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1. Natural hypoxic conditions do not affect the respiration rates of the cold-water coral Desmophyllum pertusum (Lophelia pertusa) living in the Angola margin (Southeastern Atlantic Ocean)

Author: Gori, A., Orejas, C., Mienis, F., Ferrier-Pagès, C., Bilan, M., Flöter, S., Reynaud, S., Sweetman, A.K., Roberts, J.M., Wienberg, C., Hebbeln, D., Gori, A., Orejas, C., Mienis, F., Ferrier-Pagès, C., Bilan, M., Flöter, S., Reynaud, S., Sweetman, A.K., Roberts, J.M., Wienberg, C., and Hebbeln, D.
Abstract: Large, well-developed and flourishing reefs dominated by the cold-water coral Desmophyllum pertusum have recently been discovered along the Angola margin in the southeastern Atlantic Ocean living under very low oxygen concentrations (0.6–1.5 mL L−1). This study assessed the respiration rates of this coral in a short-term (10 days) aquarium experiment under naturally low oxygen concentrations (1.4 ± 0.5 mL L−1) as well as under saturated oxygen concentrations (6.1 ± 0.6 mL L−1). We found no significant difference in respiration rates between the two oxygen concentrations. Furthermore, the respiration rates of D. pertusum were in the same order of magnitude as those of the same species living under normoxic conditions in other areas. This work expands the current knowledge on the metabolic activity of cold-water corals under hypoxic conditions, evidencing that low oxygen conditions are not a general limiting factor for the overall distribution of D. pertusum.
Published: 2023

2. Review of the Central and South Atlantic offshore and deep-sea benthos: Science, policy and management

Author: Hawkins, S.J., Todd, P.A., Russell, B.D., Bridges, A.E.H., Howell, K.L., Amaro, T., Atkinson, L., Barnes, D.K.A., Bax, N., Bell, J.B., Bernardino, A.F., Beuck, L., Braga-Henriques, A., Brandt, A., Bravo, M.E., Brix, S., Butt, S., Carranza, A., Doti, B.L., Elegbede, I.O., Esquete, P., Freiwald, A., Gaudron, S.M., Guilhon, M., Hebbeln, D., Horton, T., Kainge, P., Kaiser, S., Lauretta, D., Limongi, P., McQuaid, K.A., Milligan, R.J., Miloslavich, P., Narayanaswamy, B.E., Orejas, C., Paulus, S., Pearman, T.R.R., Perez, J.A., Ross, R.E., Saeedi, H., Shimabukuro, M., Sink, K., Stevenson, A., Taylor, A., Titschack, J., Vieira, R.P., Vinha, B., Wienberg, C., Hawkins, S.J., Todd, P.A., Russell, B.D., Bridges, A.E.H., Howell, K.L., Amaro, T., Atkinson, L., Barnes, D.K.A., Bax, N., Bell, J.B., Bernardino, A.F., Beuck, L., Braga-Henriques, A., Brandt, A., Bravo, M.E., Brix, S., Butt, S., Carranza, A., Doti, B.L., Elegbede, I.O., Esquete, P., Freiwald, A., Gaudron, S.M., Guilhon, M., Hebbeln, D., Horton, T., Kainge, P., Kaiser, S., Lauretta, D., Limongi, P., McQuaid, K.A., Milligan, R.J., Miloslavich, P., Narayanaswamy, B.E., Orejas, C., Paulus, S., Pearman, T.R.R., Perez, J.A., Ross, R.E., Saeedi, H., Shimabukuro, M., Sink, K., Stevenson, A., Taylor, A., Titschack, J., Vieira, R.P., Vinha, B., and Wienberg, C.
Published: 2023

3. Local-scale feedbacks influencing cold-water coral growth and subsequent reef formation

Author: Corbera, G., Lo Iacono, C., Simarro, G., Grinyó, J, Ambroso, S., Huvenne, V.A.I., Mienis, F., Carreiro-Silva, M., Martins, I., Mano, B., Orejas, C., Larsson, A., Hennige, S., Gori, A., Corbera, G., Lo Iacono, C., Simarro, G., Grinyó, J, Ambroso, S., Huvenne, V.A.I., Mienis, F., Carreiro-Silva, M., Martins, I., Mano, B., Orejas, C., Larsson, A., Hennige, S., and Gori, A.
Abstract: Despite cold-water coral (CWC) reefs being considered biodiversity hotspots, very little is known about the main processes driving their morphological development. Indeed, there is a considerable knowledge gap in quantitative experimental studies that help understand the interaction between reef morphology, near-bed hydrodynamics, coral growth, and (food) particle transport processes. In the present study, we performed a 2-month long flume experiment in which living coral nubbins were placed on a reef patch to determine the effect of a unidirectional flow on the growth and physiological condition of Lophelia pertusa. Measurements revealed how the presence of coral framework increased current speed and turbulence above the frontal part of the reef patch, while conditions immediately behind it were characterised by an almost stagnant flow and reduced turbulence. Owing to the higher current speeds that likely promoted a higher food encounter rate and intake of ions involved in the calcification process, the coral nubbins located on the upstream part of the reef presented a significantly enhanced average growth and a lower expression of stress-related enzymes than the downstream ones. Yet, further experiments would be needed to fully quantify how the variations in water hydrodynamics modify particle encounter and ion intake rates by coral nubbins located in different parts of a reef, and how such discrepancies may ultimately affect coral growth. Nonetheless, the results acquired here denote that a reef influenced by a unidirectional water flow would grow into the current: a pattern of reef development that coincides with that of actual coral reefs located in similar water flow settings. Ultimately, the results of this study suggest that at the local scale coral reef morphology has a direct effect on coral growth thus, indicating that the spatial patterns of living CWC colonies in reef patches are the result of spatial self-organisation.
Published: 2022

4. Contrasting metabolic strategies of two co-occurring deep-sea octocorals

Author: Rakka, M., Maier, S.R., van Oevelen, D., Godinho, A., Bilan, M., Orejas, C., Carreiro-Silva, M., Rakka, M., Maier, S.R., van Oevelen, D., Godinho, A., Bilan, M., Orejas, C., and Carreiro-Silva, M.
Abstract: The feeding biology of deep-sea octocorals remains poorly understood, as attention is more often directed to reef building corals. The present study focused on two common deep-water octocoral species in the Azores Archipelago, Dentomuricea aff. meteor and Viminella flagellum, aiming at determining their ability to exploit different food sources. We adopted an experimental approach, with three different food sources, including live phytoplankton, live zooplankton and dissolved organic matter (DOM), that were artificially enriched with 13C and 15N (C and N tracers). The presence of tracers was subsequently followed in the coral tissue, C respiration and particulate organic C and N (POC and PON) release. In both species, feeding with zooplankton resulted in significantly higher incorporation of tracers in all measured variables, compared to the other food sources, highlighting the importance of zooplankton for major physiological processes. Our results revealed contrasting metabolic strategies between the two species, with D. aff. meteor acquiring higher amounts of prey and allocating higher percentage to respiration and release of POC and PON than V. flagellum. Such metabolic differences can shape species fitness and distributions and have further ecological implications on the ecosystem function of communities formed by different octocoral species.
Published: 2021

5. Using the Goldilocks Principle to model coral ecosystem engineering

Author: Hennige, S. J., Larsson, A. I., Orejas, C., Gori, A., De Clippele, L. H., Lee, Y. C., Jimeno, G., Georgoulas, K., Kamenos, Nicholas A., Roberts, J. M., Hennige, S. J., Larsson, A. I., Orejas, C., Gori, A., De Clippele, L. H., Lee, Y. C., Jimeno, G., Georgoulas, K., Kamenos, Nicholas A., and Roberts, J. M.
Abstract: The occurrence and proliferation of reef-forming corals is of vast importance in terms of the biodiversity they support and the ecosystem services they provide. The complex three-dimensional structures engineered by corals are comprised of both live and dead coral, and the function, growth and stability of these systems will depend on the ratio of both. To model how the ratio of live : dead coral may change, the 'Goldilocks Principle' can be used, where organisms will only flourish if conditions are 'just right'. With data from particle imaging velocimetry and numerical smooth particle hydrodynamic modelling with two simple rules, we demonstrate how this principle can be applied to a model reef system, and how corals are effectively optimizing their own local flow requirements through habitat engineering. Building on advances here, these approaches can be used in conjunction with numerical modelling to investigate the growth and mortality of biodiversity supporting framework in present-day and future coral reef structures.
Published: 2021
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6. Using the Goldilocks Principle to model coral ecosystem engineering

Author: Hennige, S. J., Larsson, A. I., Orejas, C., Gori, A., De Clippele, L. H., Lee, Y. C., Jimeno, G., Georgoulas, K., Kamenos, Nicholas A., Roberts, J. M., Hennige, S. J., Larsson, A. I., Orejas, C., Gori, A., De Clippele, L. H., Lee, Y. C., Jimeno, G., Georgoulas, K., Kamenos, Nicholas A., and Roberts, J. M.
Abstract: The occurrence and proliferation of reef-forming corals is of vast importance in terms of the biodiversity they support and the ecosystem services they provide. The complex three-dimensional structures engineered by corals are comprised of both live and dead coral, and the function, growth and stability of these systems will depend on the ratio of both. To model how the ratio of live : dead coral may change, the 'Goldilocks Principle' can be used, where organisms will only flourish if conditions are 'just right'. With data from particle imaging velocimetry and numerical smooth particle hydrodynamic modelling with two simple rules, we demonstrate how this principle can be applied to a model reef system, and how corals are effectively optimizing their own local flow requirements through habitat engineering. Building on advances here, these approaches can be used in conjunction with numerical modelling to investigate the growth and mortality of biodiversity supporting framework in present-day and future coral reef structures.
Published: 2021
Full Text: View/download PDF

