Your search keyword '"Cold-water coral"' showing total 8 results

1. Comparative Genomic Analysis of Cold-Water Coral-Derived Sulfitobacter faviae : Insights into Their Habitat Adaptation and Metabolism.

Author

Lin, Shituan, Guo, Yunxue, Huang, Zixian, Tang, Kaihao, and Wang, Xiaoxue

Abstract

Sulfitobacter is one of the major sulfite-oxidizing alphaproteobacterial groups and is often associated with marine algae and corals. Their association with the eukaryotic host cell may have important ecological contexts due to their complex lifestyle and metabolism. However, the role of Sulfitobacter in cold-water corals remains largely unexplored. In this study, we explored the metabolism and mobile genetic elements (MGEs) in two closely related Sulfitobacter faviae strains isolated from cold-water black corals at a depth of ~1000 m by comparative genomic analysis. The two strains shared high sequence similarity in chromosomes, including two megaplasmids and two prophages, while both contained several distinct MGEs, including prophages and megaplasmids. Additionally, several toxin-antitoxin systems and other types of antiphage elements were also identified in both strains, potentially helping Sulfitobacter faviae overcome the threat of diverse lytic phages. Furthermore, the two strains shared similar secondary metabolite biosynthetic gene clusters and genes involved in dimethylsulfoniopropionate (DMSP) degradation pathways. Our results provide insight into the adaptive strategy of Sulfitobacter strains to thrive in ecological niches such as cold-water corals at the genomic level. [ABSTRACT FROM AUTHOR]

Published

2023

2. Wanted Dead or Alive: Skeletal Structure Alteration of Cold-Water Coral Desmophyllum pertusum (Lophelia pertusa) from Anthropogenic Stressors.

Author

Krueger, Erica Terese, Büscher, Janina V., Hoey, David A., Taylor, David, O'Reilly, Peter J., and Crowley, Quentin G.

Subjects

*LOPHELIA pertusa, *DEEP-sea corals, *OCEAN acidification, *MARINE organisms, *OCEAN temperature, *GOLD ores

Abstract

Ocean acidification (OA) has provoked changes in the carbonate saturation state that may alter the formation and structural biomineralisation of calcium carbonate exoskeletons for marine organisms. Biomineral production in organisms such as cold-water corals (CWC) rely on available carbonate in the water column and the ability of the organism to sequester ions from seawater or nutrients for the formation and growth of a skeletal structure. As an important habitat structuring species, it is essential to examine the impact that anthropogenic stressors (i.e., OA and rising seawater temperatures) have on living corals and the structural properties of dead coral skeletons; these are important contributors to the entire reef structure and the stability of CWC mounds. In this study, dead coral skeletons in seawater were exposed to various levels of pCO2 and different temperatures over a 12-month period. Nanoindentation was subsequently conducted to assess the structural properties of coral samples' elasticity (E) and hardness (H), whereas the amount of dissolution was assessed through scanning electron microscopy. Overall, CWC samples exposed to elevated pCO2 and temperature show changes in properties which leave them more susceptible to breakage and may in turn negatively impact the formation and stability of CWC mound development. [ABSTRACT FROM AUTHOR]

Published

2023

3. Mapping of Cold-Water Coral Carbonate Mounds Based on Geomorphometric Features: An Object-Based Approach.

Author

Diesing, Markus and Thorsnes, Terje

Subjects

CORAL reefs & islands, ECOSYSTEMS

Abstract

Cold-water coral reefs are rich, yet fragile ecosystems found in colder oceanic waters. Knowledge of their spatial distribution on continental shelves, slopes, seamounts and ridge systems is vital for marine spatial planning and conservation. Cold-water corals frequently form conspicuous carbonate mounds of varying sizes, which are identifiable from multibeam echosounder bathymetry and derived geomorphometric attributes. However, the often-large number of mounds makes manual interpretation and mapping a tedious process. We present a methodology that combines image segmentation and random forest spatial prediction with the aim to derive maps of carbonate mounds and an associated measure of confidence. We demonstrate our method based on multibeam echosounder data from Iverryggen on the mid-Norwegian shelf. We identified the image-object mean planar curvature as the most important predictor. The presence and absence of carbonate mounds is mapped with high accuracy. Spatially-explicit confidence in the predictions is derived from the predicted probability and whether the predictions are within or outside the modelled range of values and is generally high. We plan to apply the showcased method to other areas of the Norwegian continental shelf and slope where multibeam echosounder data have been collected with the aim to provide crucial information for marine spatial planning. [ABSTRACT FROM AUTHOR]

