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5. Ecological and environmental controls on the fine-scale distribution of cold-water corals in the North-East Atlantic

Author

De Clippele, Laurence Helene and Roberts, Murray

Subjects
577.7
Abstract

This thesis integrated acoustic, high-definition video and hydrodynamic data to study the distribution, morphology and ecology of cold-water corals (CWC) in the Mingulay Reef area (Chapter 2), the Tisler Reef area (Chapter 3) and the Logachev Mound area (Chapter 4). A new British Geological Survey (BGS) ArcGIS seabed mapping toolbox was developed and quantified semi-automatically the morphometric and acoustic characteristics of CWC reefs. Over 500 Lophelia pertusa reef mounds were delineated and characterised at the Mingulay Reef Complex (Chapter 2), 14 at the Tisler Reef (Norway) (Chapter 3) and 123 in the Logachev Area (Chapter 4). These reefs all had large amounts of small round-shaped mounds. Additionally, the Logachev area had very large dendriform-shaped mounds. A microbathymetric grid of the central area of the Mingulay Reef was used to identify individual live coral colonies (1-7 m) that provided data to predict the likelihood of presence of live coral colonies on biogenic reef mounds (Chapter 2). The distribution and morphology of L. pertusa colonies and the sponges Mycale lingua and Geodia sp. within the Tisler Reef, revealed the importance of local hydrodynamics and substrate availability (Chapter 3). Non-scleractinian corals associated with the Logachev mounds (Chapter 4) proved to be abundant, biodiverse and function as a habitat for associated organisms. Differences in their distribution were found to be related to food supply, the availability and stability of settling substrates. This thesis showed that the BGS Seabed Mapping Toolbox is useful to study the ecology and morphology of reef mounds within and between reefs. Studies on the fine-scale spatial distribution of corals within reefs provided information on the ecology of CWCs.

Published
2018

7. Building your own mountain: the effects, limits, and drawbacks of cold-water coral ecosystem engineering

Author

van der Kaaden, Anna-Selma, primary, Maier, Sandra R., additional, Chen, Siluo, additional, De Clippele, Laurence H., additional, de Froe, Evert, additional, Gerkema, Theo, additional, van de Koppel, Johan, additional, Mienis, Furu, additional, Mohn, Christian, additional, Rietkerk, Max, additional, Soetaert, Karline, additional, and van Oevelen, Dick, additional

Published
2024
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8. Building your own mountain: the effects, limits, and drawbacks of cold-water coral ecosystem engineering

Author

Van Der Kaaden, Anna Selma, Maier, Sandra R., Chen, Siluo, De Clippele, Laurence H., De Froe, Evert, Gerkema, Theo, Van De Koppel, Johan, Mienis, Furu, Mohn, Christian, Rietkerk, Max, Soetaert, Karline, Van Oevelen, Dick, Van Der Kaaden, Anna Selma, Maier, Sandra R., Chen, Siluo, De Clippele, Laurence H., De Froe, Evert, Gerkema, Theo, Van De Koppel, Johan, Mienis, Furu, Mohn, Christian, Rietkerk, Max, Soetaert, Karline, and Van Oevelen, Dick

Abstract

Framework-forming cold-water corals (CWCs) are ecosystem engineers that build mounds in the deep sea that can be up to several hundred metres high. The effect of the presence of cold-water coral mounds on their surroundings is typically difficult to separate from environmental factors that are not affected by the mounds. We investigated the environmental control on and the importance of ecosystem engineering for cold-water coral reefs using annotated video transect data, spatial variables (MEMs), and hydrodynamic model outputs in a redundancy analysis and with variance partitioning. Using available hydrodynamic simulations with cold-water coral mounds and simulations where the mounds were artificially removed, we investigated the effect of coral mound ecosystem engineering on the spatial configuration of reef habitat and discriminated which environmental factors are and which are not affected by the mounds. We find that downward velocities in winter, related to non-engineered environmental factors, e.g. deep winter mixing and dense-water cascading, cause substantial differences in reef cover at the broadest spatial scale (20-30km). Such hydrodynamic processes that stimulate the food supply towards the corals in winter seem more important for the reefs than cold-water coral mound engineering or similar hydrodynamic processes in summer. While the ecosystem-engineering effect of cold-water corals is frequently discussed, our results also highlight the importance of non-engineered environmental processes. We further find that, due to the interaction between the coral mound and the water flow, different hydrodynamic zones are found on coral mounds that likely determine the typical benthic zonations of coral rubble at the mound foot, the dead coral framework on the mound flanks, and the living corals near the summit. Moreover, we suggest that a so-called Massenerhebung effect (well known for terrestrial mountains) exists, meaning that benthic zonation depends on the lo

