61 results on '"Jean‐François Hamel"'
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2. Growth, health and biochemical composition of the sea cucumber Cucumaria frondosa after multi-year holding in effluent waters of land-based salmon culture
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Bruno L. Gianasi, Jiamin Sun, Michael Graham, Jean-François Hamel, and Annie Mercier
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lcsh:SH1-691 ,0106 biological sciences ,chemistry.chemical_classification ,biology ,Stable isotope ratio ,010604 marine biology & hydrobiology ,Fatty acid ,04 agricultural and veterinary sciences ,Management, Monitoring, Policy and Law ,Aquatic Science ,biology.organism_classification ,01 natural sciences ,lcsh:Aquaculture. Fisheries. Angling ,Sea cucumber ,Cucumaria ,chemistry ,lcsh:QH540-549.5 ,Environmental chemistry ,040102 fisheries ,Biochemical composition ,0401 agriculture, forestry, and fisheries ,lcsh:Ecology ,Land based ,Effluent ,Water Science and Technology - Abstract
Methods have been proposed to mitigate the environmental footprint of aquaculture, including co-culture of species occupying different trophic levels. In this study, sea cucumbers Cucumaria frondosa, either from production tanks fed with effluent water from land-based salmon culture over 4 yr or collected from the field, were compared using stable isotope, lipid and fatty acid (FA) signatures as indicators of waste assimilation, health and biochemical composition. Enrichment of δ13C in muscle bands and intestine and of δ15N in muscle bands, gonad and intestine was detected in captive individuals relative to wild individuals, suggesting the uptake and assimilation of waste from salmon culture. The higher levels of FA biomarkers typical of salmon feed (18:1ω9, 18:2ω6 and 20:1ω9) and lower ω3/ω6 ratio in the captive sea cucumbers were also in line with assimilation of the waste. However, male and female sea cucumbers from the co-culture became smaller with time, their organ indices were lower than those of wild individuals (e.g. poorly developed gonad), and their biochemical composition differed: triacylglycerol content was greater in wild individuals and phospholipid content was greater in captive individuals. Also, FA profiles of all tissues differed between the 2 groups, whereas total lipid in muscle bands and gonad remained similar. Overall, results support that co-culture with suspension-feeding sea cucumbers may help mitigate the salmon industry footprint. In turn, the biochemical composition of the sea cucumbers changed, and their reduced size and body indices suggest that this food source does not provide suitable nutrients to sustain growth and reproduction.
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- 2020
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3. Rainbow bodies: Revisiting the diversity of coelomocyte aggregates and their synthesis in echinoderms
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Sara Jobson, Jean-François Hamel, and Annie Mercier
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Sea Cucumbers ,Environmental Chemistry ,Animals ,General Medicine ,Aquatic Science ,Phylogeny ,Echinodermata - Abstract
The innate immunity of echinoderms has been a research focus since the early twentieth century, consistently providing ever deeper knowledge of its complexity and evolutionary aspects. At its core are coelomocytes, which are diverse cells collectively known to respond in a variety of ways, including via movement, phagocytosis, and aggregation. However, features of cellular immunity have never been compared in echinoderms from phylogenetic and distributional perspectives, to provide insight into ecological and evolutionary patterns. The present study catalyzed and characterized the formation of coelomocyte aggregates in members of all five extant classes of echinoderms. The morphological characteristics of these aggregates (including their colour, shape, texture, size) were assessed, as well as the major cells composing them. Coelomocyte diversity (both as free and aggregated forms) was determined to be maximum in class Holothuroidea, followed by Echinoidea, with the other classes showing similar levels of diversity. The colours of coelomocyte aggregates appeared to be more closely linked to phylogeny (classes, orders) rather than geographic range, or external colour of the species themselves. Asteroids and ophiuroids displayed primarily light-coloured aggregates, from transparent to green; while holothuroids, echinoids and crinoids demonstrated more vivid variants, from red to deep purple. The kinetics of aggregate formation and expulsion were monitored in selected species, showing immediate cellular response to foreign particulate matter in the form of encapsulation and various methods of expulsion, including through the dermal papillae of asteroids and the anus (cloaca) of holothuroids. The findings support that coelomocyte aggregate formation is a conserved immune response across all five extant classes of echinoderms with variations in their cell catalysts, complexity, shape, colour, and size.
