Search

Your search keyword '"Järnegren J"' showing total 15 results
Start Over Author "Järnegren J"
15 results on '"Järnegren J"'

1. Computer vision enables short- and long-term analysis of Lophelia pertusa polyp behaviour and colour from an underwater observatory

Author

Osterloff, J., Nilssen, I., Järnegren, J., van Engeland, T., Buhl-Mortensen, P., Nattkemper, T.W., Osterloff, J., Nilssen, I., Järnegren, J., van Engeland, T., Buhl-Mortensen, P., and Nattkemper, T.W.

Abstract

An array of sensors, including an HD camera mounted on a Fixed Underwater Observatory (FUO) were used to monitor a cold-water coral (Lophelia pertusa) reef in the Lofoten-Vesterålen area from April to November 2015. Image processing and deep learning enabled extraction of time series describing changes in coral colour and polyp activity (feeding). The image data was analysed together with data from the other sensors from the same period, to provide new insights into the short- and long-term dynamics in polyp features. The results indicate that diurnal variations and tidal current influenced polyp activity, by controlling the food supply. On a longer time-scale, the coral’s tissue colour changed from white in the spring to slightly red during the summer months, which can be explained by a seasonal change in food supply. Our work shows, that using an effective integrative computational approach, the image time series is a new and rich source of information to understand and monitor the dynamics in underwater environments due to the high temporal resolution and coverage enabled with FUOs.

Published
2019

3. Tissue-associated 'Candidatus Mycoplasma corallicola' and Filamentous bacteria on the cold-water coral Lophelia pertusa (Scleractinia)

Author

Neulinger, Sven, Gärtner, Andrea, Järnegren, J., Ludvigsen, M., Lochte, Karin, Dullo, Wolf-Christian, Neulinger, Sven, Gärtner, Andrea, Järnegren, J., Ludvigsen, M., Lochte, Karin, and Dullo, Wolf-Christian

Abstract

The cold-water coral Lophelia pertusa (Scleractinia, Caryophylliidae) is a key species in the formation of cold-water reefs, which are among the most diverse deep-sea ecosystems. It occurs in two color varieties: white and red. Bacterial communities associated with Lophelia have been investigated in recent years, but the role of the associated bacteria remains largely obscure. This study uses catalyzed reporter deposition fluorescence in situ hybridization to detect the in situ location of specific bacterial groups on coral specimens from the Trondheimsfjord (Norway). Two tissue-associated groups were identified: (i) bacteria on the host's tentacle ectoderm, “Candidatus Mycoplasma corallicola,” are flasklike, pointed cells and (ii) endoderm-associated bona fide TM7 bacteria form long filaments in the gastral cavity. These tissue-bound bacteria were found in all coral specimens from the Trondheimsfjord, indicating a closer relationship with the coral compared to bacterial assemblages present in coral mucus and gastric fluid.

Published
2009
Full Text
View/download PDF

4. Phenotype-Specific Bacterial Communities in the Cold-Water Coral Lophelia pertusa (Scleractinia) and Their Implications for the Corals Nutrition, Health, and Distribution

Author

Neulinger, S. C., Järnegren, J., Ludvigsen, M., Lochte, Karin, Dullo, W.-C., Neulinger, S. C., Järnegren, J., Ludvigsen, M., Lochte, Karin, and Dullo, W.-C.

Abstract

The pseudocolonial coral Lophelia pertusa (Scleractinia, Caryophylliidae) is a eurybathic, stenothermal cosmopolitancold-water species. It occurs in two color varieties, white and red. L. pertusa builds vast cold-water coral reefsalong the continental margins, which are among the most diverse deep-sea habitats. Microbiology of L. pertusa hasbeen in scientific focus for only a few years, but the question of whether the coral holds a host-specific bacterialcommunity has not been finally answered. Bacteria on coral samples from the Trondheimsfjord (Norway) werecharacterized by the culture-independent 16S rRNA gene-based techniques terminal restriction fragment lengthpolymorphism and sequence analysis. L. pertusa revealed a high microbial richness. Clone sequences were dominatedby members of the Alpha- and Gammaproteobacteria. Other abundant taxa were Bacteroidetes, Actinobacteria,Verrucomicrobia, Firmicutes, and Planctomycetes. The bacterial community of L. pertusa not only differed conspicuouslyfrom that of the environment but also varied with both the location and color variety of its host. Therefore,the microbial colonization cannot be termed specific sensu stricto. However, similarities to other coral-bacteriumassociations suggest the existence of cold-water coral-specific bacterial groups sensu lato. L. pertusa-associatedbacteria appear to play a significant role in the nutrition of their host by degradation of sulfur compounds, cellulose,chitin, and end products of the corals anaerobic metabolism. Some coral-associated microbes were regarded asopportunistic pathogens. Dominance of mixotrophic members of the Rhodobacteraceae in white L. pertusa couldexplain the wider dispersal of this phenotype by supplementary nutrition.