Published
2024

9. Building your own mountain: the effects, limits, and drawbacks of cold-water coral ecosystem engineering

Author

Spatial Ecology and Global Change, Geochemistry, Environmental Sciences, Climate and Environment, Van Der Kaaden, Anna Selma, Maier, Sandra R., Chen, Siluo, De Clippele, Laurence H., De Froe, Evert, Gerkema, Theo, Van De Koppel, Johan, Mienis, Furu, Mohn, Christian, Rietkerk, Max, Soetaert, Karline, Van Oevelen, Dick, Spatial Ecology and Global Change, Geochemistry, Environmental Sciences, Climate and Environment, Van Der Kaaden, Anna Selma, Maier, Sandra R., Chen, Siluo, De Clippele, Laurence H., De Froe, Evert, Gerkema, Theo, Van De Koppel, Johan, Mienis, Furu, Mohn, Christian, Rietkerk, Max, Soetaert, Karline, and Van Oevelen, Dick

Published
2024

15. Recovery and restoration potential of cold-water corals: experience from a deep-sea marine protected area

Author

Strong, James, Piechaud, Nils, De Clippele, Laurence, Bett, Brian, Horton, Tammy, Corbera, Guillem, and Huvenne, Veerle

Abstract

Cold-water corals (CWCs) are important species that provide habitat for other taxa but are sensitive to mechanical damage from bottom trawling. CWC conservation has been implemented in the form of Marine Protected Areas (MPAs), but recovery from impact may be particularly slow in the deep-sea environment; consequently, the use of restoration techniques has been considered. To gain some insight into CWC recruitment and growth, in 2011 we deployed small seabed moorings in the Darwin Mounds MPA (~1000 m water depth). This site hosts hundreds of CWC mounds, that had previously (until 2003) been impacted by deep-water trawling. In 2019, we carried out in situ visual surveys of these moorings and the surrounding seabed environment, then recovered two of the moorings. The mooring buoys, glass floats with plastic covers, were extensively colonised by a diverse epifauna that included the CWCs Desmophyllum pertusum and Desmophyllum dianthus. The presence of coral recruits indicated that environmental conditions, and larval supply, remained favourable for the settlement and growth of CWCs within the MPA. Based on our observations, we consider four possible restoration methods, together with a ‘do-nothing’ option, for the Darwin Mounds CWCs that have shown little, if any, natural recovery despite 16-years of protection. We conclude that seabed emplacement of high-relief artificial substrata is likely to be the most efficient and cost-efficient means of promoting enhanced recovery of the CWCs.

Published
2023

16. Marine Image Analysis Handbook for RootPainter

Author

Clark, Hannah Poppy, Smith, Abraham George, and De Clippele, Laurence

Subjects
Marine image analysis, Machine learning
Abstract

This handbook details use of the open-source and user friendly machine learning tool, RootPainter, for analysis of marine image data. This tool can be used to extract area measurements for a given species without requiring pre-processing of images. Originally compiled for use in an interactive workshop, the handbooktakes you through installation of the tool and the training process on a practise datasetidentifying Primnoa resedaeformis.It also contains advice for using the tool on your own data.

Published
2023
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17. On the paradox of thriving cold-water coral reefs in the food-limited deep sea

Author

Maier, Sandra R., Brooke, Sandra, De Clippele, Laurence H., de Froe, Evert, van der Kaaden, Anna Selma, Kutti, Tina, Mienis, Furu, van Oevelen, Dick, Maier, Sandra R., Brooke, Sandra, De Clippele, Laurence H., de Froe, Evert, van der Kaaden, Anna Selma, Kutti, Tina, Mienis, Furu, and van Oevelen, Dick

Abstract

The deep sea is amongst the most food-limited habitats on Earth, as only a small fraction (<4%) of the surface primary production is exported below 200 m water depth. Here, cold-water coral (CWC) reefs form oases of life: their biodiversity compares with tropical coral reefs, their biomass and metabolic activity exceed other deep-sea ecosystems by far. We critically assess the paradox of thriving CWC reefs in the food-limited deep sea, by reviewing the literature and open-access data on CWC habitats. This review shows firstly that CWCs typically occur in areas where the food supply is not constantly low, but undergoes pronounced temporal variation. High currents, downwelling and/or vertically migrating zooplankton temporally boost the export of surface organic matter to the seabed, creating ‘feast’ conditions, interspersed with ‘famine’ periods during the non-productive season. Secondly, CWCs, particularly the most common reef-builder Desmophyllum pertusum (formerly known as Lophelia pertusa), are well adapted to these fluctuations in food availability. Laboratory and in situ measurements revealed their dietary flexibility, tissue reserves, and temporal variation in growth and energy allocation. Thirdly, the high structural and functional diversity of CWC reefs increases resource retention: acting as giant filters and sustaining complex food webs with diverse recycling pathways, the reefs optimise resource gains over losses. Anthropogenic pressures, including climate change and ocean acidification, threaten this fragile equilibrium through decreased resource supply, increased energy costs, and dissolution of the calcium-carbonate reef framework. Based on this review, we suggest additional criteria to judge the health of CWC reefs and their chance to persist in the future.