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- 2021
4. Cellular, Hormonal, and Behavioral Responses of the Holothuroid Cucumaria frondosa to Environmental Stressors
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Sara Jobson, Jean-François Hamel, Taylor Hughes, and Annie Mercier
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Science ,Ocean Engineering ,Biology ,cortisol ,QH1-199.5 ,Aquatic Science ,Oceanography ,salinity ,Cucumaria ,Sea cucumber ,coelomocytes ,stress ,Aquaculture ,Marine ecosystem ,Coelomocyte ,Water Science and Technology ,Global and Planetary Change ,Deuterostome ,Ecology ,business.industry ,General. Including nature conservation, geographical distribution ,biology.organism_classification ,echinoderm ,Echinoderm ,aquaculture ,Benthic zone ,business - Abstract
Holothuroids (sea cucumbers) are one of the most ubiquitous groups of benthic animals found across diverse marine ecosystems. As echinoderms, they also occupy an important place in the evolutionary hierarchy, sitting close to vertebrates in the deuterostome clade, making them valuable multidisciplinary model organisms. Apart from being ecologically and phylogenetically important, many species are commercially exploited for luxury seafood markets. With the global rise of aquaculture and fisheries, management and protection of these valuable species relies on a better understanding of how their immune systems respond to environmental and anthropogenic stressors. Here, the cellular, hormonal and behavioral indicators of stress in the North Atlantic sea cucumberCucumaria frondosawere examined. The immediate and carry-over (post recovery) effects of a 1-hour exposure to low salinities or to emersion (at two temperatures) highlighted that morphoplasticity inC. frondosawas accompanied by shifts in all monitored indicators. From baseline levels measured in controls, densities of free coelomocytes increased, showing successions of specific cell types and subsequent coelomocyte aggregations, combined with a rise in cortisol levels. These responses mirrored increased fluctuations in cloacal opening rates, decreased force of attachment to the substrate, and enhanced movements and active buoyancy adjustment with increasingly severe stressors. The findings suggest that many systems of sea cucumbers are impacted by stresses that can be associated with harvesting and handling methods, with likely implications for the quality of the processed products. Gaining a deeper understanding of immune and hormonal responses of sea cucumbers is not only of broad ecological and evolutionary value, but also helpful for the development of sustainable fisheries and aquaculture practices, and conservation programs.
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- 2021
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5. Influence of environmental parameters on gametogenesis, spawning and embryo survival in the holothuroid Cucumaria frondosa
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Jean-François Hamel, Bruno L. Gianasi, and Annie Mercier
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photoperiodism ,0303 health sciences ,Gonad ,Reproductive success ,Zoology ,04 agricultural and veterinary sciences ,Aquatic Science ,Biology ,biology.organism_classification ,Spawn (biology) ,03 medical and health sciences ,Cucumaria ,Human fertilization ,medicine.anatomical_structure ,Animal ecology ,040102 fisheries ,medicine ,0401 agriculture, forestry, and fisheries ,Gametogenesis ,030304 developmental biology - Abstract
The environmental control of reproductive processes is central to both fundamental and applied aspects of animal ecology. The present study experimentally assessed how environmental factors modulate gametogenesis and spawning and impact embryo development and survival in the holothuroid Cucumaria frondosa, a cold-water echinoderm with lecithotrophic development. Adults were exposed to three seawater temperatures, four photoperiod regimes, and two food concentrations during 120 days overlapping the natural gametogenic and spawning periods. Among all the treatments tested, exposure to ambient conditions of water temperature (−1 to 3 °C), photoperiod (8 to 13 h of light) and food concentration (3 × 103 ± 896 rotifers g−1 of sea cucumbers d−1) yielded the greatest reproductive output and embryo survival. At pre-spawning, males and females had the highest gonad index (~33%) and where filled with mature gametes. At spawning, females in ambient conditions released the highest number of oocytes (1.2 × 103 oocytes female−1) and yielded the highest embryo survival rates (21% at 20 days post fertilization). Individuals exposed to warmer water temperatures (6 and 12 °C) experienced delayed gametogenesis and did not spawn. Individuals under 24-h light, 24-h dark, and advanced (4 months) photoperiods showed delayed gametogenesis and low numbers of oocytes released; moreover, embryos died within 10 days post fertilization. Individuals fed with high food concentration (6 × 103 ± 982 rotifers g−1 of sea cucumbers d−1) showed similar results to ambient conditions, suggesting that increased food supply neither decreased nor enhanced reproductive output over the experimental period. This study sheds new light on the environmental drivers of reproductive success in C. frondosa, which is of value for developing conservation strategies and mariculture protocols in cold-water holothuroids with lecithotrophic development.