Published

2018

4. Application of hyperspectral imaging to underwater habitat mapping, Southern Adriatic Sea

Author

Foglini, Federica, Grande, Valentina, Marchese, Fabio, Bracchi, Valentina A., Prampolini, Mariacristina, Angeletti, Lorenzo, Castellan, Giorgio, Chimienti, Giovanni, Hansen, Ingrid M., Gudmundsen, Magne, Meroni, Agostino N., Mercorella, Alessandra, Vertino, Agostina, Badalamenti, Fabio, Corselli, Cesare, Erdal, Ivar, Martorelli, Eleonora, Savini, Alessandra, Taviani, Marco, Foglini, Federica, Grande, Valentina, Marchese, Fabio, Bracchi, Valentina A., Prampolini, Mariacristina, Angeletti, Lorenzo, Castellan, Giorgio, Chimienti, Giovanni, Hansen, Ingrid M., Gudmundsen, Magne, Meroni, Agostino N., Mercorella, Alessandra, Vertino, Agostina, Badalamenti, Fabio, Corselli, Cesare, Erdal, Ivar, Martorelli, Eleonora, Savini, Alessandra, and Taviani, Marco

Abstract

© The Author(s), 2019. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Foglini, F., Grande, V., Marchese, F., Bracchi, V. A., Prampolini, M., Angeletti, L., Castellan, G., Chimienti, G., Hansen, I. M., Gudmundsen, M., Meroni, A. N., Vertino, A., Badalamenti, F., Corselli, C., Erdal, I., Martorelli, E., Savini, A., & Taviani, M. (2019). Application of hyperspectral imaging to underwater habitat mapping, Southern Adriatic Sea. Sensors, 19(10), (2019): 2261, doi:10.3390/s19102261., Hyperspectral imagers enable the collection of high-resolution spectral images exploitable for the supervised classification of habitats and objects of interest (OOI). Although this is a well-established technology for the study of subaerial environments, Ecotone AS has developed an underwater hyperspectral imager (UHI) system to explore the properties of the seafloor. The aim of the project is to evaluate the potential of this instrument for mapping and monitoring benthic habitats in shallow and deep-water environments. For the first time, we tested this system at two sites in the Southern Adriatic Sea (Mediterranean Sea): the cold-water coral (CWC) habitat in the Bari Canyon and the Coralligenous habitat off Brindisi. We created a spectral library for each site, considering the different substrates and the main OOI reaching, where possible, the lower taxonomic rank. We applied the spectral angle mapper (SAM) supervised classification to map the areal extent of the Coralligenous and to recognize the major CWC habitat-formers. Despite some technical problems, the first results demonstrate the suitability of the UHI camera for habitat mapping and seabed monitoring, through the achievement of quantifiable and repeatable classifications., Flagship Project RITMARE (La Ricerca Italiana per il Mare) and EVER-EST projects (ID: 674907).

Published

2019

5. Application of Hyperspectral Imaging to Underwater Habitat Mapping, Southern Adriatic Sea

Author

Foglini, F, Grande, V, Marchese, F, Bracchi, V, Prampolini, M, Angeletti, L, Castellan, G, Chimienti, G, Hansen, I, Gudmundsen, M, Meroni, A, Mercorella, A, Vertino, A, Badalamenti, F, Corselli, C, Erdal, I, Martorelli, E, Savini, A, Taviani, M, Bracchi, VA, Hansen, IM, Meroni, AN, Foglini, F, Grande, V, Marchese, F, Bracchi, V, Prampolini, M, Angeletti, L, Castellan, G, Chimienti, G, Hansen, I, Gudmundsen, M, Meroni, A, Mercorella, A, Vertino, A, Badalamenti, F, Corselli, C, Erdal, I, Martorelli, E, Savini, A, Taviani, M, Bracchi, VA, Hansen, IM, and Meroni, AN