Published
2023

18. Recovery and restoration potential of cold‐water corals: experience from a deep‐sea marine protected area

Author

Strong, James A., Piechaud, Nils, De Clippele, Laurence H., Bett, Brian J., Horton, Tammy, Corbera, Guillem, Huvenne, Veerle A. I., Strong, James A., Piechaud, Nils, De Clippele, Laurence H., Bett, Brian J., Horton, Tammy, Corbera, Guillem, and Huvenne, Veerle A. I.

Abstract

Cold-water corals (CWCs) are important species that provide habitat for other taxa but are sensitive to mechanical damage from bottom trawling. CWC conservation has been implemented in the form of marine protected areas (MPAs), but recovery from impact may be particularly slow in the deep-sea environment; consequently, the use of restoration techniques has been considered. To gain some insight into CWC recruitment and growth, in 2011 we deployed small seabed moorings in the Darwin Mounds MPA (~1,000 m water depth). This site hosts hundreds of CWC mounds, that had previously (until 2003) been impacted by deep-water trawling. In 2019, we carried out in situ visual surveys of these moorings and the surrounding seabed environment, then recovered two of the moorings. The mooring buoys, glass floats with plastic covers, were extensively colonized by a diverse epifauna that included the CWCs Desmophyllum pertusum and D. dianthus. The presence of coral recruits indicated that environmental conditions, and larval supply, remained favorable for the settlement and growth of CWCs within the MPA. Based on our observations, we consider four possible restoration methods, together with a “do-nothing” option, for the Darwin Mounds CWCs that have shown little, if any, natural recovery despite 16 years of protection. We conclude that seabed emplacement of high-relief artificial substrata is likely to be the most efficient and cost-efficient means of promoting enhanced recovery of the CWCs.

Published
2023

19. Recovery and restoration potential of cold-water corals: experience from a deep-sea marine protected area

Author

Natural Environment Research Council (UK), European Commission, Agencia Estatal de Investigación (España), Strong, James Asa, Piechaud, Nils, De Clippele, Laurence H., Bett, Brian J., Horton, Tammy, Corbera, Guillem, Huvenne, Veerle A.I., Natural Environment Research Council (UK), European Commission, Agencia Estatal de Investigación (España), Strong, James Asa, Piechaud, Nils, De Clippele, Laurence H., Bett, Brian J., Horton, Tammy, Corbera, Guillem, and Huvenne, Veerle A.I.

Abstract

Cold-water corals (CWCs) are important species that provide habitat for other taxa but are sensitive to mechanical damage from bottom trawling. CWC conservation has been implemented in the form of marine protected areas (MPAs), but recovery from impact may be particularly slow in the deep-sea environment; consequently, the use of restoration techniques has been considered. To gain some insight into CWC recruitment and growth, in 2011 we deployed small seabed moorings in the Darwin Mounds MPA (~1,000 m water depth). This site hosts hundreds of CWC mounds, that had previously (until 2003) been impacted by deep-water trawling. In 2019, we carried out in situ visual surveys of these moorings and the surrounding seabed environment, then recovered two of the moorings. The mooring buoys, glass floats with plastic covers, were extensively colonized by a diverse epifauna that included the CWCs Desmophyllum pertusum and D. dianthus. The presence of coral recruits indicated that environmental conditions, and larval supply, remained favorable for the settlement and growth of CWCs within the MPA. Based on our observations, we consider four possible restoration methods, together with a “do-nothing” option, for the Darwin Mounds CWCs that have shown little, if any, natural recovery despite 16 years of protection. We conclude that seabed emplacement of high-relief artificial substrata is likely to be the most efficient and cost-efficient means of promoting enhanced recovery of the CWC

Published
2023

20. Evaluating annual severe coral bleaching risk for marine protected areas across Indonesia

Author

De Clippele, Laurence H., primary, Díaz, Laura Alonso, additional, Andradi-Brown, Dominic A., additional, Lazuardi, Muhammad Erdi, additional, Iqbal, Mohamad, additional, Zainudin, Imam Musthofa, additional, Prabuning, Derta, additional, van Hooidonk, Ruben, additional, Hakim, Amehr, additional, Agung, Firdaus, additional, Dermawan, Agus, additional, and Hennige, Sebastian J., additional

Published
2023
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21. Cruise Report - Sambro Bank and Gully MPA, 2022

Author

De Clippele, Laurence H., Xu, Jinshan, Mohn, Christian, Wolff, George, Blackbird, Sabena, Whoriskey, Fred, Barthelotte, Jay, Phelan, Kirk, MacDonald, Barry, Lirette, Camille, and Kenchington, Ellen

Abstract

Cruise Report in Support of Maritimes Region Research Project ‘Use of Passive Acoustics to Quantify Fish Biodiversity and Habitat Use’: Ocean Observation Systems in the Gully MPA and Scotian Shelf 2022

Published
2023
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24. Building your own mountain: The effects, limits, and drawbacks of cold-water coral ecosystem engineering.