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- 2019
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6. Triggers of spawning and oocyte maturation in the commercial sea cucumber Cucumaria frondosa
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Bruno L. Gianasi, Jean-François Hamel, and Annie Mercier
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0303 health sciences ,Spawning trigger ,urogenital system ,media_common.quotation_subject ,fungi ,04 agricultural and veterinary sciences ,Aquatic Science ,Biology ,biology.organism_classification ,Oocyte ,Sperm ,Spawn (biology) ,Andrology ,03 medical and health sciences ,Sea cucumber ,Cucumaria ,medicine.anatomical_structure ,Human fertilization ,040102 fisheries ,medicine ,0401 agriculture, forestry, and fisheries ,Ovulation ,030304 developmental biology ,media_common - Abstract
The present study investigated methods to trigger spawning and artificially induce oocyte maturation in the commercial cold-water suspension-feeding sea cucumber Cucumaria frondosa. Spawning occurred after exposure to live phytoplankton, commercial phytoplankton paste, and conspecific sperm. Live phytoplankton at 1 × 105 cells ml−1 induced the highest proportion of females to spawn (mean of 56%); promoted the greatest oocyte release (mean of 19,200 oocytes female−1), best quality of eggs and highest survival of embryos (65%; 20 d post fertilization). More concentrated live phytoplankton (1 × 106 cells ml−1) triggered 43% of the females to release ~16,100 oocytes female−1 and survival rates 20 d post fertilization were lower (50%). Both phytoplankton paste treatments (1 × 105 and 1 × 106 cells ml−1) yielded intermediate results in terms of percent spawning females (26%), abundance of oocytes released (11,000 and 7300 oocytes female−1, respectively), quality of eggs, and survival of embryos (44 and 50%, respectively). Sperm from conspecific (2 and 10 × 106 spermatozoa ml−1) induced the lowest proportion of females to spawn (16%) with release of 3000 and 1700 oocytes female−1, respectively; furthermore, all embryos died within 10 d post fertilization. Results for males were slightly different: spawning was more frequent (63%) in the sperm treatment at 2 × 106 spermatozoa ml−1 followed by live phytoplankton at 1 × 106 and 1 × 105 cells ml−1 (43%), and phytoplankton paste at 1 × 105 cells ml−1 (46%); the lowest spawning success was observed for phytoplankton paste at 1 × 106 cells ml−1 and conspecific sperm at 10 × 106 spermatozoa ml−1 (26%). Thermal shock, desiccation, potassium chloride (injection or bath), and serotonin (injection) did not induce spawning in C. frondosa. When oocytes isolated from mature ovaries were exposed to three different concentrations of 1-Methyladenine (1-MA), Dithiothreitol (DTT), 2,3-Dimercapto-1-propanol (BAL), and L-cysteine (L-cyst), DTT at 10−1 M induced the highest proportion of oocytes (48%) to shed follicle cells (i.e. ovulate); whereas other treatments induced only 2–6% of ovulation, similar to the control (seawater). All oocytes that shed follicle cells remained unfertilizable. Overall, live phytoplankton emerged as the most suitable spawning trigger for C. frondosa, a Dendrochirotida that produces maternally-provisioned oocytes. In the context of expanding sea cucumber aquaculture, this finding provides a tool to maximize the availability of gametes in this cold-water species, with possible applicability to similar commercial dendrochitotids.