Abstract

Hyperspectral imagers enable the collection of high-resolution spectral images exploitable for the supervised classification of habitats and objects of interest (OOI). Although this is a well-established technology for the study of subaerial environments, Ecotone AS has developed an underwater hyperspectral imager (UHI) system to explore the properties of the seafloor. The aim of the project is to evaluate the potential of this instrument for mapping and monitoring benthic habitats in shallow and deep-water environments. For the first time, we tested this system at two sites in the Southern Adriatic Sea (Mediterranean Sea): The cold-water coral (CWC) habitat in the Bari Canyon and the Coralligenous habitat off Brindisi. We created a spectral library for each site, considering the different substrates and the main OOI reaching, where possible, the lower taxonomic rank. We applied the spectral angle mapper (SAM) supervised classification to map the areal extent of the Coralligenous and to recognize the major CWC habitat-formers. Despite some technical problems, the first results demonstrate the suitability of the UHI camera for habitat mapping and seabed monitoring, through the achievement of quantifiable and repeatable classifications.

Published

2019

6. The "Little MonSta" Deep-Sea Benthic, Precision Deployable, Multi-Sensor and Sampling Lander Array.

Author

Wheeler, Andrew J., Lim, Aaron, Butschek, Felix, O'Reilly, Luke, Harris, Kimberley, O'Driscoll, Paddy, Lewis, Elfed, O'Mathuna, Cian, Barton, John, Farrell, Gerald, Condell, Joan, Newe, Thomas, Keogh, Alison, and Briciu-Burghina, Ciprian

Subjects

*ACOUSTIC Doppler current profiler, *DEEP-sea corals, *SUBMARINE valleys, *PLASTIC marine debris, *WATER depth

Abstract

The "Little MonSta" benthic lander array consists of 8 ROV-deployable (remotely operated vehicle) instrumented lander platforms for monitoring physical and chemical oceanographic properties and particle sampling developed as part of the MMMonKey_Pro program (mapping, modeling, and monitoring key processes and controls in cold-water coral habitats in submarine canyons). The Little MonStas offer flexible solutions to meet the need to monitor marine benthic environments during a historically unprecedented time of climate-driven oceanic change, develop an understanding of meso-scale benthic processes (natural and man-made), and to calibrate geological environmental archives. Equipped with acoustic Doppler current profilers (ADCPs), sediment traps, nylon settlement plates and homing beacons, the compact and upgradable lander platforms can be deployed by ROVs to precise locations in extreme terrains to a water depth of 3000 m. The array allows cluster-monitoring in heterogeneous environments or simultaneous monitoring over wider areas. A proof-of-concept case study was presented from the cold-water coral habitable zone in the upper Porcupine Bank Canyon, where the Little MonStas collected 868.8 h of current speed, direction, temperature, and benthic particulate flux records, as well as 192 particle samples subsequently analyzed for particular organic carbon (POC), lithic sediment, live foraminifera, and microplastics. The potential to upgrade the Little MonStas with additional sensors and acoustic releases offers greater and more flexible operational capabilities. [ABSTRACT FROM AUTHOR]

Published

2021

7. Application of Hyperspectral Imaging to Underwater Habitat Mapping, Southern Adriatic Sea.

Author

Foglini F, Grande V, Marchese F, Bracchi VA, Prampolini M, Angeletti L, Castellan G, Chimienti G, Hansen IM, Gudmundsen M, Meroni AN, Mercorella A, Vertino A, Badalamenti F, Corselli C, Erdal I, Martorelli E, Savini A, and Taviani M