Author

van der Kaaden, Anna-Selma, Maier, Sandra R., Siluo Chen, De Clippele, Laurence H., de Froe, Evert, Gerkema, Theo, van de Koppel, Johan, Mohn, Christian, Rietkerk, Max, Soetaert, Karline, and van Oevelen, Dick

Subjects
DEEP-sea corals, CORAL reefs & islands, CORALS, WATER depth, ECOSYSTEMS, FOOD supply, WINTER, CLIMATE change
Abstract

Framework-forming cold-water corals are ecosystem engineers that build mounds in the deep-sea that can be several hundred meters high. The effect of the presence of cold-water coral mounds on their surrounding is typically difficult to separate from environmental factors that are not affected by the mounds. We investigated the environmental control on coldwater coral reefs at multiple spatial scales, using annotated video transects data, spatial variables (MEMs) and hydrodynamic model output in a redundancy analysis and with variance partitioning. Using available hydrodynamic simulations with cold20 water coral mounds and simulations where the mounds were artificially removed, we investigated the effect of coral mound ecosystem engineering on the spatial configuration of reef habitat and discriminated which environmental factors are and which are not affected by the mounds. We find that, due to the interaction between the coral mound and the water flow, different hydrodynamic zones are created on a coral mound that likely determine the typical benthic zonation of coral rubble at the mound foot, dead coral framework on the mound flank, and living corals near the summit. Moreover, we observed a so-called massenerhebung effect (well-known for terrestrial mountains) meaning that benthic zonation depends on the location on the mound rather than on the height above the seafloor or water depth. Our finding that ecosystem engineering determines the configuration of benthic habitats on coldwater coral mounds has many implications, such as that cold-water corals cannot simply move towards deeper water depths to avoid the adverse effects of climate change. We further find that downward velocities in winter, related to non-engineered environmental factors, e.g., deep winter mixing and dense water cascading, correlated to substantial differences in reef cover at the broadest spatial scale (20-30 km). Such hydrodynamic processes that stimulate the food supply towards the corals in winter are more important for the reefs than similar hydrodynamic processes in summer. There is much research on the ecosystem engineering effects of cold-water corals, but our results highlight that the influence of non-engineered environmental processes that accelerate the food supply towards the cold-water corals should not be underestimated. [ABSTRACT FROM AUTHOR]

Published
2023
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27. Biomass Mapping for an Improved Understanding of the Contribution of Cold-Water Coral Carbonate Mounds to C and N Cycling

Author

De Clippele, Laurence Helene, van der Kaaden, Anna Selma, Maier, Sandra Rosa, de Froe, Evert, Roberts, J.M., De Clippele, Laurence Helene, van der Kaaden, Anna Selma, Maier, Sandra Rosa, de Froe, Evert, and Roberts, J.M.

Abstract

This study used a novel approach combining biological, environmental, and ecosystem function data of the Logachev cold-water coral carbonate mound province to predictively map coral framework (bio)mass. A more accurate representation and quantification of cold-water coral reef ecosystem functions such as Carbon and Nitrogen stock and turnover were given by accounting for the spatial heterogeneity. Our results indicate that 45% is covered by dead and only 3% by live coral framework. The remaining 51%, is covered by fine sediments. It is estimated that 75,034–93,534 tons (T) of live coral framework is present in the area, of which ∼10% (7,747–9,316 T) consists of Cinorg and ∼1% (411–1,061 T) of Corg. A much larger amount of 3,485,828–4,357,435 T (60:1 dead:live ratio) dead coral framework contained ∼11% (418,299–522,892 T) Cinorg and <1% (0–16 T) Corg. The nutrient turnover by dead coral framework is the largest, contributing 45–51% (2,596–3,626 T) C year–1 and 30–62% (290–1,989 T) N year–1 to the total turnover in the area. Live coral framework turns over 1,656–2,828 T C year–1 and 53–286 T N year–1. Sediments contribute between 1,216–1,512 T C year–1 and 629–919 T N year–1 to the area’s benthic organic matter mineralization. However, this amount is likely higher as sediments baffled by coral framework might play a much more critical role in reefs CN cycling than previously assumed. Our calculations showed that the area overturns 1–3.4 times the C compared to a soft-sediment area at a similar depth. With only 5–9% of the primary productivity reaching the corals via natural deposition, this study indicated that the supply of food largely depends on local hydrodynamical food supply mechanisms and the reefs ability to retain and recycle nutrients. Climate-induced changes in primary production, local hydrodynamical food supply and the dissolution of particle-baffling coral framework could have severe implications for the survival and functioning of cold-water coral reefs

Published
2021

28. The Future of Our Seas: Marine scientists and creative professionals collaborate for science communication

Author

De Clippele, Laurence, primary, Michelotti, Madlaina, additional, Findlay, Charlotte R., additional, Cartwright, Amy, additional, Fang, Qing, additional, Wheatley, Charlie, additional, Sladen, Ashleigh, additional, Scott-Somme, Kes, additional, Harding, Harry R., additional, Jackson, Juliette, additional, Hepburn, Laura E., additional, Giannotti, Jessica, additional, Carroll, Grace, additional, Heidtke, Nicole, additional, Worrall, Alison M., additional, and De Meyer, Kris, additional