Published
2008

5. Phenotype-specific bacterial communities in the cold-water coral Lophelia pertusa (Scleractinia) and their implications for the coral's nutrition, health, and distribution

Author

Neulinger, Sven, Järnegren, J., Ludvigsen, M., Lochte, Karin, Dullo, Wolf-Christian, Neulinger, Sven, Järnegren, J., Ludvigsen, M., Lochte, Karin, and Dullo, Wolf-Christian

Abstract

The pseudocolonial coral Lophelia pertusa (Scleractinia, Caryophylliidae) is a eurybathic, stenothermal cosmopolitan cold-water species. It occurs in two color varieties, white and red. L. pertusa builds vast cold-water coral reefs along the continental margins, which are among the most diverse deep-sea habitats. Microbiology of L. pertusa has been in scientific focus for only a few years, but the question of whether the coral holds a host-specific bacterial community has not been finally answered. Bacteria on coral samples from the Trondheimsfjord (Norway) were characterized by the culture-independent 16S rRNA gene-based techniques terminal restriction fragment length polymorphism and sequence analysis. L. pertusa revealed a high microbial richness. Clone sequences were dominated by members of the Alpha- and Gammaproteobacteria. Other abundant taxa were Bacteroidetes, Actinobacteria, Verrucomicrobia, Firmicutes, and Planctomycetes. The bacterial community of L. pertusa not only differed conspicuously from that of the environment but also varied with both the location and color variety of its host. Therefore, the microbial colonization cannot be termed “specific” sensu stricto. However, similarities to other coral-bacterium associations suggest the existence of “cold-water coral-specific” bacterial groups sensu lato. L. pertusa-associated bacteria appear to play a significant role in the nutrition of their host by degradation of sulfur compounds, cellulose, chitin, and end products of the coral's anaerobic metabolism. Some coral-associated microbes were regarded as opportunistic pathogens. Dominance of mixotrophic members of the Rhodobacteraceae in white L. pertusa could explain the wider dispersal of this phenotype by supplementary nutrition.

Published
2008
Full Text
View/download PDF

8. Effects and recovery of larvae of the cold-water coral Lophelia pertusa (Desmophyllum pertusum) exposed to suspended bentonite, barite and drill cuttings.

Author

Järnegren J, Brooke S, and Jensen H

Subjects
Animals, Ecosystem, Geologic Sediments, Larva, Oil and Gas Industry, Anthozoa, Barium Sulfate toxicity, Bentonite toxicity
Abstract

Fossil fuel drilling operations create sediment plumes and release waste materials into the ocean. These operations sometimes occur close to sensitive marine ecosystems, such as cold-water corals. While there have been several studies on the effects of energy industry activities on adult corals, there is very little information on potential impacts to their early life history stages. Larval stages of many marine organisms, including cold-water corals use cilia as a means of feeding and swimming, and if these structures become clogged with suspended particulates, the larvae may sink and be lost to the system. The objective of this study was to understand the response of Lophelia pertusa larvae to a different drilling waste components, and assess post-exposure recovery. Larvae of two ages (eight and 21 days) were exposed to a range of concentrations of bentonite, barite and drill cuttings. Larval sensitivity was assessed using the concentration at which 50% of the larvae showed behavioral effects (EC 50 ) or lethal effects (LC 50 ). Larvae showed greatest sensitivity to bentonite, followed by barite and drill cuttings, and also showed age-related responses that differed among the test materials. Post exposure recovery was variable across materials, with larvae exposed to bentonite having the lowest recovery rates. Understanding the vulnerability of early life history stages to human activities can help inform management strategies to preserve reproductive capacity of important marine ecosystems., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2020
Full Text
View/download PDF

9. Computer vision enables short- and long-term analysis of Lophelia pertusa polyp behaviour and colour from an underwater observatory.