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- 2019
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7. Trophic ecology, diet and feeding behaviour of three bathyal sea anemones (Actiniaria: Cnidaria) in the Northwest Atlantic
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Edison F. Cossignani, Jiamin Sun, Violaine Shikon, Jean-François Hamel, and Annie Mercier
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0106 biological sciences ,Cnidaria ,Urticina ,biology ,Ecology ,010604 marine biology & hydrobiology ,Aquatic Science ,Sea anemone ,Oceanography ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Zooplankton ,Bathyal zone ,Benthic zone ,14. Life underwater ,Trophic level ,Isotope analysis - Abstract
Sea anemones are often presented as a major component of benthic communities and described as ecologically important in benthic food webs. However, studies on the trophic ecology of deep-sea species are rare. Here, the feeding habits and dietary sources of three species of bathyal sea anemones (Actinostola callosa, Actinauge cristata, Urticina sp.) from the Northwest Atlantic were studied in a multi-faceted approach including stable isotopes, gastrovascular contents, lipid and fatty acids analysis and observations in a mesocosm. Stable isotope analysis showed that A. callosa sits at a slightly lower trophic level than A. cristata and Urticina sp. and that the two latter species rely on different carbon sources at roughly the same trophic level. The gastrovascular cavity contents and mesocosm study revealed that all three species ingest a variety of food items, from inorganic materials to a diversity of metazoans, including whole large prey. Total lipid content varied across species and was highest in Urticina sp. Phospholipids constituted the main lipid class in all three species, with consistently high levels of wax ester storage lipids. All sea anemones were also characterized by high proportions of mono and polyunsaturated fatty acids (MUFA and PUFA) as well as ω3 and ω9 FAs, and strikingly low proportions of 20:4ω6 (ARA). High values of 20:5ω3 (EPA), 20:1ω9 and 22:1ω11(13) evoke a diet centered on zooplankton, with notable particularities. For instance, Urticina sp. had the highest PUFA to saturated FAs ratio, indicative of carnivory. Overall, results suggest that the three sea anemone species occupy different niches in the spectrum of opportunistic polyphagous predation/feeding, with Urticina sp. relying chiefly on more energetic and larger prey and A. cristata targeting smaller zooplankton, foraminifera and particulate food, highlighting that large actinians play diverse roles in benthic food webs.
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- 2022
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8. Trophic relationships of deep-sea benthic invertebrates on a continental margin in the NW Atlantic inferred by stable isotope, elemental, and fatty acid composition
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Jean-François Hamel, Christopher C. Parrish, Camilla Parzanini, and Annie Mercier
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0106 biological sciences ,Ecology ,010604 marine biology & hydrobiology ,Detritivore ,Geology ,δ15N ,Aquatic Science ,Biology ,Phormosoma placenta ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Food web ,Oceanography ,Benthic zone ,Ecosystem ,Trophic level ,Invertebrate - Abstract
As deep-sea benthic ecosystems of continental margins provide numerous functions and services to humans, a better understanding of these key habitats and their communities is needed to help predict climate-driven shifts and support conservation efforts. Here stable isotope (δ13C and δ15N), elemental (%C, %N, and molar C:N), and fatty acid (FA) composition of 50 different deep-sea species, belonging to 7 major taxa, were analyzed in order to characterize their diet and trophic position, and to study the fate of energy and essential nutrients in the food web. In addition, relationships between depth and biochemical signatures (δ13C, δ15N, %C, %N, C:Nmol, and FAs) were also investigated. In this regard, %C, oleic acid (18:1ω9), and arachidonic acid (ARA, 20:4ω6) increased with depth. While the increase of %C was likely due to the preferential assimilation of the more nutritious N along the gradient, that of 18:1ω9 was presumed to reflect the need for longer-term energy reserves in deeper organisms, and that of ARA to indicate a higher reliance on the benthic trophic pathway at greater depth. Analyses also revealed that the focal deep-sea invertebrates occupied three trophic levels, whereas the weak correlation between δ13C and δ15N indicated that two or more trophic pathways were represented. Several feeding modes were also recognized within the assemblage. The lowest trophic positions were occupied by sponges most likely feeding on bacteria. Intermediate positions were mainly occupied by suspension feeders (e.g. sea anemones, corals), detritivores (e.g. the sea urchin Phormosoma placenta), and predators on small infaunal animals (e.g. the sea star Leptychaster arcticus). Conversely, predator/scavengers (e.g. various sea stars, gastropods, polychaete worms) occupied the highest trophic positions, together with sponges that were determined to be either carnivorous (e.g. Iophon piceum), or to feed on 15N- and 13C-enriched organic matter. Energetic compounds (i.e. 20:1ω11(13), 20:1ω9, and 22:1ω7) and essential nutrients (i.e. ARA) increased in proportion across the trophic levels of this food web, emphasizing the importance of certain dietary FAs for optimal organism health, and the key role of benthic communities in carbon cycling.