Published
2021
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29. ATLAS Deliverable 10.6 4th Environmental and Animal Ethical Report

Author

Eighteen, Julia and de Clippele, Laurence

Subjects
education
Abstract

This report compiles the environmental and animal ethical information, along with relevant permits and letters of support for research that has taken place during ATLAS. The nature of the research on animals undertaken by ATLAS has included sampling of invertebrate animals from the wild, preserving specimens for collections, transporting live animals to laboratories for aquarium experiments, and taking specimens for Marine Genetic Resources (MGR). Research on animals in ATLAS is being undertaken by WP2, WP3 and WP4 and makes use of both new samples collected and existing samples available in ATLAS partner’s labs. ATLAS partners providing or working with biological samples are expected to ensure that their work complies with their national legislation and ethical principles and also ensure relevant ethical approvals and permits are in place prior to starting their work.

Published
2019
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33. The Diversity and ecological role of non-scleractinian corals (Antipatharia and Alcyonacea) on scleractinian cold-water coral mounds

Author

De Clippele, Laurence Helene, Huvenne, Veerle A. I., Molodtsova, Tina N., Roberts, J. Murray, De Clippele, Laurence Helene, Huvenne, Veerle A. I., Molodtsova, Tina N., and Roberts, J. Murray

Abstract

Cold-water coral carbonate mounds, created by framework-building scleractinian corals, are also important habitats for non-scleractinian corals, whose ecology and role are understudied in deep-sea environments. This paper describes the diversity, ecology and role of non-scleractinian corals on scleractinian cold-water coral carbonate mounds in the Logachev Mound Province, Rockall Bank, NE Atlantic. In total ten non-scleractinian species were identified, which were mapped out along eight ROV video transects. Eight species were identified as black corals (three belonging to the family Schizopathidae, one each to the Leiopathidae, Cladopathidae, and Antipathidae and two to an unknown family) and two as gorgonians (Isididae and Plexauridae). The most abundant species were Leiopathes sp. and Parantipathes sp. 2. Areas with a high diversity of non-scleractinian corals are interpreted to offer sufficient food, weak inter-species competition and the presence of heterogeneous and hard settlement substrates. A difference in the density and occurrence of small vs. large colonies of Leiopathes sp. was also observed, which is likely related to a difference in the stability of the substrate they choose for settlement. Non-scleractinian corals, especially black corals, are an important habitat for crabs, crinoids, and shrimps in the Logachev Mound Province. The carrier crab Paromola sp. was observed carrying the plexaurid Paramuricea sp. and a black coral species belonging to the genus Parantipathes, a behavior believed to provide the crab with camouflage or potentially a defense mechanism against predators. More information on the ecophysiology of non-scleractinian corals and fine-scale local organic matter supply are needed to understand what drives differences in their spatial distribution and community structure.

Published
2019

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

Author

De-Clippele, Laurence Helene, Huvenne, V.A.I., Orejas, Covadonga, Lundälv, Tomas, Fox, Alan, Hennige, S.J., Roberts, John Murray, De-Clippele, Laurence Helene, Huvenne, V.A.I., Orejas, Covadonga, Lundälv, Tomas, Fox, Alan, Hennige, S.J., and Roberts, John Murray

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

35. Seamount egg-laying grounds of the deep-water skate Bathyraja richardsoni

Author

Henry, Lea-Anne, Stehmann, M. F. W., De Clippele, Laurence, and Roberts, Murray

Subjects
Habitat, Elasmobranch, Reproduction, Environment, Deep sea
Abstract

Highly localized concentrations of elasmobranch egg capsules of the deep-water skate Bathyraja richardsoni were discovered during the first remotely operated vehicle (ROV) survey of the Hebrides Terrace Seamount in the Rockall Trough, north-east Atlantic Ocean. Conductivity-temperature-depth profiling indicated that the eggs were bathed in a specific environmental niche of well-oxygenated waters between 4·20 and 4·55° C, and salinity 34·95-35·06, on a coarse to fine-grained sandy seabed on the seamount's eastern flank, whereas a second type of egg capsule (possibly belonging to the skate Dipturus sp.) was recorded exclusively amongst the reef-building stony coral Solenosmilia variabilis. The depths of both egg-laying habitats (1489-1580m) provide a de facto refuge from fisheries mortality for younger life stages of these skates.

Published
2016
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36. Deep Corals, Deep Learning: Moving The Deep Net Towards Real-Time Image Annotation

Author

Henry, Lea-Anne, Mukherjee, Sankha S., Robertson, Neil M., De Clippele, Laurence, and Roberts, J. Murray

Abstract

The mismatch between human capacity and the acquisition of Big Data such as Earth imagery undermines commitments to Convention on Biological Diversity (CBD) and Aichi targets. Artificial intelligence (AI) solutions to Big Data issues are urgently needed as these could prove to be faster, more accurate, and cheaper. Reducing costs of managing protected areas in remote deep waters and in the High Seas is of great importance, and this is a realm where autonomous technology will be transformative.