Author

Osterloff J, Nilssen I, Järnegren J, Van Engeland T, Buhl-Mortensen P, and Nattkemper TW

Subjects
Animals, Biodiversity, Color, Deep Learning, Geologic Sediments, Seawater, Anthozoa physiology, Coral Reefs, Feeding Behavior physiology, Video Recording
Abstract

An array of sensors, including an HD camera mounted on a Fixed Underwater Observatory (FUO) were used to monitor a cold-water coral (Lophelia pertusa) reef in the Lofoten-Vesterålen area from April to November 2015. Image processing and deep learning enabled extraction of time series describing changes in coral colour and polyp activity (feeding). The image data was analysed together with data from the other sensors from the same period, to provide new insights into the short- and long-term dynamics in polyp features. The results indicate that diurnal variations and tidal current influenced polyp activity, by controlling the food supply. On a longer time-scale, the coral's tissue colour changed from white in the spring to slightly red during the summer months, which can be explained by a seasonal change in food supply. Our work shows, that using an effective integrative computational approach, the image time series is a new and rich source of information to understand and monitor the dynamics in underwater environments due to the high temporal resolution and coverage enabled with FUOs.

Published
2019
Full Text
View/download PDF

10. Embryogenesis and larval biology of the cold-water coral Lophelia pertusa.

Author

Larsson AI, Järnegren J, Strömberg SM, Dahl MP, Lundälv T, and Brooke S

Subjects
Animals, Anthozoa genetics, Anthozoa physiology, Atlantic Ocean, Behavior, Animal, Cold Temperature, DNA genetics, Genetic Markers genetics, Larva genetics, Larva growth & development, Larva physiology, Models, Biological, Reproduction, Swimming, Water, Anthozoa embryology, Embryonic Development
Abstract

Cold-water coral reefs form spectacular and highly diverse ecosystems in the deep sea but little is known about reproduction, and virtually nothing about the larval biology in these corals. This study is based on data from two locations of the North East Atlantic and documents the first observations of embryogenesis and larval development in Lophelia pertusa, the most common framework-building cold-water scleractinian. Embryos developed in a more or less organized radial cleavage pattern from ∼ 160 µm large neutral or negatively buoyant eggs, to 120-270 µm long ciliated planulae. Embryogenesis was slow with cleavage occurring at intervals of 6-8 hours up to the 64-cell stage. Genetically characterized larvae were sexually derived, with maternal and paternal alleles present. Larvae were active swimmers (0.5 mm s(-1)) initially residing in the upper part of the water column, with bottom probing behavior starting 3-5 weeks after fertilization. Nematocysts had developed by day 30, coinciding with peak bottom-probing behavior, and possibly an indication that larvae are fully competent to settle at this time. Planulae survived for eight weeks under laboratory conditions, and preliminary results indicate that these planulae are planktotrophic. The late onset of competency and larval longevity suggests a high dispersal potential. Understanding larval biology and behavior is of paramount importance for biophysical modeling of larval dispersal, which forms the basis for predictions of connectivity among populations.

Published
2014
Full Text
View/download PDF

11. Does boat traffic cause displacement of fish in estuaries?

Author

Becker A, Whitfield AK, Cowley PD, Järnegren J, and Næsje TF

Subjects
Animals, Ecosystem, Environmental Monitoring, Estuaries, Fishes physiology, Recreation, Ships
Abstract

Estuaries are increasingly under threat from a variety of human impacts. Recreational and commercial boat traffic in urban areas may represent a significant disturbance to fish populations and have particularly adverse effects in spatially restricted systems such as estuaries. We examined the effects of passing boats on the abundance of different sized fish within the main navigation channel of an estuary using high resolution sonar (DIDSON). Both the smallest (100-300 mm) and largest (>501 mm) size classes had no change in their abundance following the passage of boats. However, a decrease in abundance of mid-sized fish (301-500 mm) occurred following the passage of boats. This displacement may be attributed to a number of factors including noise, bubbles and the rapidly approaching object of the boat itself. In highly urbanised estuarine systems, regular displacement by boat traffic has the potential to have major negative population level effects on fish assemblages., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2013
Full Text
View/download PDF

12. Pigmentation and spectral absorbance signatures in deep-water corals from the Trondheimsfjord, Norway.

Author

Elde AC, Pettersen R, Bruheim P, Järnegren J, and Johnsen G

Subjects
Animals, Anthozoa metabolism, Canthaxanthin metabolism, Carotenoids metabolism, Chromatography, High Pressure Liquid methods, Mass Spectrometry methods, Norway, Pigmentation, Pigments, Biological metabolism, Xanthophylls chemistry, Xanthophylls metabolism, Anthozoa chemistry, Canthaxanthin chemistry, Carotenoids chemistry, Pigments, Biological chemistry, Water chemistry
Abstract

