demersal Species, Turbot (Scophthalmus maximus) and Thornback Ray (Raja clavata), Estimated by a Trawl Survey in Western Black Sea.

Author

Tserkova, Feriha M., Mihneva, Vesselina V., and Petrova-Pavlova, Elitsa P.

Subjects

*PSETTA maxima, *BIOMASS, *TRAWLING, *GRID cells, *SPECIES

Abstract

In this study, we determined the biological characteristics and indices of abundance and biomass of two demersal species, turbot and thornback ray, through a scientific trawl survey of Bulgarian Black Sea waters in the autumn of 2020. Turbot is among the most valuable fish species in the Black Sea, and thornback ray is a sensitive cartilaginous species with a significantly declining abundance throughout the Mediterranean region. The stock biomass of turbot was estimated at 1467.6 tons, with a relative abundance of 896,922 individuals, and those of the thornback ray were 1187.9 tons and 519,606 individuals, respectively. Mean turbot abundance, interpolated into 0.5° latitude/longitude grid cells, ranged between 52 and 120 ind·km−2, with a mean biomass of 78.26–238.31 kg·km−2, and for the thornback ray, these indices were within the limits of 0–107 ind·km−2 and 0–219 kg·km−2. The distribution of the different length classes of the two fish species by depth layer was analyzed. Length–weight relationships were estimated based on combined samples of both sexes and separately for female and male individuals, allowing a better understanding of growth patterns. [ABSTRACT FROM AUTHOR]

Published

2023

23. Fisheries and stock assessment of the European hake in GSA 04 zone (Algerian eastern coast) - tools for fisheries management and conservation.

Author

Kouadria, Sarra and Tahri, Mardja

Subjects

*FISH conservation, *FISHERIES, *FISHERY management, *FISH mortality, *SEX ratio, *DEATH rate, *OVERFISHING

Abstract

There is evidence that the European hake is one of the main target species of demersal fisheries in the Western Mediterranean and has been widely exploited for decades; the potential for overfishing is very high. The purpose of this study was to evaluate the stock assessment and the age validation of European hake (Merluccius merluccius Linnaeus, 1758) in the GFCM/GSA 04 (Algerian eastern coast) in order to provide a management strategies and effective control measures. A total of 662 hake specimens were sampled from commercial landings from January 2021 to December 2021. The sex ratio was in favor of females (54.8%) but there were no differences in mean lengths between sexes. The estimated total mortality rate (Z) and the natural mortality (M) were 1.48 year− 1 and 0.41 year− 1, respectively. The estimated instantaneous rate of fishing mortality (F) was calculated as 1.06 years− 1, with an exploitation ratio of 0.72, which suggests that the stock in GSA 04 area could be overexploited (E > 0.5). The fishing mortality rate F = 1.06 is higher than the fishing mortality for maximum sustainable yield (Fmax = 0.43) corresponding to the fisheries mortality rate factor that maximizes equilibrium yield per recruit; hence the hazard ratio of the stock is being overfished. To limit the risk of stock collapse, adjustment of the Fcurrent fishing effort factor to F0.1 (0.29) is essential, it should be reduced by 77% the fishing effort to increase by long term exploitable biomasses of hake stock and allow the renewal of the resource. The findings reported here provide new key instruments for the stock assessment of this species and thus contribute to it conservation. [ABSTRACT FROM AUTHOR]

Published

2023

24. Over 20% of marine fishes shifting in the North and Barents Seas, but not in the Norwegian Sea.

Author

Gordó-Vilaseca, Cesc, Pecuchet, Laurene, Coll, Marta, Reiss, Henning, Jüterbock, Alexander, and Costello, Mark John

Subjects

GLOBAL warming, FISH communities, ECOLOGICAL regime shifts, FISHING villages, NORWEGIANS, BIOMASS

Abstract

Climate warming generally induces poleward range expansions and equatorward range contractions of species' environmental niches on a global scale. Here, we examined the direction and magnitude of species biomass centroid geographic shifts in relation to temperature and depth for 83 fish species in 9,522 standardised research trawls from the North Sea (1998-2020) to the Norwegian (2000-2020) and Barents Sea (2004-2020). We detected an overall significant northward shift of the marine fish community biomass in the North Sea, and individual species northward shifts in the Barents and North Seas, in 20% and 25% of the species' biomass centroids in each respective region. We did not detect overall community shifts in the Norwegian Sea, where two species (8%) shifted in each direction (northwards and southwards). Among 9 biological traits, species biogeographic assignation, preferred temperature, age at maturity and maximum depth were significant explanatory variables for species latitudinal shifts in some of the study areas, and Arctic species shifted significantly faster than boreal species in the Barents Sea. Overall, our results suggest a strong influence of other factors, such as biological interactions, in determining several species' recent geographic shifts. [ABSTRACT FROM AUTHOR]

Published

2023

25. Over 20% of marine fishes shifting in the North and Barents Seas, but not in the Norwegian Sea

Author

Cesc Gordó-Vilaseca, Laurene Pecuchet, Marta Coll, Henning Reiss, Alexander Jüterbock, and Mark John Costello

Subjects

Latitudinal shifts, Climate warming, Demersal fish, Fish communities, Medicine, Biology (General), QH301-705.5

Abstract

Climate warming generally induces poleward range expansions and equatorward range contractions of species’ environmental niches on a global scale. Here, we examined the direction and magnitude of species biomass centroid geographic shifts in relation to temperature and depth for 83 fish species in 9,522 standardised research trawls from the North Sea (1998–2020) to the Norwegian (2000–2020) and Barents Sea (2004–2020). We detected an overall significant northward shift of the marine fish community biomass in the North Sea, and individual species northward shifts in the Barents and North Seas, in 20% and 25% of the species’ biomass centroids in each respective region. We did not detect overall community shifts in the Norwegian Sea, where two species (8%) shifted in each direction (northwards and southwards). Among 9 biological traits, species biogeographic assignation, preferred temperature, age at maturity and maximum depth were significant explanatory variables for species latitudinal shifts in some of the study areas, and Arctic species shifted significantly faster than boreal species in the Barents Sea. Overall, our results suggest a strong influence of other factors, such as biological interactions, in determining several species’ recent geographic shifts.