7. Using the Goldilocks Principle to model coral ecosystem engineering

Author: Hennige, S. J., Larsson, A. I., Orejas, C., Gori, A., De Clippele, L. H., Lee, Y. C., Jimeno, G., Georgoulas, K., Kamenos, Nicholas A., Roberts, J. M., Hennige, S. J., Larsson, A. I., Orejas, C., Gori, A., De Clippele, L. H., Lee, Y. C., Jimeno, G., Georgoulas, K., Kamenos, Nicholas A., and Roberts, J. M.
Abstract: The occurrence and proliferation of reef-forming corals is of vast importance in terms of the biodiversity they support and the ecosystem services they provide. The complex three-dimensional structures engineered by corals are comprised of both live and dead coral, and the function, growth and stability of these systems will depend on the ratio of both. To model how the ratio of live : dead coral may change, the 'Goldilocks Principle' can be used, where organisms will only flourish if conditions are 'just right'. With data from particle imaging velocimetry and numerical smooth particle hydrodynamic modelling with two simple rules, we demonstrate how this principle can be applied to a model reef system, and how corals are effectively optimizing their own local flow requirements through habitat engineering. Building on advances here, these approaches can be used in conjunction with numerical modelling to investigate the growth and mortality of biodiversity supporting framework in present-day and future coral reef structures.
Published: 2021
Full Text: View/download PDF

8. Contrasting metabolic strategies of two co-occurring deep-sea octocorals

Author: Rakka, M., Maier, S.R., van Oevelen, D., Godinho, A., Bilan, M., Orejas, C., Carreiro-Silva, M., Rakka, M., Maier, S.R., van Oevelen, D., Godinho, A., Bilan, M., Orejas, C., and Carreiro-Silva, M.
Abstract: The feeding biology of deep-sea octocorals remains poorly understood, as attention is more often directed to reef building corals. The present study focused on two common deep-water octocoral species in the Azores Archipelago, Dentomuricea aff. meteor and Viminella flagellum, aiming at determining their ability to exploit different food sources. We adopted an experimental approach, with three different food sources, including live phytoplankton, live zooplankton and dissolved organic matter (DOM), that were artificially enriched with 13C and 15N (C and N tracers). The presence of tracers was subsequently followed in the coral tissue, C respiration and particulate organic C and N (POC and PON) release. In both species, feeding with zooplankton resulted in significantly higher incorporation of tracers in all measured variables, compared to the other food sources, highlighting the importance of zooplankton for major physiological processes. Our results revealed contrasting metabolic strategies between the two species, with D. aff. meteor acquiring higher amounts of prey and allocating higher percentage to respiration and release of POC and PON than V. flagellum. Such metabolic differences can shape species fitness and distributions and have further ecological implications on the ecosystem function of communities formed by different octocoral species.
Published: 2021

9. Using the Goldilocks Principle to model coral ecosystem engineering

Author: Hennige, S. J., Larsson, A. I., Orejas, C., Gori, A., De Clippele, L. H., Lee, Y. C., Jimeno, G., Georgoulas, K., Kamenos, Nicholas A., Roberts, J. M., Hennige, S. J., Larsson, A. I., Orejas, C., Gori, A., De Clippele, L. H., Lee, Y. C., Jimeno, G., Georgoulas, K., Kamenos, Nicholas A., and Roberts, J. M.
Abstract: The occurrence and proliferation of reef-forming corals is of vast importance in terms of the biodiversity they support and the ecosystem services they provide. The complex three-dimensional structures engineered by corals are comprised of both live and dead coral, and the function, growth and stability of these systems will depend on the ratio of both. To model how the ratio of live : dead coral may change, the 'Goldilocks Principle' can be used, where organisms will only flourish if conditions are 'just right'. With data from particle imaging velocimetry and numerical smooth particle hydrodynamic modelling with two simple rules, we demonstrate how this principle can be applied to a model reef system, and how corals are effectively optimizing their own local flow requirements through habitat engineering. Building on advances here, these approaches can be used in conjunction with numerical modelling to investigate the growth and mortality of biodiversity supporting framework in present-day and future coral reef structures.
Published: 2021
Full Text: View/download PDF

10. Using the Goldilocks Principle to model coral ecosystem engineering

Author: Hennige, S. J., Larsson, A. I., Orejas, C., Gori, A., De Clippele, L. H., Lee, Y. C., Jimeno, G., Georgoulas, K., Kamenos, Nicholas A., Roberts, J. M., Hennige, S. J., Larsson, A. I., Orejas, C., Gori, A., De Clippele, L. H., Lee, Y. C., Jimeno, G., Georgoulas, K., Kamenos, Nicholas A., and Roberts, J. M.
Abstract: The occurrence and proliferation of reef-forming corals is of vast importance in terms of the biodiversity they support and the ecosystem services they provide. The complex three-dimensional structures engineered by corals are comprised of both live and dead coral, and the function, growth and stability of these systems will depend on the ratio of both. To model how the ratio of live : dead coral may change, the 'Goldilocks Principle' can be used, where organisms will only flourish if conditions are 'just right'. With data from particle imaging velocimetry and numerical smooth particle hydrodynamic modelling with two simple rules, we demonstrate how this principle can be applied to a model reef system, and how corals are effectively optimizing their own local flow requirements through habitat engineering. Building on advances here, these approaches can be used in conjunction with numerical modelling to investigate the growth and mortality of biodiversity supporting framework in present-day and future coral reef structures.
Published: 2021
Full Text: View/download PDF

11. Cold-water coral reefs thriving under hypoxia

Author: Hebbeln, D., Wienberg, C., Dullo, W.-C., Freiwald, A., Mienis, F., Orejas, C., Titschack, J., Hebbeln, D., Wienberg, C., Dullo, W.-C., Freiwald, A., Mienis, F., Orejas, C., and Titschack, J.
Abstract: Reefs formed by scleractinian cold-water corals represent unique biodiversity hot spots in the deep sea, preferring aphotic water depths of200–1000 m. The distribution of the most prominent reef-building species Lophelia pertusa is controlled by various environmental factors including dissolved oxygen concentrations and temperature. Consequently, the expected ocean deoxygenation and warming triggered by human-induced global change are considered as a serious threat to cold-water coral reefs. Here, we present results on recently discovered reefs in the SE Atlantic, where L. pertusa thrives in hypoxic and rather warm waters. This sheds new light on its capability to adapt to extreme conditions, which is facilitated by high surface ocean productivity, resulting in extensive food supply. Putting our data in an Atlantic-wide perspective clearly demonstrates L. pertusa’s ability to develop population-specific adaptations, which are up to now hardly considered in assessing its present and future distributions.
Published: 2020

12. Feeding biology of a habitat-forming antipatharian in the Azores Archipelago

Author: Rakka, M., Orejas, C., Maier, S.R., van Oevelen, D., Godinho, A., Bilan, M., Carreiro-Silva, M., Rakka, M., Orejas, C., Maier, S.R., van Oevelen, D., Godinho, A., Bilan, M., and Carreiro-Silva, M.
Abstract: Benthic suspension feeders have developed a variety of feeding strategies and food availability has often proven to be a key factor explaining their occurrence and distribution. The feeding biology of coral species has been the target of an increasing number of studies, however most of them focus on Scleractinia and Octocorallia, while information for Antipatharia is very scarce. The present study focused on Antipathella wollastoni, a common habitat-forming antipatharian in the Azores Archipelago, forming dense black coral forests between 20 and 150 m. The objective of the study was to investigate the food preferences of the target species upon availability of different isotopically enriched food substrates and determine its ability to capture zooplankton prey under different flow speeds. The species was able to utilize different food sources including live phytoplankton, live zooplankton and dissolved organic matter (DOM), indicating the ability to exploit seasonally available food sources. However, ingestion of zooplankton enhanced carbon (C) and nitrogen (N) incorporation in coral tissue and metabolic activity, highlighting the importance of zooplankton prey for vital physiological processes such as growth and reproduction. Maximum zooplankton capture rates occurred under 4 cm−1, however the species displayed high capacity to capture zooplankton prey over different flow rates highlighting the ability of A. wollastoni to exploit high quantities of shortly available prey.
Published: 2020

13. Assessing the environmental status of selected North Atlantic deep-sea ecosystems

Author: Kazanidis, G., Orejas, C., Borja, A., Kenchington, E., Henry, L.-A., Callery, O., Carreiro-Silva, M., Egilsdottir, H., Giacomello, E., Grehan, A., Menot, L., Morato, T., Ragnarsson, S.A., Rueda, J.L., Stirling, D., Stratmann, T., van Oevelen, D., Palialexis, A., Johnson, D., Roberts, J.M., Kazanidis, G., Orejas, C., Borja, A., Kenchington, E., Henry, L.-A., Callery, O., Carreiro-Silva, M., Egilsdottir, H., Giacomello, E., Grehan, A., Menot, L., Morato, T., Ragnarsson, S.A., Rueda, J.L., Stirling, D., Stratmann, T., van Oevelen, D., Palialexis, A., Johnson, D., and Roberts, J.M.
Abstract: The deep sea is the largest biome on Earth but the least explored. Our knowledge of it comes from scattered sources spanning different spatial and temporal scales. Implementation of marine policies like the European Union’s Marine Strategy Framework Directive (MSFD) and support for Blue Growth in the deep sea are therefore hindered by lack of data. Integrated assessments of environmental status require tools to work with different and disaggregated datasets (e.g. density of deep-sea habitat-forming species, body-size distribution of commercial fishes, intensity of bottom trawling) across spatial and temporal scales. A feasibility study was conducted as part of the four-year ATLAS project to assess the effectiveness of the open-access Nested Environmental status Assessment Tool (NEAT) to assess deep-sea environmental status. We worked at nine selected study areas in the North Atlantic focusing on five MSFD descriptors (D1-Biodiversity, D3-Commercial fish and shellfish, D4-Food webs, D6-Seafloor integrity, D10-Marine litter). The objectives of the present study were to i) explore and propose indicators that could be used in the assessment of deep-sea environmental status, ii) evaluate the performance of NEAT in the deep sea, and iii) identify challenges and opportunities for the assessment of deep-sea status. Based on data availability, data quality and expert judgement, in total 24 indicators (one for D1, one for D3, seven for D4, 13 for D6, two for D10) were used in the assessment of the nine study areas, their habitats and ecosystem components. NEAT analyses revealed differences among the study areas for their environmental status ranging from “poor” to “high”. Overall, the NEAT results were in moderate to complete agreement with expert judgement, previous assessments, scientific literature on human-pressure gradients and expected management outcomes. We suggest that the assessment of deep-sea environmental status should take place at habitat and ecosystem level (r
Published: 2020