Abstract

Hyperspectral imagers enable the collection of high-resolution spectral images exploitable for the supervised classification of habitats and objects of interest (OOI). Although this is a well-established technology for the study of subaerial environments, Ecotone AS has developed an underwater hyperspectral imager (UHI) system to explore the properties of the seafloor. The aim of the project is to evaluate the potential of this instrument for mapping and monitoring benthic habitats in shallow and deep-water environments. For the first time, we tested this system at two sites in the Southern Adriatic Sea (Mediterranean Sea): the cold-water coral (CWC) habitat in the Bari Canyon and the Coralligenous habitat off Brindisi. We created a spectral library for each site, considering the different substrates and the main OOI reaching, where possible, the lower taxonomic rank. We applied the spectral angle mapper (SAM) supervised classification to map the areal extent of the Coralligenous and to recognize the major CWC habitat-formers. Despite some technical problems, the first results demonstrate the suitability of the UHI camera for habitat mapping and seabed monitoring, through the achievement of quantifiable and repeatable classifications.

Published

2019

8. Resistance of Two Mediterranean Cold-Water Coral Species to Low-pH Conditions

Author

Àngel López-Sanz, Carlos Dominguez-Carrió, Covadonga Orejas, Consejo Superior de Investigaciones Científicas, Jordi Grinyó, Juancho Movilla, Carles Pelejero, Eva María Calvo, Andrea Gori, Movilla, Juancho, Gori, Andrea, Calvo, Eva, Orejas, Covadonga, López-Sanz, Ángel, Domínguez-Carrió, Carlo, Grinyó, Jordi, Pelejero, Carles, and Universitat de Barcelona

Subjects

0106 biological sciences, Mediterranean climate, lcsh:Hydraulic engineering, 010504 meteorology & atmospheric sciences, aquaria experiment, Coral, Geography, Planning and Development, Madrepora oculata, 01 natural sciences, Biochemistry, Microdensity, Lophelia, Mediterranean sea, lcsh:Water supply for domestic and industrial purposes, Canvi climàtic, Water Science and Technology, ocean acidification, cold-water corals, Lophelia pertusa, Mediterranean Sea, calcification rate, porosity, microdensity, biology, Mediterrània (Mar), Ecology, Ocean acidification, Aquaria experiment, Corals, Calcification rate, Cold-water corals, Porosity, Aquatic ecology, Zoology, Aquatic Science, Cold-water coral, Centro Oceanográfico de Baleares, lcsh:TC1-978, Ecosystem, 14. Life underwater, Medio Marino, Coralls, 0105 earth and related environmental sciences, lcsh:TD201-500, 010604 marine biology & hydrobiology, Ecologia aquàtica, Climatic changes, biology.organism_classification, Climatic change, 13. Climate action, Seawater, Aquaria experiments, Canvis climàtics

Abstract

9 pages, 1 figure, 1 table, Deep-water ecosystems are characterized by relatively low carbonate concentration values and, due to ocean acidification (OA), these habitats might be among the first to be exposed to undersaturated conditions in the forthcoming years. However, until now, very few studies have been conducted to test how cold-water coral (CWC) species react to such changes in the seawater chemistry. The present work aims to investigate the mid-term effect of decreased pH on calcification of the two branching CWC species most widely distributed in the Mediterranean, Lophelia pertusa and Madrepora oculata. No significant effects were observed in the skeletal growth rate, microdensity and porosity of both species after 6 months of exposure. However, while the calcification rate of M. oculata was similar for all colony fragments, a heterogeneous skeletal growth pattern was observed in L. pertusa, the younger nubbins showing higher growth rates than the older ones. A higher energy demand is expected in these young, fast-growing fragments and, therefore, a reduction in calcification might be noticed earlier during long-term exposure to acidified conditions. © 2013 by the authors, This research was supported by the European Project HERMIONE (grant agreement number 226354), the Spanish Government (MINECO) projects ACDC (CTM2009-08849/MAR) and MANIFEST (CTM2012-32017) and by the Marine Biogeochemistry and Global Change research group (Generalitat de Catalunya, 2009SGR142). JM was funded by a FPI studentship (BES-2007-16537) and AG by an I3P studentship (I3P-BPD2005) from the Spanish Government

Published

2013