Published

2023

26. Length–weight relationship and seasonal variations in diet composition of whiting (Merlangius merlangus) in the South-eastern Black Sea.

Author

Başçinar, Nimet Selda, Misir, Devrim Selim, Altuntaş, Cemil, Genç, Yaşar, Dağtekin, Murat, Erbay, Murat, Balçik Misir, Gülsüm, and Aydin, Erdinç

Subjects

*SIZE of fishes, *GASTROINTESTINAL contents, *ENGRAULIS encrasicolus, *DIET, *SEASONS

Abstract

The sex ratio, length–weight relationship (LWR) and diets based on stomach contents of whiting (Merlangius merlangus) were investigated in the south-eastern Black Sea, Turkey. A total of 3507 females (7.5–24.0 cm), 1602 males (9.4–20.0 cm), and 78 unidentified sex (5.5–16.5 cm) whiting were caught during monthly sampling from February to December 2017. The sex ratio was dominated by females, and their ratio (♀:♂, 1:0.46) significantly deviated from 1:1. The LWR indicated a negative allometric growth for males, while females had a positive allometric growth pattern. The stomach content analysis based on the relative importance index (IRI%) indicated exclusively piscivorous diets dominant by Sprattus sprattus and Engraulis encrasicolus made up more than 91 IRI% of the total diets of M. merlangus. The modified Costello-Amundsen's graphical analyses evinced the specialized feeding strategy of M. merlangus throughout this study. The contribution of these two preys to the diets of M. merlangus showed considerable seasonal variations that were totally dependent on their abundance. Sprattus sprattus contributed to more than 98% of the total diets during June, July and August, while in the following months, E. encrasicolus appeared to take its position. Based on fish size, a general trend of a rise in prey diversity was found with increasing fish size. Also, the contribution of S. sprattus tended to decrease with increasing predator size, which is replaced by a rise in E. encrasicolus contribution. Hence, larger M. merlangus predominantly fed on E. encrasicolus while smaller size predators preferred to feed on S. sprattus. [ABSTRACT FROM AUTHOR]

Published

2023

27. Resource Use among Six Commercial Fish Species from the South-Eastern Gill Net Fisheries, Korea.

Author

Kang, Min-Gu, Lee, Sang-Heon, Kim, Myung-Joon, Kwak, Seok-Nam, Han, In-Seong, and Park, Joo-Myun

Subjects

GILLNETTING, FISHERIES, STABLE isotope analysis, FOOD chains, GASTROINTESTINAL contents

Abstract

Dietary habits and inter-specific differences in resource use among six commercial fish species, Chelidonichthys spinosus, Cleisthenes pinetorum, Glyptocephalus stelleri, Hexagrammos otakii, Lophius litulon, and Sebastes schlegelii, collected from the southern coast of the East Sea, Korea, were analyzed using stomach content and stable isotope analyses. Teleosts were the main prey items for C. pinetorum and L. litulon, while both crabs and teleosts contributed to the diets of C. spinosus and S. schlegelii. Glyptocephalus stelleri mainly consumed polycheates and carid shrimps, and H. otakii mostly ingested crabs. The composition of prey items was significantly different in the diets of the six fish species. Further, carbon (δ13C) and nitrogen (δ15N) stable isotope values were significantly different among the six species, indicating different trophic positions. L. litulon, C. pinetorum, and S. schlegelii had narrow niches, whereas C. spinosus, G. stelleri, and H. otakii had relatively wider niches. This study demonstrated differences in patterns of food resource use among the six fish species that were categorized into two patterns of resource use according to their main prey items: diet diversity, trophic niche width, and trophic position. These results could contribute to the understanding of trophic relationships among fish species inhabiting the East Sea, Korea. [ABSTRACT FROM AUTHOR]

Published

2023

28. Three decades of increasing fish biodiversity across the northeast Atlantic and the Arctic Ocean.

Author

Gordó-Vilaseca, Cesc, Stephenson, Fabrice, Coll, Marta, Lavin, Charles, and Costello, Mark John

Subjects

*CLIMATE change models, *SPECIES diversity, *BIODIVERSITY, *OCEAN, *MARINE animals

Abstract

Observed range shifts of numerous species support predictions of climate change models that species will shift their distribution northward into the Arctic and sub-Arctic seas due to ocean warming. However, how this is affecting overall species richness is unclear. Here we analyze 20,670 scientific research trawls from the North Sea to the Arctic Ocean collected from 1994 to 2020, including 193 fish species. We found that demersal fish species richness at the local scale has doubled in some Arctic regions, including the Barents Sea, and increased at a lower rate at adjacent regions in the last three decades, followed by an increase in species richness and turnover at a regional scale. These changes in biodiversity correlated with an increase in sea bottom temperature. Within the study area, Arctic species' probability of occurrence generally declined over time. However, the increase in species from southern latitudes, together with an increase in some Arctic species, ultimately led to an enrichment of the Arctic and sub-Arctic marine fauna due to increasing water temperature consistent with climate change. [ABSTRACT FROM AUTHOR]

Published

2023

29. Intraspecific trophic variation in brown booby (Sula leucogaster) from the Southwestern Atlantic.

Author

Mancini, Patricia Luciano, Valim, Emília Emanuelle Motta, de Barros Bauer, Arthur, and Fischer, Luciano Gomes