Published
2016
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37. A comparison of the degree of implementation of marine biodiversity indicators by European countries in relation to the Marine Strategy Framework Directive (MSFD)

Author

Hummel, Herman, Frost, Matt, Juanes, José A., Kochmann, Judith, Bolde, Carlos F Castellanos Perez, Aneiros, Fernando, Vandenbosch, François, Franco, João N., Echavarri, Beatriz, Guinda, Xabier, Puente, Araceli, Fernández, Camino, Galván, Cristina, Merino, Maria, Ramos, Elvira, Fernández, Paloma, Pitacco, Valentina, Alberte, Madara, Wojcik, Dagmara, Grabowska, Monika, Jahnke, Marlene, Crocetta, Fabio, Carugati, Laura, Scorrano, Simonetta, Fraschetti, Simonetta, García, Patricia Pérez, Sanabria Fernández, José Antonio, Poromov, Artem, Iurchenko, Anna, Isachenko, Artem, Chava, Alexandra, Pavloudi, Christina, Bordeyne, François, Andersen, Simone Fie, Eronat, Elizabeth Grace Tunka, Cakmak, Taylan, Louizidou, Paraskevi, Rico, José, Ruci, Stela, Corta Diego, David, Mendez, Sara, Rousou, Maria, De Clippele, Laurence, Eriksson, Annukka, Van Zanten, Winnie, Diamant, Anna, De Matos, Valentina Kirienko Fernandes, Hummel, Herman, Frost, Matt, Juanes, José A., Kochmann, Judith, Bolde, Carlos F Castellanos Perez, Aneiros, Fernando, Vandenbosch, François, Franco, João N., Echavarri, Beatriz, Guinda, Xabier, Puente, Araceli, Fernández, Camino, Galván, Cristina, Merino, Maria, Ramos, Elvira, Fernández, Paloma, Pitacco, Valentina, Alberte, Madara, Wojcik, Dagmara, Grabowska, Monika, Jahnke, Marlene, Crocetta, Fabio, Carugati, Laura, Scorrano, Simonetta, Fraschetti, Simonetta, García, Patricia Pérez, Sanabria Fernández, José Antonio, Poromov, Artem, Iurchenko, Anna, Isachenko, Artem, Chava, Alexandra, Pavloudi, Christina, Bordeyne, François, Andersen, Simone Fie, Eronat, Elizabeth Grace Tunka, Cakmak, Taylan, Louizidou, Paraskevi, Rico, José, Ruci, Stela, Corta Diego, David, Mendez, Sara, Rousou, Maria, De Clippele, Laurence, Eriksson, Annukka, Van Zanten, Winnie, Diamant, Anna, and De Matos, Valentina Kirienko Fernandes

Abstract

The degree of development and operability of the indicators for the Marine Strategy Framework Directive (MSFD) using Descriptor 1 (D1) Biological Diversity was assessed. To this end, an overview of the relevance and degree of operability of the underlying parameters across 20 European countries was compiled by analysing national directives, legislation, regulations, and publicly available reports. Marked differences were found between countries in the degree of ecological relevance as well as in the degree of implementation and operability of the parameters chosen to indicate biological diversity. The best scoring EU countries were France, Germany, Greece and Spain, while the worst scoring countries were Italy and Slovenia. No country achieved maximum scores for the implementation of MSFD D1. The non-EU countries Norway and Turkey score as highly as the top-scoring EU countries. On the positive side, the chosen parameters for D1 indicators were generally identified as being an ecologically relevant reflection of Biological Diversity. On the negative side however, less than half of the chosen parameters are currently operational. It appears that at a pan-European level, no consistent and harmonized approach currently exists for the description and assessment of marine biological diversity. The implementation of the MSFD Descriptor 1 for Europe as a whole can therefore at best be marked as moderately successful.

Published
2015

38. A comparison of the degree of implementation of marine biodiversity indicators by European countries in relation to the Marine Strategy Framework Directive (MSFD)

Author

Hummel, Herman, primary, Frost, Matt, additional, Juanes, José A., additional, Kochmann, Judith, additional, Castellanos Perez Bolde, Carlos F., additional, Aneiros, Fernando, additional, Vandenbosch, François, additional, Franco, João N., additional, Echavarri, Beatriz, additional, Guinda, Xabier, additional, Puente, Araceli, additional, Fernández, Camino, additional, Galván, Cristina, additional, Merino, Maria, additional, Ramos, Elvira, additional, Fernández, Paloma, additional, Pitacco, Valentina, additional, Alberte, Madara, additional, Wojcik, Dagmara, additional, Grabowska, Monika, additional, Jahnke, Marlene, additional, Crocetta, Fabio, additional, Carugati, Laura, additional, Scorrano, Simonetta, additional, Fraschetti, Simonetta, additional, García, Patricia Pérez, additional, Sanabria Fernández, José Antonio, additional, Poromov, Artem, additional, Iurchenko, Anna, additional, Isachenko, Artem, additional, Chava, Alexandra, additional, Pavloudi, Christina, additional, Bordeyne, François, additional, Andersen, Simone Fie, additional, Eronat, Elizabeth Grace Tunka, additional, Cakmak, Taylan, additional, Louizidou, Paraskevi, additional, Rico, José, additional, Ruci, Stela, additional, Corta Diego, David, additional, Mendez, Sara, additional, Rousou, Maria, additional, de Clippele, Laurence, additional, Eriksson, Annukka, additional, van Zanten, Winnie, additional, Diamant, Anna, additional, and de Matos, Valentina Kirienko Fernandes, additional