14. Assessing the environmental status of selected North Atlantic deep-sea ecosystems

Author: Kazanidis, G., Orejas, C., Borja, A., Kenchington, E., Henry, L.-A., Callery, O., Carreiro-Silva, M., Egilsdottir, H., Giacomello, E., Grehan, A., Menot, L., Morato, T., Ragnarsson, S.A., Rueda, J.L., Stirling, D., Stratmann, T., van Oevelen, D., Palialexis, A., Johnson, D., Roberts, J.M., Kazanidis, G., Orejas, C., Borja, A., Kenchington, E., Henry, L.-A., Callery, O., Carreiro-Silva, M., Egilsdottir, H., Giacomello, E., Grehan, A., Menot, L., Morato, T., Ragnarsson, S.A., Rueda, J.L., Stirling, D., Stratmann, T., van Oevelen, D., Palialexis, A., Johnson, D., and Roberts, J.M.
Abstract: The deep sea is the largest biome on Earth but the least explored. Our knowledge of it comes from scattered sources spanning different spatial and temporal scales. Implementation of marine policies like the European Union’s Marine Strategy Framework Directive (MSFD) and support for Blue Growth in the deep sea are therefore hindered by lack of data. Integrated assessments of environmental status require tools to work with different and disaggregated datasets (e.g. density of deep-sea habitat-forming species, body-size distribution of commercial fishes, intensity of bottom trawling) across spatial and temporal scales. A feasibility study was conducted as part of the four-year ATLAS project to assess the effectiveness of the open-access Nested Environmental status Assessment Tool (NEAT) to assess deep-sea environmental status. We worked at nine selected study areas in the North Atlantic focusing on five MSFD descriptors (D1-Biodiversity, D3-Commercial fish and shellfish, D4-Food webs, D6-Seafloor integrity, D10-Marine litter). The objectives of the present study were to i) explore and propose indicators that could be used in the assessment of deep-sea environmental status, ii) evaluate the performance of NEAT in the deep sea, and iii) identify challenges and opportunities for the assessment of deep-sea status. Based on data availability, data quality and expert judgement, in total 24 indicators (one for D1, one for D3, seven for D4, 13 for D6, two for D10) were used in the assessment of the nine study areas, their habitats and ecosystem components. NEAT analyses revealed differences among the study areas for their environmental status ranging from “poor” to “high”. Overall, the NEAT results were in moderate to complete agreement with expert judgement, previous assessments, scientific literature on human-pressure gradients and expected management outcomes. We suggest that the assessment of deep-sea environmental status should take place at habitat and ecosystem level (r
Published: 2020

15. Cold-water coral reefs thriving under hypoxia

Author: Hebbeln, D., Wienberg, C., Dullo, W.-C., Freiwald, A., Mienis, F., Orejas, C., Titschack, J., Hebbeln, D., Wienberg, C., Dullo, W.-C., Freiwald, A., Mienis, F., Orejas, C., and Titschack, J.
Abstract: Reefs formed by scleractinian cold-water corals represent unique biodiversity hot spots in the deep sea, preferring aphotic water depths of200–1000 m. The distribution of the most prominent reef-building species Lophelia pertusa is controlled by various environmental factors including dissolved oxygen concentrations and temperature. Consequently, the expected ocean deoxygenation and warming triggered by human-induced global change are considered as a serious threat to cold-water coral reefs. Here, we present results on recently discovered reefs in the SE Atlantic, where L. pertusa thrives in hypoxic and rather warm waters. This sheds new light on its capability to adapt to extreme conditions, which is facilitated by high surface ocean productivity, resulting in extensive food supply. Putting our data in an Atlantic-wide perspective clearly demonstrates L. pertusa’s ability to develop population-specific adaptations, which are up to now hardly considered in assessing its present and future distributions.
Published: 2020

16. Feeding biology of a habitat-forming antipatharian in the Azores Archipelago

Author: Rakka, M., Orejas, C., Maier, S.R., van Oevelen, D., Godinho, A., Bilan, M., Carreiro-Silva, M., Rakka, M., Orejas, C., Maier, S.R., van Oevelen, D., Godinho, A., Bilan, M., and Carreiro-Silva, M.
Abstract: Benthic suspension feeders have developed a variety of feeding strategies and food availability has often proven to be a key factor explaining their occurrence and distribution. The feeding biology of coral species has been the target of an increasing number of studies, however most of them focus on Scleractinia and Octocorallia, while information for Antipatharia is very scarce. The present study focused on Antipathella wollastoni, a common habitat-forming antipatharian in the Azores Archipelago, forming dense black coral forests between 20 and 150 m. The objective of the study was to investigate the food preferences of the target species upon availability of different isotopically enriched food substrates and determine its ability to capture zooplankton prey under different flow speeds. The species was able to utilize different food sources including live phytoplankton, live zooplankton and dissolved organic matter (DOM), indicating the ability to exploit seasonally available food sources. However, ingestion of zooplankton enhanced carbon (C) and nitrogen (N) incorporation in coral tissue and metabolic activity, highlighting the importance of zooplankton prey for vital physiological processes such as growth and reproduction. Maximum zooplankton capture rates occurred under 4 cm−1, however the species displayed high capacity to capture zooplankton prey over different flow rates highlighting the ability of A. wollastoni to exploit high quantities of shortly available prey.
Published: 2020

17. Mid-Holocene extinction of cold-water corals on the Namibian shelf steered by the Benguela oxygen minimum zone

Author: Tamborrino, L., Wienberg, C., Titschack, J., Wintersteller, P., Mienis, F., Schröder-Ritzrau, A., Freiwald, A., Orejas, C., Dullo, W.-C., Haberkern, J., Hebbeln, D., Tamborrino, L., Wienberg, C., Titschack, J., Wintersteller, P., Mienis, F., Schröder-Ritzrau, A., Freiwald, A., Orejas, C., Dullo, W.-C., Haberkern, J., and Hebbeln, D.
Abstract: An exceptionally large cold-water coral mound province (CMP) was recently discovered extending over 80 km along the Namibian shelf (offshore southwestern Africa) in water depths of 160–270 m. This hitherto unknown CMP comprises >2000 mounds with heights of up to 20 m and constitutes the largest CMP known from the southeastern Atlantic Ocean. Uranium-series dating revealed a short but intense pulse in mound formation during the early to mid-Holocene. Coral proliferation during this period was potentially supported by slightly enhanced dissolved oxygen concentrations compared to the present Benguela oxygen minimum zone (OMZ). The subsequent mid-Holocene strengthening of the Benguela Upwelling System and a simultaneous northward migration of the Angola-Benguela Front resulted in an intensification of the OMZ that caused the sudden local extinction of the Namibian corals and prevented their reoccurrence until today.GeoRef Subject
Published: 2019

18. Occurrence and distribution of the coral Dendrophyllia ramea in Cyprus insular shelf: Environmental setting and anthropogenic impacts

Author: Orejas, C, Gori, A, Jiménez, C, Rivera, J, Kamidis, N, Abu Alhaija, R, Lo Iacono, C, Orejas, C, Gori, A, Jiménez, C, Rivera, J, Kamidis, N, Abu Alhaija, R, and Lo Iacono, C
Abstract: Occurrence and abundance of deep-water corals in the Levantine Mediterranean Sea is still largely unknown. This is the first attempt to quantitatively describe a Dendrophyllia ramea population discovered in June 2015 during the CYCLAMEN expedition on board the Research Vessel Aegaeo. This population is the deepest ever described until now in the Mediterranean and was found on the outer insular shelf off eastern Cyprus (Protaras, 35°02′N; 34°05′E). Video transects conducted by means of a remotely operated vehicle revealed a well-developed population of D. ramea located on a sandy seabed at 125–170 m depth. The highest density was 6 colonies m−2 and on average 1.6 ± 1.4 (SD) colonies m−2. The population consists of isolated or piled up branches of various sizes and large colonies, some ∼50 cm max width. The corals thrive on soft bottoms, representing a rather novel aspect of the research on D. ramea, since the species is still considered to be mostly associated with rocky substrates. The occurrence of the species in sedimentary grounds makes it especially vulnerable to bottom contact fishing gears as bottom trawling. Spatial distribution of the coral population, as well as a first attempt to characterize its habitat, are explored as an approach to describe the habitat's suitability and the vulnerability for the species in the area.
Published: 2019

19. Mid-Holocene extinction of cold-water corals on the Namibian shelf steered by the Benguela oxygen minimum zone

Author: Tamborrino, L., Wienberg, C., Titschack, J., Wintersteller, P., Mienis, F., Schröder-Ritzrau, A., Freiwald, A., Orejas, C., Dullo, W.-C., Haberkern, J., Hebbeln, D., Tamborrino, L., Wienberg, C., Titschack, J., Wintersteller, P., Mienis, F., Schröder-Ritzrau, A., Freiwald, A., Orejas, C., Dullo, W.-C., Haberkern, J., and Hebbeln, D.
Abstract: An exceptionally large cold-water coral mound province (CMP) was recently discovered extending over 80 km along the Namibian shelf (offshore southwestern Africa) in water depths of 160–270 m. This hitherto unknown CMP comprises >2000 mounds with heights of up to 20 m and constitutes the largest CMP known from the southeastern Atlantic Ocean. Uranium-series dating revealed a short but intense pulse in mound formation during the early to mid-Holocene. Coral proliferation during this period was potentially supported by slightly enhanced dissolved oxygen concentrations compared to the present Benguela oxygen minimum zone (OMZ). The subsequent mid-Holocene strengthening of the Benguela Upwelling System and a simultaneous northward migration of the Angola-Benguela Front resulted in an intensification of the OMZ that caused the sudden local extinction of the Namibian corals and prevented their reoccurrence until today.GeoRef Subject
Published: 2019