Subjects

*SEXUAL dimorphism, *STABLE isotopes, *PELAGIC fishes, *ARCHIPELAGOES

Abstract

Sexual size dimorphism in seabirds may reduce intraspecific food competition by exploiting different trophic niches by each sex. We tested the intraspecific trophic segregation between sexes of brown booby (Sula leucogaster) using regurgitated prey and stable isotopes (δ15N and δ13C) from whole blood and prey muscle in Santana Archipelago (SA), in north state of Rio de Janeiro, Brazil, Southwestern Atlantic. As females are larger than males, it is expected to have a broader niche amplitude and higher trophic position than to males due to consuming a wider variety of prey sizes. Expeditions to SA occurred from June 2017 to May 2018, where 53 females, 48 males and 54 regurgitates were sampled. Overall 22 fish species were identified: 77% demersal species, of 399 prey items (54.4% demersal prey). The Relative Importance Index indicated the pelagic Chirocentrodon bleekerianus as the most important prey for females and the demersal Cynoscion guatucupa for males. Demersal fishes were more consumed than pelagic fishes; especially during winter (83% and 76% of prey mass and number, respectively). In all seasons, stable isotopes differed between sexes. Females showed larger isotopic niche than males, indicating that may consume a broader varied of prey, although trophic position (δ15N) were higher in males. Thus, the brown booby population from the SA shows a trophic segregation between sexes thought the year, and demersal fish is an important part of the seabird's diet, which may contribute to promote the niche segregation. [ABSTRACT FROM AUTHOR]

Published

2023

30. The influence of lipid-extraction on the δ13C of mesopelagic and demersal fish in the South China Sea: modification and application of lipid normalization models.

Author

Wang, Linyu, Wang, Fuqiang, Chen, Zuozhi, and Wu, Ying

Abstract

Mesopelagic fish, the most important daily vertically migrating community in the oceans, are characterized by high lipid content which may obscure the interpretation of stable isotopes analysis. Demersal fish, which are important consumers in the food web dominated by mesopelagic fish, also have a high lipid content. Here we collected 127 fish samples from the South China Sea and evaluated the effect of lipid contents on δ13C of mesopelagic and demersal fish. In lipid-extracted mesopelagic fish, the C/N content ratio (<5.5) shows a clear correlation with Δδ13C (the offset of bulk and lipid-extracted δ13C values), especially in non-migratory and semi-migratory species; these values were less correlation in demersal fish. Based on our results, we suggest that mesopelagic and demersal fish in different regions of the South China Sea should be studied separately using appropriate correction models and less fit for the traditional model. Moreover, the C/N content ratio should be used cautiously for establishing the lipid normalization model, especially for the fish in migratory mesopelagic fish and demersal fish. Our results also reveal that mesopelagic fish across nearby regions could be analyzed together. The new models described here can be applied in future studies of mesopelagic and demersal fish in the South China Sea. [ABSTRACT FROM AUTHOR]

Published

2023

31. New Insights into Lymphocystis Disease Virus Genome Diversity.

Author

Benkaroun, Jessica, Bergmann, Sven M., Römer-Oberdörfer, Angela, Demircan, Menekse Didem, Tamer, Cüneyt, Kachh, Gayatri Rajendra, and Weidmann, Manfred

Subjects

*VIRUS diseases, *VIRUS diversity, *WHOLE genome sequencing, *GENOME size, *OSTEICHTHYES

Abstract

Lymphocystis disease viruses (LCDVs) are viruses that infect bony fish which has been found in different locations across the globe. Four virus species have been classified by the International Committee on Taxonomy of Viruses (ICTV), despite remarkable discrepancies in genome size. Whole genome sequencing and phylogenetic analysis of LCDVs from wild fish from the North Sea and partial sequences from gilthead sea bream of an aquafarm located in the Aegean Sea in Turkey confirm that the LCDV1 genome at 100 kb is approximately half the size of the genomes of LCDV2-4. Since the fish species, of which LCDV1 was isolated, differ taxonomically at the order level, co-speciation can be excluded as the driver of the adaptation of the genome of this nucleocytoplasmic large DNA virus, but may represent an adaptation to the lifestyle of this demersal fish in the northeast Atlantic. [ABSTRACT FROM AUTHOR]

Published

2022

32. Metals in Ten Commercial Demersal Fish from the East China Sea: Contribution to Aquatic Products Nutrition and Toxic Risk Assessment.

Author

Meng, Chunying, Wang, Kuiwu, and Xu, Guoqiang

Abstract

Metal accumulation in the marine environment can increase the metal content of fish living in it. For this reason, it is essential to evaluate the nutrition from fish consumption and assess metal toxicity risk. Ten species of demersal fish, which are part of the daily diet of coastal residents, were sampled using trammel net in the East China Sea. Levels of the microelements, the constant elements, and the toxic elements of muscle tissue were analyzed. Spiny red gurnard had the highest concentrations of calcium, copper, and iron, whereas pufferfish and threadfin porgy were good sources of zinc and magnesium. The levels of lead, cadmium, and inorganic arsenic in all samples were below the limit values according to Chinese national standards. Although some concerns were raised about the concentration of mercury (Hg) in threadfin porgy, silver croaker, and fivespot flounder, molar ratios (selenium, Se:Hg) and the Se health benefit values (HBVSe) indicated that they were safe for human consumption. Additionally, the estimated weekly intake and % weekly contribution of 10 fish species with different elements were provided, giving a reference for the people's healthy consumption. [ABSTRACT FROM AUTHOR]

Published

2022

33. De Novo Transcriptome Analysis of the Lizard Fish (Saurida elongata): Novel Insights into Genes Related to Sex Differentiation.

Author

Shan, Binbin, Wang, Liangming, Liu, Yan, Yang, Changping, Liu, Manting, Sun, Dianrong, and Huang, Pujiang

Subjects

SEX differentiation (Embryology), MICROSATELLITE repeats, TRANSCRIPTOMES, GENES, MARINE fishes