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- 2018
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9. The 2009–2016 Belize sea cucumber fishery: Resource use patterns, management strategies and socioeconomic impacts
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Arlenie Rogers, Shirley M. Baker, Annie Mercier, and Jean-François Hamel
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0106 biological sciences ,Ecology ,biology ,Overfishing ,010604 marine biology & hydrobiology ,Fishing ,04 agricultural and veterinary sciences ,Aquatic Science ,biology.organism_classification ,01 natural sciences ,Catch reporting ,Fishery ,Sea cucumber ,Sustainability ,040102 fisheries ,0401 agriculture, forestry, and fisheries ,Animal Science and Zoology ,Isostichopus badionotus ,Minimum wage ,Socioeconomic status ,Ecology, Evolution, Behavior and Systematics - Abstract
While sea cucumbers have been fished in Belizean waters for ∼ 20 years for trade through Guatemala and the local Asian market in Belize, harvesting for export to international markets only started with the establishment of the sea cucumber fishery regulations in 2009. The fishery included two main species, Holothuria mexicana and Isostichopus badionotus but only the former was legally managed by the Belize Fisheries Department through a closed season and catch reporting. By 2016, H. mexicana was considered overfished and in 2017, the entire fishery was closed. Here we provide a comprehensive analysis of this fishery in Belize from 2009–2016 with the goal to make recommendations for policy development. This study combined key informant interviews with secondary data collection and observation of sea cucumber fishing, landing and processing. Fishers hand-picked sea cucumbers using mask and snorkel and sold their catch to exporters or middlemen. Sea cucumber harvesting increased fishers’ income to 154 times the minimum wage in 2010 and 5 times the minimum wage in 2016, concurrent with a drastic decline of stocks. Some fishers rated sea cucumber harvesting as their primary fishing activity but knew very little about their biology or ecology. They were concerned about the decrease in catch that forced them to fish in deeper waters and about the illegal fishing by Guatemalan and Honduran fishers in Belizean waters. Sea cucumbers sold locally since 2009 were neither reflected in the market economy nor used to adjust the Total Allowable Catch by the Belize Fisheries Department. Maintaining the long-term sustainability of this fishery will rely on greater investments in enforcing fisheries regulations, in scientific research to determine the viability of sea cucumber fishing, and in the education of fishers. A closer collaboration with fishers is necessary to adequately inform future management decisions on the socioeconomic consequence of overfishing.