20. Cold-Water Coral Associated Fauna in the Mediterranean Sea and Adjacent Areas

Author: Orejas, C. (Covadonga), Jiménez, C. (Carlos), Rueda, José Luis, Urra, Javier, Aguilar, Ricardo, Angeletti, Lorenzo, Bo, Marzia, García-Ruiz, Cristina, González-Duarte, Manuel María, López-Díaz, Eduardo, Madurell, Teresa, Maldonado, Manuel, Mateo-Ramírez, Ángel, Megina, César, Moreira, Juan, Moya-Ruiz, Francisca, Ramalho, L.V., Rosso, Antonietta, Sitjà, Celia, Taviani, Marco, Orejas, C. (Covadonga), Jiménez, C. (Carlos), Rueda, José Luis, Urra, Javier, Aguilar, Ricardo, Angeletti, Lorenzo, Bo, Marzia, García-Ruiz, Cristina, González-Duarte, Manuel María, López-Díaz, Eduardo, Madurell, Teresa, Maldonado, Manuel, Mateo-Ramírez, Ángel, Megina, César, Moreira, Juan, Moya-Ruiz, Francisca, Ramalho, L.V., Rosso, Antonietta, Sitjà, Celia, and Taviani, Marco
Abstract: Cold-water corals are recognised as a key component of Mediterranean deep-sea ecosystems but the knowledge of their associated biodiversity is still limited. To date, the fauna associated to the Central Mediterranean cold-water coral habitats is the best known (e.g. the cold-water coral provinces of Santa Maria di Leuca, Bari canyon and Strait of Sicily) but such knowledge should be extended to the whole Mediterranean Basin. The combined biodiversity censed so far for Mediterranean cold-water coral habitats and those of adjacent areas (Strait of Gibraltar-Gulf of Cádiz) includes a conspicuous number of species (ca. 520 spp.) with a high representation of sponges (ca. 90 spp.), polychaetes (ca. 90 spp.), cnidarians (ca. 80 spp.), bryozoans (ca. 75 spp.), crustaceans (ca. 60 spp.), molluscs (ca. 50 spp.), fishes (ca. 50 spp.), echinoderms (ca. 20 spp.) and brachiopods (7 spp.). Most species are not univocally linked to cold-water corals, but they benefit from the complex and diverse microhabitats provided by them. There is a clear need to continue the investigation of Mediterranean cold-water coral habitats to fully document the faunistic inventory, biogeographic connections and functions of the many species connected to such emblematic ecoystems of the deep-sea.
Published: 2019

21. Cold-Water Corals in Fluid Venting Submarine Structures

Author: Orejas, C. (Covadonga), Jiménez, C. (Carlos), Ministerio de Economía y Competitividad (España), Palomino, Desirée, Rueda, José Luis, Vázquez, Juan Tomás, Urra, Javier, Sánchez-Guillamón, Olga, González-García, Emilio, López-González, Nieves, Fernández-Salas, L.M., Orejas, C. (Covadonga), Jiménez, C. (Carlos), Ministerio de Economía y Competitividad (España), Palomino, Desirée, Rueda, José Luis, Vázquez, Juan Tomás, Urra, Javier, Sánchez-Guillamón, Olga, González-García, Emilio, López-González, Nieves, and Fernández-Salas, L.M.
Abstract: A relationship between scleractinian cold-water corals and fluid venting submarine structures has been observed in Mediterranean and adjacent areas. Mud volcanoes and mud diapirs promote different substrate types for biological colonisation: from muddy bottoms with chemosynthesis-based communities and typical bathyal soft bottom fauna to hard bottoms with sessile solitary and colonial scleractinian cold-water corals, sponges, octocorals and antipatharians. Fluid venting submarine structures provide an elevated position for the development of sessile suspension feeders, including scleractinian cold-water corals, where an interaction of the currents with the local topography generally accelerates the water flow. This facilitates the supply of suspended food particles and the development of carbonate mounds mainly built by scleractinian cold-water corals. Methane-derived authigenic carbonates provide hard substrates, which represent a prerequisite for larvae settlement of some scleractinian cold-water corals and further development of polyps and colonies in those elevated areas. These factors make FVSS an appropriate place for the development of habitats conformed by scleractinian cold-water corals as well as genuine and singular biodiversity hotspots.
Published: 2019

22. Cold-water corals in aquaria: advances and challenges. A focus on the Mediterranean

Author: Orejas, C. (Covadonga), Jiménez, C. (Carlos), Orejas, Covadonga, Taviani, Marco, Ambroso, Stefano, Andreou, V, Bilan, M, Orejas, C. (Covadonga), Jiménez, C. (Carlos), Orejas, Covadonga, Taviani, Marco, Ambroso, Stefano, Andreou, V, and Bilan, M
Published: 2019

23. Corals of Aphrodite: Dendrophyllia ramea populations of Cyprus

Author: Orejas, C. (Covadonga), Jiménez, C. (Carlos), Orejas, Covadonga, Jiménez, C, Gori, Andrea, Rivera, Jesús, Lo Iacono, Claudio, Aurelle, Didier, Hadjioannou, L., Petrou, Antonis, Achilleos, K, Orejas, C. (Covadonga), Jiménez, C. (Carlos), Orejas, Covadonga, Jiménez, C, Gori, Andrea, Rivera, Jesús, Lo Iacono, Claudio, Aurelle, Didier, Hadjioannou, L., Petrou, Antonis, and Achilleos, K
Abstract: The deep-sea of the Levantine Mediterranean basin is still a fairly undiscovered world. The outer insular shelf of Cyprus, a gateway to the deep realm, is not an exception, as very few deep areas in the waters surrounding this island have been explored up to now. Here we present a brief overview of the discovery of an extraordinary population of the scleractinian Dendrophyllia ramea at depths, substrate and densities which were previously unknown for this species. Our efforts in better defining the habitat of this unique and fragile coral population, along with solid evidence of alarming destruction (albeit unintentional) from fishing activity, will hopefully urge local authorities into enforcing protection/conservation measures.
Published: 2019

24. Approaching cold-water corals to the society: novel ways to transfer knowledge

Author: Orejas, C. (Covadonga), Jiménez, C. (Carlos), Rossi, Sergio, Orejas, Covadonga, Orejas, C. (Covadonga), Jiménez, C. (Carlos), Rossi, Sergio, and Orejas, Covadonga
Abstract: Outreach is fundamental to disseminate scientific knowledge and approach the general public. The cold-water coral ecosystems are not an exception. During the last 15 years many efforts have been made to make more familiar these complex ecosystems to the society. Technology (which allow the possibility to reach deepest locations) but also the engagement of scientists made this approach possible. In this short contribution we highlight several ways to promote the knowledge and the sensitisation on these fragile deep water ecosystems, showing previous experiences and discussing some ways to effectively transfer the information needed to protect and manage these fragile ecosystems.
Published: 2019

25. Occurrence and distribution of the coral Dendrophyllia ramea in Cyprus insular shelf: Environmental setting and anthropogenic impacts

Author: Orejas, C, Gori, A, Jiménez, C, Rivera, J, Kamidis, N, Abu Alhaija, R, Lo Iacono, C, Orejas, C, Gori, A, Jiménez, C, Rivera, J, Kamidis, N, Abu Alhaija, R, and Lo Iacono, C
Abstract: Occurrence and abundance of deep-water corals in the Levantine Mediterranean Sea is still largely unknown. This is the first attempt to quantitatively describe a Dendrophyllia ramea population discovered in June 2015 during the CYCLAMEN expedition on board the Research Vessel Aegaeo. This population is the deepest ever described until now in the Mediterranean and was found on the outer insular shelf off eastern Cyprus (Protaras, 35°02′N; 34°05′E). Video transects conducted by means of a remotely operated vehicle revealed a well-developed population of D. ramea located on a sandy seabed at 125–170 m depth. The highest density was 6 colonies m−2 and on average 1.6 ± 1.4 (SD) colonies m−2. The population consists of isolated or piled up branches of various sizes and large colonies, some ∼50 cm max width. The corals thrive on soft bottoms, representing a rather novel aspect of the research on D. ramea, since the species is still considered to be mostly associated with rocky substrates. The occurrence of the species in sedimentary grounds makes it especially vulnerable to bottom contact fishing gears as bottom trawling. Spatial distribution of the coral population, as well as a first attempt to characterize its habitat, are explored as an approach to describe the habitat's suitability and the vulnerability for the species in the area.
Published: 2019

26. Habitat Mapping of Cold-Water Corals in the Mediterranean Sea

Author: Orejas, C, Jiménez, C, Lo Iacono, C, Savini, A, Huvenne, V, Gràcia, E, Huvenne, VAI., Orejas, C, Jiménez, C, Lo Iacono, C, Savini, A, Huvenne, V, Gràcia, E, and Huvenne, VAI.
Abstract: Habitat mapping is increasingly considered as a reliable and efficient methodology to explore and represent the complexity and extent of benthic communities. Providing a full-coverage spatial perspective of habitat heterogeneity, is becoming an essential tool in science-based management of natural resources, specifically regarding vulnerable marine ecosystems such as cold-water corals. Here we present two case studies, where we revisit known cold-water coral areas of the Mediterranean Sea and where we apply original habitat mapping techniques. The areas correspond to the Chella Bank, in the Alborán Sea, and the Santa Maria de Leuca cold-water coral province, in the Ionian Sea. The Chella Bank is one of a series of volcanic banks and knolls located in the western Mediterranean that have been described as geologic features hosting vulnerable marine ecosystems. The cold- water coral province off Santa Maria di Leuca represents one of the largest known occurrences of living reef- forming cold-water coral species (i.e. Lophelia pertusa and Madrepora oculata) in the Mediterranean Sea, where corals grow on the exposed summits and flanks of mound-like structures (up to 300 m wide and 25 m high) associated with mass wasting events. Both cases adopt a holistic and integrated study of the environmental characteristics (geology and oceanography) of the observed benthic habitats and aim to map their extent using supervised automated classifications. Multibeam swath bathymetry, the derived acoustic backscatter, sidescan sonar, video footage gathered with a remotely operated vehicle, photo stills from underwater drop camera, and CTD casts where available, have been used together to identify the geological and oceanographic processes that most likely are responsible for the distribution of the observed cold-water corals and associated benthic communities.
Published: 2019

27. The effect of local hydrodynamics on the spatial extent and morphology of cold-water coral habitats at Tisler Reef, Norway

Author: De Clippele, L.H., Huvenne, V.A.I., Orejas, C., Lundälv, T., Fox, A., Hennige, S.J., Roberts, J.M., De Clippele, L.H., Huvenne, V.A.I., Orejas, C., Lundälv, T., Fox, A., Hennige, S.J., and Roberts, J.M.
Abstract: This study demonstrates how cold-water coral morphology and habitat distribution are shaped by local hydrodynamics, using high-definition video from Tisler Reef, an inshore reef in Norway. A total of 334 video frames collected on the north-west (NW) and south-east (SE) side of the reef were investigated for Lophelia pertusa coral cover and morphology and for the cover of the associated sponges Mycale lingua and Geodia sp. Our results showed that the SE side was a better habitat for L. pertusa (including live and dead colonies). Low cover of Geodia sp. was found on both sides of Tisler Reef. In contrast, Mycale lingua had higher percentage cover, especially on the NW side of the reef. Bush-shaped colonies of L. pertusa with elongated branches were the most abundant coral morphology on Tisler Reef. The highest abundance and density of this morphology were found on the SE side of the reef, while a higher proportion of cauliflower-shaped corals with short branches were found on the NW side. The proportion of very small L. pertusa colonies was also significantly higher on the SE side of the reef. The patterns in coral spatial distribution and morphology were related to local hydrodynamics—there were more frequent periods of downwelling currents on the SE side—and to the availability of suitable settling substrates. These factors make the SE region of Tisler Reef more suitable for coral growth. Understanding the impact of local hydrodynamics on the spatial extent and morphology of coral, and their relation to associated organisms such as sponges, is key to understanding the past and future development of the reef.
Published: 2018