Abstract

Featured Application: In our study, transcriptomes of different genders of lizardfish (Saurida elongata) were compared. Interesting findings about sex-related genes for putative future aquaculture applications are reported here. We provide a transcriptome dataset of S. elongata that will be valuable for further research into the reproductive biology of S. elongata and other teleost fishes. Among vertebrates, teleost fishes exhibit the largest array of sex-determining systems, resulting in many reproductive strategies. Screening these fish for sex-related genes could enhance our understanding of sexual differentiation. The lizardfish, Saurida elongata (Temminck & Schlegel, 1846), is a commercially important marine fish in tropical and subtropical seas of the northwest Pacific. However, little genomic information on S. elongata is available. In this study, the transcriptomes of three female and three male S. elongata were sequenced. A total of 49.19 million raw read pairs were generated. After identification and assembly, a total of 59,902 nonredundant unigenes were obtained with an N50 length of 2070 bp. Then, 38,016 unigenes (63.47% of the total) were successfully annotated through multiple public databases. A comparison of the unigenes of different sexes of S. elongata revealed that 22,507 unigenes (10,419 up-regulated in a female and 12,088 up-regulated in a male) were differentially expressed between sexes. Then, numerous candidate sex-related genes were identified, including dmrt2, dmrt4, foxl2, zps and starts. Furthermore, 23,941 simple sequence repeats (SSRs) were detected in SSR-containing sequences. This informative transcriptome analysis provides valuable data to increase the genomic resources of S. elongata. [ABSTRACT FROM AUTHOR]

Published

2022

34. Population Genetic Structure of Silver Croakers, Pennahia argentata (Houttuyn, 1782), in the Gulf of Thailand Based on Cytochrome Oxidase Subunit I Gene Sequences.

Author

VERAKIAT SUPMEE and JUTHAMAS SUPPAPAN

Subjects

*CYTOCHROME oxidase, *SCIAENIDAE, *SILVER, *HAPLOGROUPS, *GENETIC variation

Abstract

Genetic information is crucial to manage fish resources, and a good case in point is the population of silver croakers, Pennahia argentata (Houttuyn, 1782), which is economically important for Thailand. In the present study, 102 silver croaker samples were collected along the coast of the Gulf of Thailand and analysed for genetic variation based on nucleotide sequences in the cytochrome oxidase subunit I gene (510 bp). Of these, 33 haplotypes were examined, and 21 were singleton haplotypes, indicating a historical pattern of large female effective population sizes (female reproductive success). An analysis of molecular variance (AMOVA) and pairwise FST analysis showed that the geographic barrier did not affect the genetic structure of the silver croakers in the Gulf of Thailand. The minimum spanning network and phylogenetic tree revealed that the silver croaker population in the Gulf of Thailand separated into two haplogroups. Various methods to examine demographic history showed that the silver croaker population in the Gulf of Thailand had expanded. This study's findings can guide the management of silver croaker populations in the Gulf of Thailand to conserve genetic diversity. [ABSTRACT FROM AUTHOR]

Published

2022

35. Long-term mean biomass and dominant fish species in the bottom and near-bottom biotopes of Peter the Great Bay

Author

L. N. Kim and D. V. Izmyatinsky

Subjects

demersal fish, bottom biotope, ranking, long-term mean biomass, density distribution, zooplankton, peter the great bay, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Biomass and species composition of demersal fish in the bottom biotopes of Peter the Great Bay (Japan Sea) are considered on the data of 2428 trawl catches in 36 surveys conducted by Pacific Res. Inst. of Fisheries and Oceanography (TINRO) in 1978–2009. The most common 20 species are ranked, as the basis of ichthyocenoses, by areas of the bay. The long-term mean total biomass of fish in the bay is estimated as 75,500 t. Arabesque greenling Pleurogrammus azonus, japanese flounder Pseudopleuronectes yokohamae and saffron cod Eleginus gracilis are distinguished by the highest mean biomass. Mean density of fish distribution varied from 6.2 to 19.4 t/km2. It was the highest in the middle Ussuri Bay (13.95 t/km2; mean fish biomass in the area 18,230 t) and in the estuarine areas. Besides, the data on long-term mean biomass of benthos collected in the same trawl surveys and zooplankton sampled in 117 plankton surveys in 1988–2013 are presented.

Published

2021

36. The impact of multiple stressors on coastal biodiversity and associated ecosystem services

Author

Watson, Stephen C. L. and Paterson, David M.

Subjects

577.7, Climate change, Marine systems, Multiple stressors, Biodiversity, Ecosystem services, Ecosystem health, Resilience, Nutrient stress, Ecopath, Ecological indices, Macro-invertebrates, Demersal fish, Waterbirds, QC903.W2, Coastal biodiversity, Climatic change, Nature--Effect of human beings on

Abstract

Marine and coastal ecosystems are subject to diverse and increasingly intensive anthropogenic activities, making understanding cumulative effects critically important. However, accurately accounting for the cumulative effects of human impacts can be difficult, with the possibility of multiple stressors interacting and having greater impacts than expected, compounding direct and indirect effects on individuals, populations, communities and ecosystems. Assessment of multiple stressors therefore requires extensive scientific research that directly tests how single or multiple ecological components are affected by stressors, both singly and when combined, and as a consequence, cumulative effects assessments are now increasingly included in environmental assessments. Currently, there is a need to assess these at larger spatial scales, with additional research also urgently needed on the responses of ecological components, processes and functions to single and cumulative stressors. As cumulative environmental impacts could be better addressed by regional stressor effects assessments that combine methods for predicting multiple pressures on ecosystem recovery alongside degradation, this study used several separate approaches that can be used in parallel to give support for local management measures. I tested four completely different methods - a range of multi-metric indices, a food web model (Ecopath), a predictive model (Ecosim) and a Bayesian Belief Network model. Each approach was tested and compared in two shallow water estuarine systems, in Scotland and England, initially concerning the impact of nutrient enrichment and subsequent recovery and was followed by an investigation of how the addition of multiple stressors (nutrient levels, temperature and river-flow rates) would impact the future state of each system. The response to stressors was highly context dependent, varying between and within geographic locations. Overall, each of the four different approaches complemented each other and gave strong support for the need to make big reductions in the pressures and to consider trade-offs between impacting pressures. The models and tools also indicate that in order to reach an improved overall environmental state of each ecosystem, a focus on nutrient reductions are likely to be the most effective of the controls on stressors explored and that cumulative effects of the management of nutrient inputs and increased water temperatures and river-flow are likely to exist.