The pigmentation and corresponding in vivo and in vitro absorption characteristics in three different deep-water coral species: white and orange Lophelia pertusa, Paragorgia arborea and Primnoa resedaeformis, collected from the Trondheimsfjord are described. Pigments were isolated and characterized by High-Performance Liquid Chromatography (HPLC) analysis and High-Performance Liquid Chromatography Time-Of-Flight Mass Spectrometer (LC-TOF MS). The main carotenoids identified for all three coral species were astaxanthin and a canthaxanthin-like carotenoid. Soft tissue and skeleton of orange L. pertusa contained 2 times more astaxanthin g(-1) wet weight compared to white L. pertusa. White and orange L. pertusa were characterized with in vivo absorbance peaks at 409 and 473 nm, respectively. In vivo absorbance maxima for P. arborea and P. resedaeformis was typically at 475 nm. The shapes of the absorbance spectra (400-700 nm) were species-specific, indicated by in vivo, in vitro and the corresponding difference spectra. The results may provide important chemotaxonomic information for pigment when bonded to their proteins in vivo, bio-prospecting, and for in situ identification, mapping and monitoring of corals.

Published
2012
Full Text
View/download PDF

13. Tissue-associated "Candidatus Mycoplasma corallicola" and filamentous bacteria on the cold-water coral Lophelia pertusa (Scleractinia).

Author

Neulinger SC, Gärtner A, Järnegren J, Ludvigsen M, Lochte K, and Dullo WC

Subjects
Animals, Bacteria classification, Bacteria genetics, In Situ Hybridization, Fluorescence methods, Norway, Anthozoa microbiology, Bacteria isolation & purification
Abstract

The cold-water coral Lophelia pertusa (Scleractinia, Caryophylliidae) is a key species in the formation of cold-water reefs, which are among the most diverse deep-sea ecosystems. It occurs in two color varieties: white and red. Bacterial communities associated with Lophelia have been investigated in recent years, but the role of the associated bacteria remains largely obscure. This study uses catalyzed reporter deposition fluorescence in situ hybridization to detect the in situ location of specific bacterial groups on coral specimens from the Trondheimsfjord (Norway). Two tissue-associated groups were identified: (i) bacteria on the host's tentacle ectoderm, "Candidatus Mycoplasma corallicola," are flasklike, pointed cells and (ii) endoderm-associated bona fide TM7 bacteria form long filaments in the gastral cavity. These tissue-bound bacteria were found in all coral specimens from the Trondheimsfjord, indicating a closer relationship with the coral compared to bacterial assemblages present in coral mucus and gastric fluid.

Published
2009
Full Text
View/download PDF

14. Phenotype-specific bacterial communities in the cold-water coral Lophelia pertusa (Scleractinia) and their implications for the coral's nutrition, health, and distribution.

Author

Neulinger SC, Järnegren J, Ludvigsen M, Lochte K, and Dullo WC

Subjects
Animals, Bacteria genetics, Cellulose metabolism, Chitin metabolism, DNA Fingerprinting, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Genes, rRNA, Molecular Sequence Data, Norway, Phylogeny, Polymorphism, Restriction Fragment Length, RNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Sequence Homology, Nucleic Acid, Sulfur Compounds metabolism, Anthozoa microbiology, Anthozoa physiology, Bacteria classification, Bacteria isolation & purification, Biodiversity
Abstract

The pseudocolonial coral Lophelia pertusa (Scleractinia, Caryophylliidae) is a eurybathic, stenothermal cosmopolitan cold-water species. It occurs in two color varieties, white and red. L. pertusa builds vast cold-water coral reefs along the continental margins, which are among the most diverse deep-sea habitats. Microbiology of L. pertusa has been in scientific focus for only a few years, but the question of whether the coral holds a host-specific bacterial community has not been finally answered. Bacteria on coral samples from the Trondheimsfjord (Norway) were characterized by the culture-independent 16S rRNA gene-based techniques terminal restriction fragment length polymorphism and sequence analysis. L. pertusa revealed a high microbial richness. Clone sequences were dominated by members of the Alpha- and Gammaproteobacteria. Other abundant taxa were Bacteroidetes, Actinobacteria, Verrucomicrobia, Firmicutes, and Planctomycetes. The bacterial community of L. pertusa not only differed conspicuously from that of the environment but also varied with both the location and color variety of its host. Therefore, the microbial colonization cannot be termed "specific" sensu stricto. However, similarities to other coral-bacterium associations suggest the existence of "cold-water coral-specific" bacterial groups sensu lato. L. pertusa-associated bacteria appear to play a significant role in the nutrition of their host by degradation of sulfur compounds, cellulose, chitin, and end products of the coral's anaerobic metabolism. Some coral-associated microbes were regarded as opportunistic pathogens. Dominance of mixotrophic members of the Rhodobacteraceae in white L. pertusa could explain the wider dispersal of this phenotype by supplementary nutrition.

Published
2008
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results