28. The effect of local hydrodynamics on the spatial extent and morphology of cold-water coral habitats at Tisler Reef, Norway

Author: De Clippele, L.H., Huvenne, V.A.I., Orejas, C., Lundälv, T., Fox, A., Hennige, S.J., Roberts, J.M., De Clippele, L.H., Huvenne, V.A.I., Orejas, C., Lundälv, T., Fox, A., Hennige, S.J., and Roberts, J.M.
Abstract: This study demonstrates how cold-water coral morphology and habitat distribution are shaped by local hydrodynamics, using high-definition video from Tisler Reef, an inshore reef in Norway. A total of 334 video frames collected on the north-west (NW) and south-east (SE) side of the reef were investigated for Lophelia pertusa coral cover and morphology and for the cover of the associated sponges Mycale lingua and Geodia sp. Our results showed that the SE side was a better habitat for L. pertusa (including live and dead colonies). Low cover of Geodia sp. was found on both sides of Tisler Reef. In contrast, Mycale lingua had higher percentage cover, especially on the NW side of the reef. Bush-shaped colonies of L. pertusa with elongated branches were the most abundant coral morphology on Tisler Reef. The highest abundance and density of this morphology were found on the SE side of the reef, while a higher proportion of cauliflower-shaped corals with short branches were found on the NW side. The proportion of very small L. pertusa colonies was also significantly higher on the SE side of the reef. The patterns in coral spatial distribution and morphology were related to local hydrodynamics—there were more frequent periods of downwelling currents on the SE side—and to the availability of suitable settling substrates. These factors make the SE region of Tisler Reef more suitable for coral growth. Understanding the impact of local hydrodynamics on the spatial extent and morphology of coral, and their relation to associated organisms such as sponges, is key to understanding the past and future development of the reef.
Published: 2018

29. Two “pillars” of cold-water coral reefs along Atlantic European margins: Prevalent association of Madrepora oculata with Lophelia pertusa, from reef to colony scale

Author: Arnaud-haond, Sophie, Van Den Beld, Inge, Becheler, Ronan, Orejas, C., Menot, Lenaick, Frank, N., Grehan, A., Bourillet, Jean-francois, Arnaud-haond, Sophie, Van Den Beld, Inge, Becheler, Ronan, Orejas, C., Menot, Lenaick, Frank, N., Grehan, A., and Bourillet, Jean-francois
Abstract: The scleractinian coral Lophelia pertusa has been the focus of deep-sea research since the recognition of the vast extent of coral reefs in North Atlantic waters two decades ago, long after their existence was mentioned by fishermen. These reefs where shown to provide habitat, concentrate biomass and act as feeding or nursery grounds for many species, including those targeted by commercial fisheries. Thus, the attention given to this cold-water coral (CWC) species from researchers and the wider public has increased. Consequently, new research programs triggered research to determine the full extent of the corals geographic distribution and ecological dynamics of “Lophelia reefs”. The present study is based on a systematic standardised sampling design to analyse the distribution and coverage of CWC reefs along European margins from the Bay of Biscay to Iceland. Based on Remotely Operated Vehicle (ROV) image analysis, we report an almost systematic occurrence of Madrepora oculata in association with L. pertusa with similar abundances of both species within explored reefs, despite a tendency of increased abundance of L. pertusa compared to M. oculata toward higher latitudes. This systematic association occasionally reached the colony scale, with “twin” colonies of both species often observed growing next to each other when isolated structures were occurring off-reefs. Finally, several “false chimaera” were observed within reefs, confirming that colonial structures can be “coral bushes” formed by an accumulation of multiple colonies even at the inter-specific scale, with no need for self-recognition mechanisms. Thus, we underline the importance of the hitherto underexplored M. oculata in the Eastern Atlantic, re-establishing a more balanced view that both species and their yet unknown interactions are required to better elucidate the ecology, dynamics and fate of European CWC reefs in a changing environment.
Published: 2017
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30. Two “pillars” of cold-water coral reefs along Atlantic European margins: Prevalent association of Madrepora oculata with Lophelia pertusa, from reef to colony scale

Author: Arnaud-haond, Sophie, Van Den Beld, Inge, Becheler, Ronan, Orejas, C., Menot, Lenaick, Frank, N., Grehan, A., Bourillet, Jean-francois, Arnaud-haond, Sophie, Van Den Beld, Inge, Becheler, Ronan, Orejas, C., Menot, Lenaick, Frank, N., Grehan, A., and Bourillet, Jean-francois
Abstract: The scleractinian coral Lophelia pertusa has been the focus of deep-sea research since the recognition of the vast extent of coral reefs in North Atlantic waters two decades ago, long after their existence was mentioned by fishermen. These reefs where shown to provide habitat, concentrate biomass and act as feeding or nursery grounds for many species, including those targeted by commercial fisheries. Thus, the attention given to this cold-water coral (CWC) species from researchers and the wider public has increased. Consequently, new research programs triggered research to determine the full extent of the corals geographic distribution and ecological dynamics of “Lophelia reefs”. The present study is based on a systematic standardised sampling design to analyse the distribution and coverage of CWC reefs along European margins from the Bay of Biscay to Iceland. Based on Remotely Operated Vehicle (ROV) image analysis, we report an almost systematic occurrence of Madrepora oculata in association with L. pertusa with similar abundances of both species within explored reefs, despite a tendency of increased abundance of L. pertusa compared to M. oculata toward higher latitudes. This systematic association occasionally reached the colony scale, with “twin” colonies of both species often observed growing next to each other when isolated structures were occurring off-reefs. Finally, several “false chimaera” were observed within reefs, confirming that colonial structures can be “coral bushes” formed by an accumulation of multiple colonies even at the inter-specific scale, with no need for self-recognition mechanisms. Thus, we underline the importance of the hitherto underexplored M. oculata in the Eastern Atlantic, re-establishing a more balanced view that both species and their yet unknown interactions are required to better elucidate the ecology, dynamics and fate of European CWC reefs in a changing environment.
Published: 2017
Full Text: View/download PDF

31. Two “pillars” of cold-water coral reefs along Atlantic European margins: Prevalent association of Madrepora oculata with Lophelia pertusa, from reef to colony scale

Author: Arnaud-haond, Sophie, Van Den Beld, Inge, Becheler, Ronan, Orejas, C., Menot, Lenaick, Frank, N., Grehan, A., Bourillet, Jean-francois, Arnaud-haond, Sophie, Van Den Beld, Inge, Becheler, Ronan, Orejas, C., Menot, Lenaick, Frank, N., Grehan, A., and Bourillet, Jean-francois
Abstract: The scleractinian coral Lophelia pertusa has been the focus of deep-sea research since the recognition of the vast extent of coral reefs in North Atlantic waters two decades ago, long after their existence was mentioned by fishermen. These reefs where shown to provide habitat, concentrate biomass and act as feeding or nursery grounds for many species, including those targeted by commercial fisheries. Thus, the attention given to this cold-water coral (CWC) species from researchers and the wider public has increased. Consequently, new research programs triggered research to determine the full extent of the corals geographic distribution and ecological dynamics of “Lophelia reefs”. The present study is based on a systematic standardised sampling design to analyse the distribution and coverage of CWC reefs along European margins from the Bay of Biscay to Iceland. Based on Remotely Operated Vehicle (ROV) image analysis, we report an almost systematic occurrence of Madrepora oculata in association with L. pertusa with similar abundances of both species within explored reefs, despite a tendency of increased abundance of L. pertusa compared to M. oculata toward higher latitudes. This systematic association occasionally reached the colony scale, with “twin” colonies of both species often observed growing next to each other when isolated structures were occurring off-reefs. Finally, several “false chimaera” were observed within reefs, confirming that colonial structures can be “coral bushes” formed by an accumulation of multiple colonies even at the inter-specific scale, with no need for self-recognition mechanisms. Thus, we underline the importance of the hitherto underexplored M. oculata in the Eastern Atlantic, re-establishing a more balanced view that both species and their yet unknown interactions are required to better elucidate the ecology, dynamics and fate of European CWC reefs in a changing environment.
Published: 2017
Full Text: View/download PDF

32. Animal Forests of the World: An Overview

Author: Rossi, S. (Sergio), Bramanti, L. (Lorenzo), Gori, A. (Andrea), Orejas, C. (Covadonga), Rossi, Sergio, Bramanti, Lorenzo, Gori, Andrea, Orejas, Covadonga, Rossi, S. (Sergio), Bramanti, L. (Lorenzo), Gori, A. (Andrea), Orejas, C. (Covadonga), Rossi, Sergio, Bramanti, Lorenzo, Gori, Andrea, and Orejas, Covadonga
Abstract: In the marine benthos, megabenthic communities dominated by sessile suspension feeders (such as sponges, corals, and bivalves) form three-dimensional structures which provide architectural complexity and shelter for several species. These communities are, in part, structurally and functionally similar to the terrestrial forests, with the main difference that they are dominated by animals instead of plants. The term “animal forests” has been introduced to describe these communities, highlighting the structural and functional similarities with their terrestrial counterparts trying to gather, in a single concept, all the three-dimensional alive structures dominated by sessile animals. Among the animal forests, tropical coral reefs, due to their high biodiversity, have been defined as the “rainforests of the sea” and have attracted the interest of scientists all over the world. However, during the last decades, many other animal forests have been subjected to the attention of the scientific community; Cold-water coral communities, with their key role in ecosystem functioning, fisheries sustainability, and potential carbon sinks in deep benthic ecosystems, are an example of other animal forests that probably cover larger extensions than the tropical shallow coral reefs, but for which the distribution and fully understanding of their functionality are still largely unknown. Similarly, recent technological advances have allowed scientists to explore the mesophotic environment, revealing complex and unknown animal forests in the so-called twilight zone. Gradually, we begin to understand the real extension of these three-dimensional benthic communities and their ecological importance. The animal forests are probably one of the most widely distributed ecosystems on the planet, due to the wide spectra of environments they occupy, from the shallow mussel beds to the tropical and the deepest cold-water coral communities or Antarctic sponge grounds. However, during the last 20 ye
Published: 2017