Published

2017

37. Abundance and ecological risk of microplastics in commercial fish species from northeastern Mediterranean Sea.

Author

Kılıç, Ece

Subjects

ECOLOGICAL risk assessment, MARINE pollution, PLASTIC marine debris, DISEASE risk factors, GASTROINTESTINAL contents, FISHERIES

Abstract

Microplastic pollution in marine environment has attracted the attention of scientists and policy makers. A substantial number of studies have examined the microplastic content in the gastrointestinal tract (GIT) of fish to monitor microplastic (MP) pollution levels in the ambient environment. The aim of the study was to access the microplastic abundance in the commonly consumed fish species and associated ecological risk assessment for consumers. To that end, microplastic presence in the gills and GIT of Boops boops, Mullus barbatus Mullus surmuletus, Saurida undosquamis, Sardina pilchardus, Trachurus mediterraneus, Pagellus erythrinus, Oblada melanurus, Diplous annularis was investigated. The polymer analysis of extracted MPs were done using Fourier transform infrared (FTIR) spectroscopy. Including all examined specimens, mean MP abundance in the GIT and gills were found as 0.8 ± 1.2 MPs/ind and 0.3 ± 0,7 MPs/ind, respectively. Consistent with the global picture, mainly detected MPs were fiber in shape (79%), black (39%) and blue (37%) in color, and less than 500 μm in size (63%). Polyethylene (21%), polyethylene derivatives (33%) and polypropylene (26%) were the most frequently detected polymers. Ecological risk assessment was calculated by employing polymer risk index, and varied between 4,6 and 27 indicating low to medium hazard risk for examined species. Hazard risk score showed that demersal and bentopelagic fish species were more prone to MP toxicity depending on the toxicity levels of identified polymers. Results indicated that polymer distribution in the marine environment is as significant as the habitat preferences of fish in determining the ecological risk posed by microplastic toxicity. [Display omitted] • Half of the examined specimens contained microplastics in their organs. • Black and blue fiber microplastics were dominant. • Small size microplastics (less than 500 μm) were more common. • Most common polymer types were polyethylene and polypropylene. • Ecological risk assessment revealed that demersal fish species are at higher risk. [ABSTRACT FROM AUTHOR]

Published

2024

38. Microplastics in Organs of Commercial Marine Fishes from Five Fishing Ports in Java Island, Indonesia.

Author

Yona, Defri, Evitantri, Mangesti Reza, Wardana, Danu Setia, Pitaloka, Dyah Ajeng, Ningrum, Diana, Fuad, M. Arif Zainul, Prananto, Yuniar Ponco, Harlyan, Ledhyane Ika, and Isobe, Atsuhiko

Abstract

Microplastics have been found in the marine environment worldwide. Due to their very small size, it could be ingested by marine organisms from small size plankton to big size fish. The aim of this study is to assess the variability of microplastics in three different organs (gills, gastrointestinal tracts, and muscles) of commercial fishes in five different fishing ports in East Java Province, Indonesia. A total of 137 fish samples from 14 species were extracted to identify the types of microplastics. The microplastics found in the fish samples were mostly dominated by fiber, fragments, and a little quantity of film. In most species, the gills accumulated more microplastics compared to the gastrointestinal tracts and muscles. Gill is the organ that is highly exposed to the environmental conditions, therefore, it is more susceptible to the microplastic contamination. The results showed that there was an inverse relationship between the size of the fish and the occurrence of microplastics (P<0.05). Small size Sardinella lemuru contained more microplastics than bigger size fish such as Katsuwonus pelamis. The variability of microplastics found in this study showed important factors such as habitat, fish size, feeding behavior, and organ function which influenced the ingestion process of microplastic. This study also revealed the presence of microplastics were not only in the gills and gastrointestinal tracts of fish, but also in its muscles. Since this study targeted commercial fishes, further research is needed to know the possible impact on human consumption of fish containing microplastics. [ABSTRACT FROM AUTHOR]

Published

2022

39. Strength and consistency of density dependence in marine fish productivity.

Author

Rindorf, Anna, van Deurs, Mikael, Howell, Daniel, Andonegi, Eider, Berger, Aaron, Bogstad, Bjarte, Cadigan, Noel, Elvarsson, Bjarki Þór, Hintzen, Niels, Savina Roland, Marie, Taylor, Marc, Trijoulet, Vanessa, van Kooten, Tobias, Zhang, Fan, and Collie, Jeremy

Subjects

*FISH productivity, *MARINE productivity, *MARINE parks & reserves, *MARINE fishes, *FISHERY management, *DENSITY, *MARINE natural products, *FISH meal

Abstract

The correct prediction of the shape and strength of density dependence in productivity is key to predicting future stock development and providing the best possible long‐term fisheries management advice. Here, we identify unbiased estimators of the relationship between somatic growth, recruitment and density, and apply these to 80 stocks in the Northeast Atlantic. The analyses revealed density‐dependent recruitment in 68% of the stocks. Excluding pelagic stocks exhibiting significant trends in spawning stock biomass, the probability of significant density dependence was even higher at 78%. The relationships demonstrated that at the commonly used biomass limit of 0.2 times maximum spawning stock size, only 32% of the stocks attained three quarters of their maximum recruitment. This leaves 68% of the stocks with less than three quarters of their maximum recruitment at this biomass limit. Significantly lower recruitment at high stock size than at intermediate stock size was seen in 38% of the stocks. Density dependence in late growth occurred in 54% of the stocks, whereas early growth was generally density‐independent. Pelagic stocks were less likely to exhibit density dependence in recruitment than demersal and benthic stocks. We recommend that both the degree to which productivity is related to density and the degree to which the relationship changes over time should be investigated. Both of these aspects should be considered in evaluations of whether sustainability and yield can be improved by including density dependence in forecasts of the effects of different management actions. [ABSTRACT FROM AUTHOR]

Published

2022

40. Modelling the variation of demersal fish distribution in Yellow Sea under climate change.

Author

Zhu, Yugui, Lin, Yuting, Chu, Jiansong, Kang, Bin, Reygondeau, Gabriel, Zhao, Qianshuo, Zhang, Zhixin, Wang, Yunfeng, and Cheung, William W. L.