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- 2018
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10. Morphometric and behavioural changes in the early life stages of the sea cucumber Cucumaria frondosa
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Bruno L. Gianasi, Annie Mercier, and Jean-François Hamel
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0106 biological sciences ,Tentacle ,Water flow ,010604 marine biology & hydrobiology ,Coralline algae ,Zoology ,04 agricultural and veterinary sciences ,Aquatic Science ,Biology ,biology.organism_classification ,01 natural sciences ,Light intensity ,Cucumaria ,Sea cucumber ,Water column ,040102 fisheries ,0401 agriculture, forestry, and fisheries ,Allometry - Abstract
The present study examined morphological and behavioural development in post-settled juveniles of the commercial sea cucumber Cucumaria frondosa, in an effort to assist captive breeding and conservation initiatives. Juveniles developed all 10 tentacles within 16 months; they had 9 podia and measured 4.6 mm in length after 21 months. Scaling between body length and number of podia was isometric, whereas dorsal tentacle metrics showed negative allometric scaling, indicating that growth was accompanied by a decreasing tentacle to body size ratio. Dorsally-oriented tentacles developed and ramified faster, showing 6 ramifications after 21 months, when ventrally-oriented tentacles only displayed one. This asynchrony underlines the distinctive roles of dorsal vs. ventral tentacles during the early months. The former were strictly used to capture plankton from the water column; whereas the latter were used for anchorage and feeding on deposited material. Ossicles of the body wall increased in length and thickness, and became slightly curved and rounded in older juveniles. Light intensity and water flow tolerance increased with age; from 25 lx and 5 cm s−1 in 1-month-old individuals, to >50 lx and 10 cm s−1 in 6, 12, and 21-month-old individuals, consistent with migration from sheltered to more exposed locations. Moreover, 1 and 6-month-old juveniles preferred rock substrates and black or red background colours; whereas 12 and 21-monthd-old individuals favoured substrates of coralline algae and a red background, also indicative of increasing affinity with sunlit environments and a shift from benthic to planktonic feeding. Juveniles of all age classes were feeding (i.e. had deployed tentacles) 24 h a day and commonly sought vertical surfaces. Together, the findings shed light on the early juvenile ecology of this cold-water suspension-feeding sea cucumber. Considering the expansion of sea cucumber fisheries and growing interest in the aquaculture of C. frondosa, this work also provides a framework for improved stock management and culture protocols.
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- 2018
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11. Earthquake induces mass-spawning event in two coral-reef sea cucumber species in Belize
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Annie Mercier, Jean-François Hamel, and Arlenie Rogers
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0106 biological sciences ,geography ,geography.geographical_feature_category ,Ecology ,biology ,Phylum ,010604 marine biology & hydrobiology ,Fishing ,Coral reef ,Aquatic Science ,Oceanography ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Marine species ,Sea cucumber ,Time of day ,Animal behavior ,Ecology, Evolution, Behavior and Systematics ,Water Science and Technology ,Holothuria mexicana - Abstract
Background Electromagnetic pulses that precede earthquakes, and the ensuing crust deformations and vibrations, have been associated with unusual animal behavior (UAB), most commonly in terrestrial species but also in certain marine species, chiefly in the Chordata phylum (eg fish, cetaceans). Goals . The present study explored the occurrence of earthquake-related UAB in an entirely new marine phylum, the Echinodermata. Methods. Formal and informal surveys conducted by fishing vessels and pre- and post-earthquake along the southern coast of Belize (Central America) were collated. Results The first cases of post-earthquake UAB in echinoderms were documented. They involved thousands of individuals of the holothuroidsIsostichopus badionotus and Holothuria mexicana spawning on May 29 2009 and January 10 2018, respectively. These rare accounts represent the first direct correlation between an earthquake and spawning activity, which occurred outside the normal spawning season and at an unusual time of day. Conclusion. While a growing number of reports indicate that many terrestrial and a smaller number of marine species can change their behavior before and during an earthquake, post-earthquake effects related to reproduction have apparently never been reported before in the animal kingdom. While underlying mechanisms remain unclear, holothuroid echinoderms may be reacted directly or indirectly to seismic activity, or the pressure change generated by it.