33. The Builders of the Oceans – Part I: Coral Architecture from the Tropics to the Poles, from the Shallow to the Deep

Author: Rossi, S. (Sergio), Bramanti, L. (Lorenzo), Gori, A. (Andrea), Orejas, C. (Covadonga), European Commission, Orejas, Covadonga, Jiménez, Carlos, Rossi, S. (Sergio), Bramanti, L. (Lorenzo), Gori, A. (Andrea), Orejas, C. (Covadonga), European Commission, Orejas, Covadonga, and Jiménez, Carlos
Abstract: At any scale, corals are live buildings. Their carbonate skeletons constitute three-dimensional frameworks allowing the delicate coral polyp to emerge from the sea bottom and populate vast areas of the ocean. These constructions, reminders of the structural complexity found in the forest, are found everywhere in the Earth’s oceans, from the polar regions to the tropics and from the tidal pools to the dark abyssal plains. They can be found as solitary or in modest aggregations of a few centimeters in size or gargantuan colonies of mythological proportions; when many, they can create the largest nonhuman structures built by organisms. Life and death of the coral “trees” are influenced by the mineral architecture and the presence of bioeroders. Shape and size facilitate or restrict their access to food and light and influence structural strength tested by currents and swells. The role that corals play in the oceans defies any attempt at simplification since it transcends the life span of the small polyp, geological time, and ecological space. Long after the polyps are gone, coral skeletons continue to harbor numerous organisms of disparate nature by overgrowing, drilling, and dissolving the carbonates. These chapters are a personal journey into the coral forest of the world’s oceans, with stations along singular aspects of their present and past. Our point of departure is the ecosystem engineering of the coral polyp through the construction of its skeleton, followed by selected examples of human interactions with the “stone from the sea” ( see Chapter “The Builders of the Oceans – Part II: Corals from the Past to the Present (The Stone from the Sea)”
Published: 2017

34. The Builders of the Oceans – Part II: Corals from the Past to the Present (The Stone from the Sea)

Author: Rossi, S. (Sergio), Bramanti, L. (Lorenzo), Gori, A. (Andrea), Orejas, C. (Covadonga), Jiménez, Carlos, Orejas, Covadonga, Rossi, S. (Sergio), Bramanti, L. (Lorenzo), Gori, A. (Andrea), Orejas, C. (Covadonga), Jiménez, Carlos, and Orejas, Covadonga
Abstract: At any scale, corals are live buildings. Their carbonate skeletons constitute three-dimensional frameworks allowing the delicate coral polyp to emerge from the sea bottom and populate vast areas of the ocean. The role that corals play in the oceans defies any attempt at simplification since it transcends the life span of the small polyp, geological time, and ecological space. Long after the polyps are gone, coral skeletons continue to play an important ecological role by hosting assemblages of disparate species utilizing the calcareous remains. However, the skeleton is one of the reasons coral has a privileged position in human culture. Coral has been regarded as mystic object and unique material of lapidary medical and apotropaic properties, this in great part due to the architecture and arrangement of the skeleton, growth morphologies, and color. Human history has been carved in chalk-white coral tombstones, on effigies, and on painted coral skeletons. Coral eyes of basaltic sentinels on Easter Island contemplate a plethora of coral artifacts scattered along the footpath of mankind: mortuary offerings, statues of pagan goddesses, helmets of Celtic warriors, military fortifications, and insular mosques shared the dream of the stone, when life seemed to depart from the mineral limbo, in the figure of the humble coral polyp. This chapter is the continuation of a personal journey into the coral forest of the world’s oceans (see chapter “The Builders of the Oceans – Part I: Coral Architecture from the Tropics to the Poles, from the Shallow to the Deep”). A selection of examples of human interactions with the “stone from the sea” will illustrate this complex and fascinating relationship with coral
Published: 2017

35. Trophic Ecology and Habitat Provision in Cold-Water Coral Ecosystems

Author: Rossi, S., Bramanti, L., Gori, A., Orejas, C., Buhl-Mortensen, P., Buhl-Mortensen, L., Purser, Autun, Rossi, S., Bramanti, L., Gori, A., Orejas, C., Buhl-Mortensen, P., Buhl-Mortensen, L., and Purser, Autun
Abstract: Cold-water coral ecosystems differ from each other greatly in structure, faunal makeup, and ecological function. Attributes such as substrate type, 3-D complexity, biological community, and nutrient supply also change over small temporal and spatial scales. In this chapter, we present an overview of food gathering strategies employed by a range of cold-water corals. Furthermore, the importance of corals as habitat providers for associated fauna and thus biodiversity is discussed. The coral habitats support ecosystems at various spatial scales ranging from local exposed skeleton patches on gorgonian branches to the various zones on a reef. Comparison is made between many types of animal forests made up by cold-water corals, including several types of coral gardens and coastal and offshore reefs from a wide range of environmental settings. The trophic ecology of reef types is compared, and the variation in feeding behavior across particular reefs is also discussed.
Published: 2016

36. Trophic Ecology and Habitat Provision in Cold-Water Coral Ecosystems

Author: Rossi, S., Bramanti, L., Gori, A., Orejas, C., Buhl-Mortensen, P., Buhl-Mortensen, L., Purser, Autun, Rossi, S., Bramanti, L., Gori, A., Orejas, C., Buhl-Mortensen, P., Buhl-Mortensen, L., and Purser, Autun
Abstract: Cold-water coral ecosystems differ from each other greatly in structure, faunal makeup, and ecological function. Attributes such as substrate type, 3-D complexity, biological community, and nutrient supply also change over small temporal and spatial scales. In this chapter, we present an overview of food gathering strategies employed by a range of cold-water corals. Furthermore, the importance of corals as habitat providers for associated fauna and thus biodiversity is discussed. The coral habitats support ecosystems at various spatial scales ranging from local exposed skeleton patches on gorgonian branches to the various zones on a reef. Comparison is made between many types of animal forests made up by cold-water corals, including several types of coral gardens and coastal and offshore reefs from a wide range of environmental settings. The trophic ecology of reef types is compared, and the variation in feeding behavior across particular reefs is also discussed.
Published: 2016

37. Physiological performance of the cold-water coral Lophelia pertusa under natural low oxygen conditions in the Angola margin (southeastern Atlantic Ocean)

Author: Gori, A., Orejas, C., Mienis, F., Ferrier-Pages, C., Dullo, Christian, Saturov, Dimitar, Flöter, Sebastian, Reynaud, S., Wienberg, C., Hebbeln, D., Gori, A., Orejas, C., Mienis, F., Ferrier-Pages, C., Dullo, Christian, Saturov, Dimitar, Flöter, Sebastian, Reynaud, S., Wienberg, C., and Hebbeln, D.
Published: 2016

38. Cold-water corals in the Cap de Creus canyon, northwestern Mediterranean: spatial distribution, density and anthropogenic impact [Comment]

Author: Orejas, C. (Covadonga) and Orejas, C. (Covadonga)
Published: 2016

39. Cold-water corals in the Cap de Creus canyon, northwestern Mediterranean: spatial distribution, density and anthropogenic impact [Comment]

Author: Orejas, C. (Covadonga) and Orejas, C. (Covadonga)
Published: 2016

40. Cold-water corals in the Bay of Biscay - occurrences and distribution in space and time (TransBiscay) - Cruise No. M84/5, May 31 - June 21, 2011, Vigo (Spain) - Brest (France)

Author: Flögel, Sascha, Becheler, R., De Cleyn, A., Da Cunha, M., Dullo, Wolf-Christian, Fietzke, Jan, Frank, Martin, Frank, Y., Garlichs, T., Genio, L., Gori, A., Liebetrau, Volker, Lopez-Correa, M., Matos, L., Movellan, A., Obermüller, G., Orejas, C., Petersen, Asmus, Raecke, A., Rüggeberg, Andres, Schott, Thorsten, Stalder, C., Zieringer, Moritz, Flögel, Sascha, Becheler, R., De Cleyn, A., Da Cunha, M., Dullo, Wolf-Christian, Fietzke, Jan, Frank, Martin, Frank, Y., Garlichs, T., Genio, L., Gori, A., Liebetrau, Volker, Lopez-Correa, M., Matos, L., Movellan, A., Obermüller, G., Orejas, C., Petersen, Asmus, Raecke, A., Rüggeberg, Andres, Schott, Thorsten, Stalder, C., and Zieringer, Moritz
Abstract: The scientific objectives of METEOR cruise M84/5 focused on the measurement and analysis of the environmental controls of modern and fossil cold-water coral growth along a transect in the Bay of Biscay. In four working areas we successfully deployed lander systems and CTD/Ro’s to document the physical and hydrochemical characteristics of bottom water masses and the water column in general. These are used to shed light on potential linkages to modern cold-water coral growth and distribution. These investigations were flanked by plankton tows in surface waters. The base for all investigations was a thorough hydroacoustic survey to characterize potential cold-water coral bearing areas with living colonies. Based on these maps we deployed all video-guided gear such as the OFOS-video sled, the TV grab, and the lander systems. Benthic assemblages and sedimentary structures have been documented and sampled with the OFOS and a box corer. Simultaneously, genetic samples of the living coral material were taken for additional studies. Furthermore, we have taken gravity cores to investigate the paleoceanographic conditions as well as the timing of cold-water coral colonization in the Bay of Biscay. Along with the coring efforts, a detailed sampling and study of porewater properties was performed. An additional aim of this cruise was to investigate the influence of boundary exchange processes on the Neodymium isotopy in bottom waters along the pathway of the Mediterranean Outflow water (MOW) by taking multiple samples with the CTD/Ro. The new data and samples of this METEOR cruise will provide the framework to investigate the timing of cold-water coral colonization in the Bay of Biscay, as well as its interplay with the ambient hydrography and geochemistry. This successful cruise has provided the basis to investigate the scientific aims of this expedition in great detail.
Published: 2014
Full Text: View/download PDF