Subjects

*CLIMATE change, *FISHES, *FISHERIES, *SEAWATER, *MARINE ecology

Abstract

Climate change can affect fish individuals or schools, and consequently the fisheries. Studying future changes of fish distribution and abundance helps the scientific management of fisheries. The dynamic bioclimate envelope model (DBEM) was used to identify the "environmental preference profiles" of the studied species based on outputs from three Earth system models (ESMs). Changes in ocean conditions in climate change scenarios could be transformed by the model into those in relative abundance and distribution of species. Therefore, the distributional response of 17 demersal fishes to climate change in the Yellow Sea could be projected from 1970 to 2060. Indices of latitudinal centroid (LC) and mean temperature of relative abundance (MTRA) were used to represent the results conducted by model. Results present that 17 demersal fish species in the Yellow Sea show a trend of anti-poleward shift under both low-emission scenario (RCP 2.6) and high-emission scenario (RCP 8.5) from 1970 to 2060, with the projected average LC in three ESMs shifting at a rate of −1.17±4.55 and −2.76±3.82 km/decade, respectively, which is contrary to the previous projecting studies of fishes suggesting that fishes tend to move toward higher latitudes under increased temperature scenarios. The Yellow Sea Cold Water Mass could be the major driver resulting in the shift, which shows a potential significance to fishery resources management and marine conservation, and provides a new perspective in fish migration under climate change. [ABSTRACT FROM AUTHOR]

Published

2022

41. New and interesting records of marine fishes (Actinopterygii) from the Maltese Islands (central Mediterranean).

Author

BORG, Joseph A., EVANS, Julian, KNITTWEIS, Leyla, and SCHEMBRI, Patrick J.

Subjects

MARINE fishes, OSTEICHTHYES, ACTINOPTERYGII, SCIENTIFIC literature, LEOPARD, TERRITORIAL waters, GOBIIDAE

Abstract

The occurrence of three bony ray-finned fishes, Thorogobius ephippiatus (Lowe, 1839), Chlopsis bicolor Rafinesque, 1810, and Grammonus ater (Risso, 1810) is reported for the first time in the scientific literature from Maltese coastal waters. The leopard-spotted goby, T. ephippiatus, was mostly recorded within the 8-32 m depth range on soft sediment and rocky bottoms within caves, but one individual was recorded on a rocky bottom with a thin layer of silt at a depth of 117 m where no cave was present. The bicolour eel, C. bicolor, was recorded within the 318-518 m depth range on rocky bottoms covered with a thin layer of muddy-detritic sediment; and the cusk-eel G. ater was recorded at a depth of 10 m within a cave. Notes on these three species as well as on another bony fish, the Azores rockling, Gaidropsarus granti (Regan, 1903), including new information on their bathymetric range and habitat association, are presented. [ABSTRACT FROM AUTHOR]

Published

2022

42. Climate Warming and Mismanagement Drive the Shift of Fish Communities in the Wadi El-Rayan Arid Lakes

Author

Universidad de Alicante. Departamento de Ciencias del Mar y Biología Aplicada, Abdelhady, Ahmed A., Samy-Kamal, Mohamed, Ismail, Esam, Hussain, Ali M., Gamvroula, Dimitra E., Ali, Ahmed, Ahmed, Mohamed S., Abdel-Raheem, Khalaf H.M., Saibi, Hakim, Sami, Mabrouk, Alexakis, Dimitrios E., Khalil, Mahmoud M., Universidad de Alicante. Departamento de Ciencias del Mar y Biología Aplicada, Abdelhady, Ahmed A., Samy-Kamal, Mohamed, Ismail, Esam, Hussain, Ali M., Gamvroula, Dimitra E., Ali, Ahmed, Ahmed, Mohamed S., Abdel-Raheem, Khalaf H.M., Saibi, Hakim, Sami, Mabrouk, Alexakis, Dimitrios E., and Khalil, Mahmoud M.

Abstract

The Wadi El-Rayan lakes are important aquatic environments located at the border of the great North African Sahara. Quantifying the temporal changes in these lakes due to natural and/or anthropogenic stressors is critical when assessing potential impacts on aquatic ecosystem health and the sustainability of fisheries. To detect the changes in fish communities and their drivers, the landing composition of the Wadi El-Rayan lakes over the past 30 years was quantitatively analyzed. The areas of the lakes dramatically decreased from 110 km2 in 1991 to 73 km2 in 2019. The loss of the lake area was attributed to climate warming, where the evaporation rate exceeded the volume of recharge and the recharge decreased due to an increase in agriculture and aquaculture. The total landing significantly increased in the past three decades due to an increase in the fishing effort (number of licensed boats). Nile tilapia, mullet, and grass carp dominated the landings. The pelagic-to-demersal ratio indicated a shift in the fish community composition towards demersal species. This shift was attributed to an increase in the eutrophication level. The fish communities of the landing data were clustered into four distinct groups. These clusters were significantly differentiated (p < 0.001) in both a PERMANOVA test and a PCA plot. There was a gradual replacement of the dominant species among these clusters. The most recent cluster (2018–2019) was characterized by rare species dominating the community. This shift in species composition suggests that target taxa may have been overexploited. The total landing also decreased, which may have been a result of climate warming. Furthermore, the presence of alien and warm-water species significantly increased. The fish community structure and composition shift could be attributed to anthropogenic (mismanagement) and natural climatic changes (warming).

Published

2024

43. Long-term dynamics of biomass and dominant species of the bottom fish complex in Peter the Great Bay

Author

P. V. Kalchugin

Subjects

peter the great bay, fish stock assessment, fish biomass dynamics, dominant species, demersal fish, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Dynamics of demersal fish biomass is considered on results of trawl surveys conducted in Peter the Great Bay (Japan Sea) in 1977-2015. Fishery did not have a significant impact on this complex of fish species, including both fluctuating species (walleye pollock, arabesque greenling, pacific herring) and species with stable stock, because of low intensity. Annual landings in the bay were much lower than recommended volumes (TAC). However, a tendency to the total biomass decreasing was observed, accompanied with growth of the sculpins (Cottidae) portion in the ratio of species biomass. The sculpins prey on juveniles of many other species, so maybe their higher abundance was one of reasons for general depletion of the benthic fish community. Other predators, as marine mammals, were not abundant in Peter the Great Bay. For rational resource management, the fishery impact should be distributed proportionally between populations, taking into account their state, so both traditional commercial objects and predators with growing abundance should be landed. This ecosystem approach requires permanent monitoring to all groups of fish species.