Published
2015
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39. ATLAS Deliverable 10.5 Environmental and Animal Ethical Report

Author

de Clippele, Laurence

Subjects
14. Life underwater
Abstract

This report compiles the environmental and animal ethical information, along with relevant permits and letters of support for research that has taken place during the first and second year of ATLAS. The nature of the research on animals undertaken by ATLAS has included sampling of invertebrate animals from the wild, preserving specimens for collections, transporting live animals to laboratories for aquarium experiments, and taking specimens for Marine Genetic Resources (MGR). Research on animals in ATLAS is being undertaken by WP2, WP3 and WP4 and makes use of both new samples collected and existing samples available in ATLAS partner’s labs. ATLAS partners providing or working with biological samples are expected to ensure that their work complies with their national legislation and ethical principles and also ensure relevant ethical approvals and permits are in place prior to starting their work. &nbsp

40. ATLAS Deliverable 10.6 4th Environmental and Animal Ethical Report

Author

Eighteen, Julia and de Clippele, Laurence

Subjects
education, 14. Life underwater
Abstract

This report compiles the environmental and animal ethical information, along with relevant permits and letters of support for research that has taken place during ATLAS. The nature of the research on animals undertaken by ATLAS has included sampling of invertebrate animals from the wild, preserving specimens for collections, transporting live animals to laboratories for aquarium experiments, and taking specimens for Marine Genetic Resources (MGR). Research on animals in ATLAS is being undertaken by WP2, WP3 and WP4 and makes use of both new samples collected and existing samples available in ATLAS partner’s labs. ATLAS partners providing or working with biological samples are expected to ensure that their work complies with their national legislation and ethical principles and also ensure relevant ethical approvals and permits are in place prior to starting their work.

41. The Effect Of Local Hydrodynamics On The Spatial Extent And Morphology Of Cold-Water Coral Habitats At Tisler Reef, Norway

Author

De Clippele, Laurence H, Huvenne, VAI, Orejas, C, Lundälv, T, Fox, A, Hennige, SJ, and Roberts, JM

Subjects
14. Life underwater
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., S. J. Hennige was funded by NERC NE/K009028/1 and NE/K009028/2

42. ATLAS Deliverable 10.6 4th Environmental and Animal Ethical Report

Author

Eighteen, Julia and de Clippele, Laurence

Subjects
14. Life underwater
Abstract

This report compiles the environmental and animal ethical information, along with relevant permits and letters of support for research that has taken place during ATLAS. The nature of the research on animals undertaken by ATLAS has included sampling of invertebrate animals from the wild, preserving specimens for collections, transporting live animals to laboratories for aquarium experiments, and taking specimens for Marine Genetic Resources (MGR). Research on animals in ATLAS is being undertaken by WP2, WP3 and WP4 and makes use of both new samples collected and existing samples available in ATLAS partner’s labs. ATLAS partners providing or working with biological samples are expected to ensure that their work complies with their national legislation and ethical principles and also ensure relevant ethical approvals and permits are in place prior to starting their work.

43. A comparison of the degree of implementation of marine biodiversity indicators by European countries in relation to the Marine Strategy Framework Directive (MSFD)