41. Cold-water corals in the Bay of Biscay - occurrences and distribution in space and time (TransBiscay) - Cruise No. M84/5, May 31 - June 21, 2011, Vigo (Spain) - Brest (France)

Author: Flögel, Sascha, Becheler, R., De Cleyn, A., Da Cunha, M., Dullo, Wolf-Christian, Fietzke, Jan, Frank, Martin, Frank, Y., Garlichs, T., Genio, L., Gori, A., Liebetrau, Volker, Lopez-Correa, M., Matos, L., Movellan, A., Obermüller, G., Orejas, C., Petersen, Asmus, Raecke, A., Rüggeberg, Andres, Schott, Thorsten, Stalder, C., Zieringer, Moritz, Flögel, Sascha, Becheler, R., De Cleyn, A., Da Cunha, M., Dullo, Wolf-Christian, Fietzke, Jan, Frank, Martin, Frank, Y., Garlichs, T., Genio, L., Gori, A., Liebetrau, Volker, Lopez-Correa, M., Matos, L., Movellan, A., Obermüller, G., Orejas, C., Petersen, Asmus, Raecke, A., Rüggeberg, Andres, Schott, Thorsten, Stalder, C., and Zieringer, Moritz
Abstract: The scientific objectives of METEOR cruise M84/5 focused on the measurement and analysis of the environmental controls of modern and fossil cold-water coral growth along a transect in the Bay of Biscay. In four working areas we successfully deployed lander systems and CTD/Ro’s to document the physical and hydrochemical characteristics of bottom water masses and the water column in general. These are used to shed light on potential linkages to modern cold-water coral growth and distribution. These investigations were flanked by plankton tows in surface waters. The base for all investigations was a thorough hydroacoustic survey to characterize potential cold-water coral bearing areas with living colonies. Based on these maps we deployed all video-guided gear such as the OFOS-video sled, the TV grab, and the lander systems. Benthic assemblages and sedimentary structures have been documented and sampled with the OFOS and a box corer. Simultaneously, genetic samples of the living coral material were taken for additional studies. Furthermore, we have taken gravity cores to investigate the paleoceanographic conditions as well as the timing of cold-water coral colonization in the Bay of Biscay. Along with the coring efforts, a detailed sampling and study of porewater properties was performed. An additional aim of this cruise was to investigate the influence of boundary exchange processes on the Neodymium isotopy in bottom waters along the pathway of the Mediterranean Outflow water (MOW) by taking multiple samples with the CTD/Ro. The new data and samples of this METEOR cruise will provide the framework to investigate the timing of cold-water coral colonization in the Bay of Biscay, as well as its interplay with the ambient hydrography and geochemistry. This successful cruise has provided the basis to investigate the scientific aims of this expedition in great detail.
Published: 2014
Full Text: View/download PDF

42. Cold-water corals in the Bay of Biscay - occurrences and distribution in space and time (TransBiscay) - Cruise No. M84/5, May 31 - June 21, 2011, Vigo (Spain) - Brest (France)

Author: Flögel, Sascha, Becheler, R., De Cleyn, A., Da Cunha, M., Dullo, Wolf-Christian, Fietzke, Jan, Frank, Martin, Frank, Y., Garlichs, T., Genio, L., Gori, A., Liebetrau, Volker, Lopez-Correa, M., Matos, L., Movellan, A., Obermüller, G., Orejas, C., Petersen, Asmus, Raecke, A., Rüggeberg, Andres, Schott, Thorsten, Stalder, C., Zieringer, Moritz, Flögel, Sascha, Becheler, R., De Cleyn, A., Da Cunha, M., Dullo, Wolf-Christian, Fietzke, Jan, Frank, Martin, Frank, Y., Garlichs, T., Genio, L., Gori, A., Liebetrau, Volker, Lopez-Correa, M., Matos, L., Movellan, A., Obermüller, G., Orejas, C., Petersen, Asmus, Raecke, A., Rüggeberg, Andres, Schott, Thorsten, Stalder, C., and Zieringer, Moritz
Abstract: The scientific objectives of METEOR cruise M84/5 focused on the measurement and analysis of the environmental controls of modern and fossil cold-water coral growth along a transect in the Bay of Biscay. In four working areas we successfully deployed lander systems and CTD/Ro’s to document the physical and hydrochemical characteristics of bottom water masses and the water column in general. These are used to shed light on potential linkages to modern cold-water coral growth and distribution. These investigations were flanked by plankton tows in surface waters. The base for all investigations was a thorough hydroacoustic survey to characterize potential cold-water coral bearing areas with living colonies. Based on these maps we deployed all video-guided gear such as the OFOS-video sled, the TV grab, and the lander systems. Benthic assemblages and sedimentary structures have been documented and sampled with the OFOS and a box corer. Simultaneously, genetic samples of the living coral material were taken for additional studies. Furthermore, we have taken gravity cores to investigate the paleoceanographic conditions as well as the timing of cold-water coral colonization in the Bay of Biscay. Along with the coring efforts, a detailed sampling and study of porewater properties was performed. An additional aim of this cruise was to investigate the influence of boundary exchange processes on the Neodymium isotopy in bottom waters along the pathway of the Mediterranean Outflow water (MOW) by taking multiple samples with the CTD/Ro. The new data and samples of this METEOR cruise will provide the framework to investigate the timing of cold-water coral colonization in the Bay of Biscay, as well as its interplay with the ambient hydrography and geochemistry. This successful cruise has provided the basis to investigate the scientific aims of this expedition in great detail.
Published: 2014
Full Text: View/download PDF

43. Cold-water corals in the Bay of Biscay - occurrences and distribution in space and time (TransBiscay) - Cruise No. M84/5, May 31 - June 21, 2011, Vigo (Spain) - Brest (France)

Author: Flögel, Sascha, Becheler, R., De Cleyn, A., Da Cunha, M., Dullo, Wolf-Christian, Fietzke, Jan, Frank, Martin, Frank, Y., Garlichs, T., Genio, L., Gori, A., Liebetrau, Volker, Lopez-Correa, M., Matos, L., Movellan, A., Obermüller, G., Orejas, C., Petersen, Asmus, Raecke, A., Rüggeberg, Andres, Schott, Thorsten, Stalder, C., Zieringer, Moritz, Flögel, Sascha, Becheler, R., De Cleyn, A., Da Cunha, M., Dullo, Wolf-Christian, Fietzke, Jan, Frank, Martin, Frank, Y., Garlichs, T., Genio, L., Gori, A., Liebetrau, Volker, Lopez-Correa, M., Matos, L., Movellan, A., Obermüller, G., Orejas, C., Petersen, Asmus, Raecke, A., Rüggeberg, Andres, Schott, Thorsten, Stalder, C., and Zieringer, Moritz
Abstract: The scientific objectives of METEOR cruise M84/5 focused on the measurement and analysis of the environmental controls of modern and fossil cold-water coral growth along a transect in the Bay of Biscay. In four working areas we successfully deployed lander systems and CTD/Ro’s to document the physical and hydrochemical characteristics of bottom water masses and the water column in general. These are used to shed light on potential linkages to modern cold-water coral growth and distribution. These investigations were flanked by plankton tows in surface waters. The base for all investigations was a thorough hydroacoustic survey to characterize potential cold-water coral bearing areas with living colonies. Based on these maps we deployed all video-guided gear such as the OFOS-video sled, the TV grab, and the lander systems. Benthic assemblages and sedimentary structures have been documented and sampled with the OFOS and a box corer. Simultaneously, genetic samples of the living coral material were taken for additional studies. Furthermore, we have taken gravity cores to investigate the paleoceanographic conditions as well as the timing of cold-water coral colonization in the Bay of Biscay. Along with the coring efforts, a detailed sampling and study of porewater properties was performed. An additional aim of this cruise was to investigate the influence of boundary exchange processes on the Neodymium isotopy in bottom waters along the pathway of the Mediterranean Outflow water (MOW) by taking multiple samples with the CTD/Ro. The new data and samples of this METEOR cruise will provide the framework to investigate the timing of cold-water coral colonization in the Bay of Biscay, as well as its interplay with the ambient hydrography and geochemistry. This successful cruise has provided the basis to investigate the scientific aims of this expedition in great detail.
Published: 2014
Full Text: View/download PDF

44. Predictive Ensemble Maps of cold-water coral distribution in the Cap de Creus Canyon (NW Mediterranean)

Author: Lo Iacono, C., Robert, K., Gonzalez-Villanueva, R., Gori, A., Orejas, C., Gili, J.-M., Lo Iacono, C., Robert, K., Gonzalez-Villanueva, R., Gori, A., Orejas, C., and Gili, J.-M.
Abstract: Predictive habitat mapping has shown great promise to improve the understanding of the spatial distribution of benthic habitats. However, although they surely represent an important step forward in process-based ecosystem management, their predictive efficiency is not always tested by independent groundtruthing data. This is particularly true for the deep-sea environment, where sample data are always limited compared to the large extent of the areas to be mapped. The aim of this study is to apply and test different spatial models to statistically predict the distribution of three Cold-Water Coral (CWC) species (Madrepora oculata, Lophelia pertusa and Dendrophyllia cornigera) in the Cap de Creus Canyon (NW Mediterranean), based on high-resolution swath-bathymetry data and video observations from the submersible JAGO (IFM-GEOMAR). Submarine canyons act as specific hosting areas for CWCs, owing to their favourable environmental conditions, which provide habitat and shelter for a wide range of species, including commercially viable fish. Maximum Entropy (MaxEnt), General Additive Model (GAM) and decision tree model (Random Forest) were independently applied to represent non-linear species-environment relationships using terrain variables derived from multibeam bathymetry (slope, geomorphologic category, rugosity, aspect, backscatter). Relevant differences between the three models were observed. Nonetheless, the predicted areas where CWCs should be found with higher probabilities coincided for the three methods when a lower spatial scale was considered. According to the models, CWCs are most likely to be found on the medium to steeply sloping, rough walls of the southern flank of the canyon, aligning with the known CWC ecology acquired from previous studies in the area. As a final step, a probabilistic predictive ensemble has been produced merging the outcomes of the three models considered, providing a more robust prediction for the three species. The main insight is th
Published: 2014

45. Bathymetrical distribution and size structure of cold-water coral populations in the Cap de Creus and Lacaze-Duthiers canyons (northwestern Mediterranean)