Published

2021

44. Modern state of stocks for demersal and pelagic fishes on the shelf of Olyutorsky-Navarin area

Author

A. B. Savin

Subjects

northwestern bering sea, bering sea shelf, demersal fish, pelagic fish, fish stock, biomass dynamics, spatial distribution, bathymetric distribution, pacific cod, walleye pollock, Aquaculture. Fisheries. Angling, SH1-691

Abstract

Stocks of demersal and pelagic fish species are assessed for the bottom layer over the outer shelf and upper continental slope between Cape Olyutorsky and Cape Navarin (northwestern Bering Sea) on the data of bottom trawl survey conducted aboard RV Professor Levanidov over the isobaths 20-400 m in the summer of 2019. The total biomass of demersal fish in the surveyed polygon was estimated as 682,262 t; the portion of pacific cod was 51.50 %, arrowtooth flounder — 9.80 %, great sculpin — 9.64 %, rock sole — 4.60 %, alaska skate — 4.57 %, flathead flounders — 2.56 %, yellow irish lord — 2.30 %, and < 2 % for other species. The total biomass of pelagic fish species in the bottom layer was estimated as 759,639 t (species-specific coefficients of catchability were used); the portion of adult walleye pollock was 85.12 %, its juveniles — 9.94 %, pacific herring — 4.67 %, and other pelagic species — 0.27 % in sum. Mean ratios of the species stock between the surveyed polygon and other areas of the northwestern Bering Sea, as the Gulf of Anadyr and the deeper continental slope (below 400 m), were evaluated using the data of bottom trawl surveys conducted in 2005-2017. Some species as yellow irish lord, saffron cod, pacific halibut, arrowtooth flounder, great sculpin, kamchatka flounder, rock sole, and aleutian skate distributed mostly within the polygon and their mean biomass in the outside areas varied from 0.5 % to 69.2 % relative to the biomass in the polygon surveyed in 2019. On the contrary, the portions of pacific cod, greenland halibut, alaska skate, and walleye pollock were larger outside the polygon — from 102.9 to 190.4 %, and almost entire stocks were in the outside areas for alaska plaice, flathead flounders, and pacific herring — from 533.4 % to 1380.5 % relative to the biomass accounted within the polygon. The stocks assessed in 2019 reflected both the state of populations and their spatial and bathymetric redistribution, mostly because of the St. Lawrence Cold Water Pool shrinkage at the bottom of the Gulf of Anadyr. The stocks fluctuations are reasoned mainly by natural factors, rather than fishery impact.

Published

2021

45. Towards an Ecosystem Approach to Assess the Impacts of Marine Renewable Energy

Author

Pezy, Jean-Philippe, Raoux, Aurore, Niquil, Nathalie, Dauvin, Jean-Claude, Bispo, Regina, editor, Bernardino, Joana, editor, Coelho, Helena, editor, and Lino Costa, José, editor

Published

2019

46. Demersal fish diversity and molecular taxonomy in the Bering Sea and Chukchi Sea.

Author

Li, Hai, Yang, Fang, Wang, Xuehua, Li, Yuan, Zhang, Nan, Zhang, Ran, Liu, Cheng, Zhang, Hushun, Lin, Longshan, and Song, Puqing

Abstract

DNA barcoding by sequencing a standard region of cytochrome c oxidase subunit I (COI) provides an accurate, rapid method for identifying different species. In this study, we provide a molecular taxonomic assessment of demersal fishes in the Bering Sea and Chukchi Sea based on DNA barcoding, and a total of 123 mitochondrial COI partial fragments with a length of 652 bp were obtained. The consensus among all sequences was determined by alignment via a BLAST search in GenBank. Phylogenetic relationships were reconstructed based on neighbor-joining trees and barcoding gaps. The 39 species investigated in this analysis were distributed among 10 families. Five families within Scorpaeniformes including 19 species accounted for almost half of the species. The next largest group was Perciformes, with 9 species, followed by Pleuronectiformes and Gadiformes, with 5 species each, and the smallest number of species belonged to Rajiformes. At the family level, Cottidae was the largest family, followed by Zoarcidae, accounting for 8 species. The other eight families—Gadidae, Pleuronectidae, Psychrolutidae, Agonidae, Liparidae, Ammodytidae, Hexagrammidae, and Rajidae—accounted for a smaller proportion of species. In brief, our study shows that DNA barcodes are an effective tool for studying fish diversity and taxonomy in the Bering Sea and Chukchi Sea. The contribution of DNA barcoding to identifying Arctic fish species may benefit further Arctic fish studies on biodiversity, biogeography and conservation in the future. [ABSTRACT FROM AUTHOR]

Published

2022

47. Parasites of Three Closely Related Antarctic Fish Species (Teleostei: Nototheniinae) from Elephant Island.

Author

Alt, Katharina G., Cunze, Sarah, Kochmann, Judith, and Klimpel, Sven

Subjects

PARASITE life cycles, PARASITES, MARINE habitats, HABITATS, SPECIES, RESEARCH vessels