Author

David Corta Diego, Camino Fernández, François Vandenbosch, Laura Carugati, Laurence Helene De Clippele, Anna Diamant, Stela Ruci, Madara Alberte, José M. Rico, Simonetta Scorrano, Araceli Puente, José A. Juanes, Winnie van Zanten, Paraskevi Louizidou, Elvira Ramos, Maria Rousou, Beatriz Echavarri, Carlos F. Castellanos Perez Bolde, Taylan Cakmak, Simone Fie Andersen, Matthew Frost, Dagmara Wójcik, Artem Isachenko, João N. Franco, Xabier Guinda, Valentina de Matos, Anna Iurchenko, Sara Mendez, Marlene Jahnke, Fabio Crocetta, Alexandra Chava, Paloma Fernández, José Antonio Sanabria Fernández, Simonetta Fraschetti, Elizabeth Grace Tunka Eronat, Cristina Galván, Herman Hummel, Artem Poromov, Christina Pavloudi, François Bordeyne, María Merino, Patricia Pérez García, Annukka Eriksson, Valentina Pitacco, Monika Grabowska, Fernando Aneiros, Judith Kochmann, Universidad de Cantabria [Santander], Laboratorio zoologia e biologia marina, Università del Salento [Lecce], Ecogéochimie et Fonctionnement des Ecosystèmes Benthiques (EFEB), Adaptation et diversité en milieu marin (AD2M), Station biologique de Roscoff [Roscoff] (SBR), Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Station biologique de Roscoff [Roscoff] (SBR), Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), Netherlands Institute of Ecology, COST Action ES1003 EMBOS on the Development and Implementation of a Pan-European Marine Biodiversity Observatory System, MARES Grant under the Erasmus Mundus framework [FPA 2011- 0016], SZN PhD fellowship, Portuguese PhD FCT grant [SFRH/BD/84933/2012], Olsen lab, Ege Üniversitesi, Hummel, Herman, Frost, Matt, Juanes, José A., Kochmann, Judith, Castellanos Perez Bolde, Carlos F., Aneiros, Fernando, Vandenbosch, Françoi, Franco, João N., Echavarri, Beatriz, Guinda, Xabier, Puente, Araceli, Fernández, Camino, Galván, Cristina, Merino, Maria, Ramos, Elvira, Fernández, Paloma, Pitacco, Valentina, Alberte, Madara, Wojcik, Dagmara, Grabowska, Monika, Jahnke, Marlene, Crocetta, Fabio, Carugati, Laura, Scorrano, Simonetta, Fraschetti, Simonetta, García, Patricia Pérez, Sanabria Fernández, José Antonio, Poromov, Artem, Iurchenko, Anna, Isachenko, Artem, Chava, Alexandra, Pavloudi, Christina, Bordeyne, Françoi, Andersen, Simone Fie, Eronat, Elizabeth Grace Tunka, Cakmak, Taylan, Louizidou, Paraskevi, Rico, José, Ruci, Stela, Corta Diego, David, Mendez, Sara, Rousou, Maria, de Clippele, Laurence, Eriksson, Annukka, van Zanten, Winnie, Diamant, Anna, de Matos, Valentina Kirienko Fernandes, Juanes José, A., Castellanos Perez Bolde Carlos, F., Franco João, N., García Patricia, Pérez, Sanabria Fernández José, Antonio, Andersen Simone, Fie, Eronat Elizabeth Grace, Tunka, and de Matos Valentina Kirienko, Fernandes

Subjects
marine biodiversity, Operability, Relation (database), [SDV]Life Sciences [q-bio], Biodiversity, Legislation, Aquatic Science, operability, Eu countries, Marine Strategy Framework Directive, Indicators, MSFD, descriptor, marine biodiversity, operability, Indicators, descriptor, KNOWLEDGE, 14. Life underwater, MSFD, Marine biodiversity, Eurooppa, käytettävyys, business.industry, Environmental resource management, Descriptor, 15. Life on land, strategia, luonnon monimuotoisuus, Degree (music), biodiversiteetti, Geography, Indicator, 13. Climate action, direktiivit, [SDE]Environmental Sciences, ta1181, NORWEGIAN NATURE INDEX, meristrategia, business, meret, indikaattorit
Abstract

49th European Marine Biology Symposium (EMBS) -- SEP 08-12, 2014 -- Saint Petersburg, RUSSIA, WOS: 000364937700002, The degree of development and operability of the indicators for the Marine Strategy Framework Directive (MSFD) using Descriptor 1 (D1) Biological Diversity was assessed. To this end, an overview of the relevance and degree of operability of the underlying parameters across 20 European countries was compiled by analysing national directives, legislation, regulations, and publicly available reports. Marked differences were found between countries in the degree of ecological relevance as well as in the degree of implementation and operability of the parameters chosen to indicate biological diversity. The best scoring EU countries were France, Germany, Greece and Spain, while the worst scoring countries were Italy and Slovenia. No country achieved maximum scores for the implementation of MSFD D1. The non-EU countries Norway and Turkey score as highly as the top-scoring EU countries. On the positive side, the chosen parameters for D1 indicators were generally identified as being an ecologically relevant reflection of Biological Diversity. On the negative side however, less than half of the chosen parameters are currently operational. It appears that at a pan-European level, no consistent and harmonized approach currently exists for the description and assessment of marine biological diversity. The implementation of the MSFD Descriptor 1 for Europe as a whole can therefore at best be marked as moderately successful., Russian Acad Sci, Zool Inst, COST Action ES1003 EMBOS on the Development and Implementation of a Pan-European Marine Biodiversity Observatory System; MARES Grant under the Erasmus Mundus framework [FPA 2011- 0016]; SZN PhD fellowship; Portuguese PhD FCT grant [SFRH/BD/84933/2012], Meetings to prepare this paper were made possible by funding through COST Action ES1003 EMBOS on the Development and Implementation of a Pan-European Marine Biodiversity Observatory System. Carlos Castellanos Perez Bolde acknowledges MARES Grant FPA 2011- 0016 under the Erasmus Mundus framework, Marlene Jahnke has been supported by a SZN PhD fellowship, and Joao N. Franco by Portuguese PhD FCT grant SFRH/BD/84933/2012.

Published
2015
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