Author: Gori, A., Orejas, C., Madurell, T., Bramanti, L., Martins, M., Quintanilla, E., Marti-Puig, P., Lo Iacono, C., Puig, P., Requena, S., Greenacre, M., Gili, J.M., Gori, A., Orejas, C., Madurell, T., Bramanti, L., Martins, M., Quintanilla, E., Marti-Puig, P., Lo Iacono, C., Puig, P., Requena, S., Greenacre, M., and Gili, J.M.
Abstract: Submarine canyons are known as one of the seafloor morphological features where living cold-water coral (CWC) communities develop in the Mediterranean Sea. We investigated the CWC community of the two westernmost submarine canyons of the Gulf of Lions canyon system: the Cap de Creus Canyon (CCC) and Lacaze-Duthiers Canyon (LDC). Coral associations have been studied through video material recorded by means of a manned submersible and a remotely operated vehicle. Video transects have been conducted and analyzed in order to obtain information on (1) coral bathymetric distribution and density patterns, (2) size structure of coral populations, and (3) coral colony position with respect to the substrate. Madrepora oculata was the most abundant CWC in both canyons, while Lophelia pertusa and Dendrophyllia cornigera mostly occurred as isolated colonies or in small patches. An important exception was detected in a vertical cliff in LDC where a large L. pertusa framework was documented. This is the first record of such an extended L. pertusa framework in the Mediterranean Sea. In both canyons coral populations were dominated by medium and large colonies, but the frequent presence of small-sized colonies also indicate active recruitment. The predominant coral orientation (90◦ and 135◦) is probably driven by the current regime as well as by the sediment load transported by the current flows. In general, no clear differences were observed in the abundance and in the size structure of the CWC populations between CCC and LDC, despite large differences in particulate matter between canyons.
Published: 2013

46. Bathymetrical distribution and size structure of cold-water coral populations in the Cap de Creus and Lacaze-Duthiers canyons (northwestern Mediterranean)

Author: Gori, A., Orejas, C., Madurell, T., Bramanti, L., Martins, M., Quintanilla, E., Marti-Puig, P., Lo Iacono, C., Puig, P., Requena, S., Greenacre, M., Gili, J. M., Gori, A., Orejas, C., Madurell, T., Bramanti, L., Martins, M., Quintanilla, E., Marti-Puig, P., Lo Iacono, C., Puig, P., Requena, S., Greenacre, M., and Gili, J. M.
Abstract: Submarine canyons are known as one of the seafloor morphological features where living cold-water coral (CWC) communities develop in the Mediterranean Sea. We investigated the CWC community of the two westernmost submarine canyons of the Gulf of Lions canyon system: the Cap de Creus Canyon (CCC) and Lacaze-Duthiers Canyon (LDC). Coral associations have been studied through video material recorded by means of a manned submersible and a remotely operated vehicle. Video transects have been conducted and analyzed in order to obtain information on (1) coral bathymetric distribution and density patterns, (2) size structure of coral populations, and (3) coral colony position with respect to the substrate. Madrepora oculata was the most abundant CWC in both canyons, while Lophelia pertusa and Dendrophyllia cornigera mostly occurred as isolated colonies or in small patches. An important exception was detected in a vertical cliff in LDC where a large L. pertusa framework was documented. This is the first record of such an extended L. pertusa framework in the Mediterranean Sea. In both canyons coral populations were dominated by medium and large colonies, but the frequent presence of small-sized colonies also indicate active recruitment. The predominant coral orientation (90° and 135°) is probably driven by the current regime as well as by the sediment load transported by the current flows. In general, no clear differences were observed in the abundance and in the size structure of the CWC populations between CCC and LDC, despite large differences in particulate matter between canyons.
Published: 2013
Full Text: View/download PDF

47. Bathymetrical distribution and size structure of cold-water coral populations in the Cap de Creus and Lacaze-Duthiers canyons (northwestern Mediterranean)

Author: Gori, A., Orejas, C., Madurell, T., Bramanti, L., Martins, M., Quintanilla, E., Marti-Puig, P., Lo Iacono, C., Puig, P., Requena, S., Greenacre, M., Gili, J. M., Gori, A., Orejas, C., Madurell, T., Bramanti, L., Martins, M., Quintanilla, E., Marti-Puig, P., Lo Iacono, C., Puig, P., Requena, S., Greenacre, M., and Gili, J. M.
Abstract: Submarine canyons are known as one of the seafloor morphological features where living cold-water coral (CWC) communities develop in the Mediterranean Sea. We investigated the CWC community of the two westernmost submarine canyons of the Gulf of Lions canyon system: the Cap de Creus Canyon (CCC) and Lacaze-Duthiers Canyon (LDC). Coral associations have been studied through video material recorded by means of a manned submersible and a remotely operated vehicle. Video transects have been conducted and analyzed in order to obtain information on (1) coral bathymetric distribution and density patterns, (2) size structure of coral populations, and (3) coral colony position with respect to the substrate. Madrepora oculata was the most abundant CWC in both canyons, while Lophelia pertusa and Dendrophyllia cornigera mostly occurred as isolated colonies or in small patches. An important exception was detected in a vertical cliff in LDC where a large L. pertusa framework was documented. This is the first record of such an extended L. pertusa framework in the Mediterranean Sea. In both canyons coral populations were dominated by medium and large colonies, but the frequent presence of small-sized colonies also indicate active recruitment. The predominant coral orientation (90° and 135°) is probably driven by the current regime as well as by the sediment load transported by the current flows. In general, no clear differences were observed in the abundance and in the size structure of the CWC populations between CCC and LDC, despite large differences in particulate matter between canyons.
Published: 2013
Full Text: View/download PDF

48. Bathymetrical distribution and size structure of cold-water coral populations in the Cap de Creus and Lacaze-Duthiers canyons (northwestern Mediterranean)

Author: Gori, A., Orejas, C., Madurell, T., Bramanti, L., Martins, M., Quintanilla, E., Marti-Puig, P., Lo Iacono, C., Puig, P., Requena, S., Greenacre, M., Gili, J. M., Gori, A., Orejas, C., Madurell, T., Bramanti, L., Martins, M., Quintanilla, E., Marti-Puig, P., Lo Iacono, C., Puig, P., Requena, S., Greenacre, M., and Gili, J. M.
Abstract: Submarine canyons are known as one of the seafloor morphological features where living cold-water coral (CWC) communities develop in the Mediterranean Sea. We investigated the CWC community of the two westernmost submarine canyons of the Gulf of Lions canyon system: the Cap de Creus Canyon (CCC) and Lacaze-Duthiers Canyon (LDC). Coral associations have been studied through video material recorded by means of a manned submersible and a remotely operated vehicle. Video transects have been conducted and analyzed in order to obtain information on (1) coral bathymetric distribution and density patterns, (2) size structure of coral populations, and (3) coral colony position with respect to the substrate. Madrepora oculata was the most abundant CWC in both canyons, while Lophelia pertusa and Dendrophyllia cornigera mostly occurred as isolated colonies or in small patches. An important exception was detected in a vertical cliff in LDC where a large L. pertusa framework was documented. This is the first record of such an extended L. pertusa framework in the Mediterranean Sea. In both canyons coral populations were dominated by medium and large colonies, but the frequent presence of small-sized colonies also indicate active recruitment. The predominant coral orientation (90° and 135°) is probably driven by the current regime as well as by the sediment load transported by the current flows. In general, no clear differences were observed in the abundance and in the size structure of the CWC populations between CCC and LDC, despite large differences in particulate matter between canyons.
Published: 2013
Full Text: View/download PDF

49. High thermal tolerance of two Mediterranean cold-water coral species maintained in aquaria

Author: Naumann, M. S., Orejas, C., Ferrier-Pagès, C., Naumann, M. S., Orejas, C., and Ferrier-Pagès, C.
Abstract: In the Mediterranean deep-sea, scleractinian cold-water corals (CWC) are observed to survive at the uppermost end of their presumed thermal distribution range (4–13 °C). Here, we show that 2 common CWC species (i.e. Dendrophyllia cornigera and Desmophyllum dianthus) maintained in aquaria can indeed tolerate considerably elevated seawater temperatures (17.5 ± 0.1 °C), while growing at similar (D. dianthus) or significantly higher (D. cornigera) rates than conspecifics cultured in parallel for 87 days at ambient Mediterranean deep-sea temperature (12.5 ± 0.1 °C). Neither differences in coral appearance nor mortality were evident for both species at either temperature. D. dianthus grew significantly faster (0.23 ± 0.08 % day−1) than D. cornigera (0.05 ± 0.01 % day−1) under ambient thermal conditions. Growth of D. cornigera increased significantly (0.14 ± 0.07 % day−1) at elevated temperature, while Desmophyllum dianthus growth showed no significant difference under both conditions. These findings suggest that D. dianthus and D. cornigera may be capable of surviving in warmer environments than previously reported, and thus challenge temperature as the paramount limiting environmental factor for the occurrence of some CWC species.
Published: 2013
Full Text: View/download PDF

50. High thermal tolerance of two Mediterranean cold-water coral species maintained in aquaria

Author: Naumann, M. S., Orejas, C., Ferrier-Pagès, C., Naumann, M. S., Orejas, C., and Ferrier-Pagès, C.
Abstract: In the Mediterranean deep-sea, scleractinian cold-water corals (CWC) are observed to survive at the uppermost end of their presumed thermal distribution range (4–13 °C). Here, we show that 2 common CWC species (i.e. Dendrophyllia cornigera and Desmophyllum dianthus) maintained in aquaria can indeed tolerate considerably elevated seawater temperatures (17.5 ± 0.1 °C), while growing at similar (D. dianthus) or significantly higher (D. cornigera) rates than conspecifics cultured in parallel for 87 days at ambient Mediterranean deep-sea temperature (12.5 ± 0.1 °C). Neither differences in coral appearance nor mortality were evident for both species at either temperature. D. dianthus grew significantly faster (0.23 ± 0.08 % day−1) than D. cornigera (0.05 ± 0.01 % day−1) under ambient thermal conditions. Growth of D. cornigera increased significantly (0.14 ± 0.07 % day−1) at elevated temperature, while Desmophyllum dianthus growth showed no significant difference under both conditions. These findings suggest that D. dianthus and D. cornigera may be capable of surviving in warmer environments than previously reported, and thus challenge temperature as the paramount limiting environmental factor for the occurrence of some CWC species.
Published: 2013
Full Text: View/download PDF

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