Abstract

Background: Studies of parasite communities and patterns in the Antarctic are an important knowledge base with the potential to track shifts in ecological relations and study the effects of climate change on host–parasite systems. Endemic Nototheniinae is the dominant fish group found in Antarctic marine habitats. Through their intermediate position within the food web, Nototheniinae link lower to higher trophic levels and thereby also form an important component of parasite life cycles. The study was set out to gain insight into the parasite fauna of Nototheniops larseni, N. nudifrons and Lepidonotothen squamifrons (Nototheniinae) from Elephant Island (Antarctica). Methods: Sampling was conducted at three locations around Elephant Island during the ANT-XXVIII/4 expedition of the research vessel Polarstern. The parasite fauna of three Nototheniine species was analysed, and findings were compared to previous parasitological and ecological research collated from a literature review. Results: All host species shared the parasites Neolebouria antarctica (Digenea), Corynosoma bullosum (Acanthocephala) and Pseudoterranova decipiens E (Nematoda). Other parasite taxa were exclusive to one host species in this study. Nototheniops nudifrons was infected by Ascarophis nototheniae (Nematoda), occasional infections of N. larseni with Echinorhynchus petrotschenkoi (Acanthocephala) and L. squamifrons with Elytrophalloides oatesi (Digenea) and larval tetraphyllidean Cestoda were detected. Conclusion: All examined fish species' parasites were predominantly euryxenous regarding their fish hosts. The infection of Lepidonotothen squamifrons with Lepidapedon garrardi (Digenea) and Nototheniops larseni with Echinorhynchus petrotschenkoi represent new host records. Despite the challenges and limited opportunities for fishing in remote areas, future studies should continue sampling on a more regular basis and include a larger number of fish species and sampling sites within different habitats. [ABSTRACT FROM AUTHOR]

Published

2022

48. The Socio-economic Conditions of Fishers on Indonesia's Beeng Laut Island.

Author

Sarapil, Costantein Imanuel, Kumaseh, Eunike Irene, and Mozes, Getruida Nita

Subjects

*SEAFOOD markets, *ICE fishing, *ISLANDS, *MARKETING channels, *MARKETING, *FISH populations

Abstract

This study aimed to determine the socio-economic conditions related to marketing margins of demersal fish in Beeng Laut Isiand, Sangihe Archipelago Regency, North Sulawesi Province, Indonesia, using survey methods with interview and questionnaire techniques. Most fishers on Beeng Laut Island have a primary school education, houses constructed using wood, and an age range of 20 to 30 years. Margin marketing demersal fish on Channel marketing III (P à Pp à Pe à Ka) and Channel IV (P à Pp à Rm à Ka) is inefficient due to the limited electricity supply. This has an indirect effect on fish quality due to a lack of readily available ice to handle catches. Increased demersal fish marketing efficiency may result in a significant revenue for fishers. Therefore, the government should boost energy availability to enable people create and purchase ice to aid with fish preservation. It should also establish cooperatives for fishers and provide alternative work, such as conservation activities or marine tourism development. [ABSTRACT FROM AUTHOR]

Published

2022

49. Testing the Improvement of Coral Reef Associated Fish Distribution Models Based on Multibeam Bathymetry by Adding Seafloor Backscatter Data

Author

Marcela Montserrat Landero Figueroa, Miles J. G. Parsons, Benjamin J. Saunders, Ben Radford, and Iain M. Parnum

Subjects

demersal fish, habitat models, multibeam, seafloor backscatter, bathymetry, depth derivatives, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Demersal fishes constitute an essential component of the continental shelf ecosystem, and a significant element of fisheries catch around the world. However, collecting distribution and abundance data of demersal fish, necessary for their conservation and management, is usually expensive and logistically complex. The increasing availability of seafloor mapping technologies has led to the opportunity to exploit the strong relationship demersal fish exhibit with seafloor morphology to model their distribution. Multibeam echo-sounder (MBES) systems are a standard method to map seafloor morphology. The amount of acoustic energy reflected by the seafloor (backscatter) is used to estimate specific characteristics of the seafloor, including acoustic hardness and roughness. MBES data including bathymetry and depth derivatives were used to model the distribution of Abalistes stellatus, Gymnocranius grandoculis, Lagocephalus sceleratus, Lethrinus miniatus, Loxodon macrorhinus, Lutjanus sebae, and Scomberomorus queenslandicus. The possible improvement of model accuracy by adding the seafloor backscatter was tested in three different areas of the Ningaloo Marine Park off the west coast of Australia. For the majority of species, depth was a primary variable explaining their distribution in the three study sites. Backscatter was identified to be an important variable in the models, but did not necessarily lead to a significant improvement in the demersal fish distribution models’ accuracy. Possible reasons for this include: the depth and derivatives were capturing the significant changes in the habitat, or the acoustic data collected with a high-frequency MBES were not capturing accurately relevant seafloor characteristics associated with the species distribution. The improvement in the accuracy of the models for certain species using data already available is an encouraging result, which can have a direct impact in our ability to monitor these species.

Published

2021

50. The Long-Term Dynamics of Biomass and Dominant Species of the Demersal Fish Community in Peter the Great Bay.

Author

Kalchugin, P. V.

Abstract

The dynamics of demersal fish biomass is considered based on the results of trawl surveys conducted in 1977–2015. An analysis of the status of fish stocks has shown that fishing pressure did not have a significant impact on the dynamics of their biomass and abundance. This applies not only to the fluctuating species (walleye pollock, arabesque greenling, and Pacific herring) but also to the species with weakly pronounced dynamics. Low estimates were obtained for the bay during the period of low intensity of fishing, when its pressure was at its minimum. Not only did a decrease in biomass estimates occur at that time, there was also a change in the proportions of species in catches: the biomass of cottids substantially increased, which apparently greatly influenced the variation in the biomass of commercial species, since their young made up a significant portion in the diets of cottid fishes. With a decrease in the intensity of fishery activity, the roles of abiotic and biotic factors, including predation, which have effects on variations in the biomass and abundance of fish, increases. The fishing pressure in the bay is significantly lower than recommended; for this reason, the fish biomass and abundance dynamics are influenced to a greater extent by the climatic, oceanological, and ecological conditions of reproduction and trophic relationships. Due to the low number of such consumers as marine mammals in Peter the Great Bay, the group of predatory fish, with cottids constituting its major part, is ranked first. Based on the ecosystem approach to resource management, sizes of landings should be distributed proportionally, taking the status of populations of not only traditional target species of fisheries, but also predators feeding on them and competitors into account. This requires continuous monitoring of the communities. [ABSTRACT FROM AUTHOR]

Published

2021