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- 2019
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12. Epibiotic associations with the deep-sea pycnogonid Nymphon hirtipes Bell, 1855 as a source of biodiversity
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Annie Mercier, Noé Wambreuse, and Jean-François Hamel
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Cnidaria ,biology ,Benthic zone ,Biodiversity ,Zoology ,Bryozoa ,Marine ecosystem ,Nymphon ,Aquatic Science ,Epibiont ,Oceanography ,biology.organism_classification ,Hydrozoa - Abstract
Among arthropods, pycnogonids are generally considered of minor ecological significance in marine ecosystems. However, the fact that they can host a wide diversity and high abundance of epibiotic organisms suggests that their role in benthic communities may be underestimated. The present study characterized the diversity, dynamics and role of the epibiotic community associated with deep-sea pycnogonids (Nymphon hirtipes). Despite their small size, they hosted a mean of 62 macro-organisms belonging to at least 26 species from 11 different phyla. Foraminifera was the dominant phylum while other phyla, such as Bryozoa, Cnidaria (Hydrozoa), Porifera and Brachiopoda were common. The macro-epibiont burden varied from 1 to 235 organisms per pycnogonid; it was consistent across depths and locations but fluctuated as a function of sex and of the reproductive state in males. Specifically, most colonized individuals were females, which are larger and thus offer more surface for epibionts. Among males, burdens peaked in those carrying larvae. Maximum epibiont burden and coverage was correlated with the cessation of grooming at the beginning of the breeding period. Micro-epibionts consisted of bacterial mats covering most body parts. Several epibionts were estimated to have negative effects on their host (e.g. increasing drag, preventing mating, decreasing limb mobility and impeding feeding). However, because this species dies after reproducing, epibiosis may be considered as a positive trade-off since it may provide food to the mobile juveniles living on the male for several months. Furthermore, epibionts could be used as camouflage during this period. N. hirtipes has been identified as a common component of the benthofauna in the deep sea of the North Atlantic and Arctic Oceans, and the present study indicates that it displays the greatest diversity and burden of associates ever reported among pycnogonids.
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- 2021
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13. Foraging strategies in four deep-sea benthic species
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Annie Mercier, Jean-François Hamel, Jacopo Aguzzi, Brittney Stuckless, Natural Sciences and Engineering Research Council of Canada, and Agencia Estatal de Investigación (España)
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0106 biological sciences ,Ecology ,Feeding ecology ,010604 marine biology & hydrobiology ,Foraging ,Deep-sea ,Henricia ,Sea star ,Aquatic Science ,Biology ,Generalist and specialist species ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Deep sea ,Bathyal zone ,Benthic zone ,Behaviour ,Ecosystem ,14. Life underwater ,Gastropod ,Locomotion ,Ecology, Evolution, Behavior and Systematics ,Ceramaster - Abstract
13 pages, 8 figures, 1 tables, aupplementary data https://doi.org/10.1016/j.jembe.2021.151607, The feeding behaviour of deep-sea animals is largely understudied despite being of relevance to assess changes in ecosystems functioning in the face of anthropogenic impacts and climate regime shifts. Here, time-lapse videography in dark, cold-water, flow-through laboratory settings was used to study the behaviours of a gastropod (Buccinum scalariforme) and three sea stars (Ceramaster granularis, Hippasteria phrygiana, Henricia lisa) from the bathyal Northwest Atlantic, to build knowledge on their foraging strategies (i.e. food search, assessment and handling). In all species tested, the presence/absence of a palatable food source modulated the speed and directionality of movements. Approach paths were erratic in the absence of palatable food and targeted in its presence: B. scalariforme, C. granularis and H. phrygiana, moved in straight line to the food, while H. lisa moved either in straight line or counterclockwise loop. The four species traveled at mean speeds of 2.9, 0.2, 0.7, and 0.6 cm min−1, respectively. At the finer scale, unprecedented pulses in displacement speed were detected, varying in amplitude and frequency depending on the food item. The results also support more generalist diets and broader scavenging habits in deep-sea sea gastropods and sea stars than assumed from previous studies and knowledge of shallower-water counterparts. Depth-related food limitation may drive greater flexibility in foraging strategies and acceptable food items, This work was supported in part by the Natural Sciences and Engineering Research Council of Canada (NSERC) via grants awarded to A.M., J.A. is a member of the Tecnoterra Associated Research Unit (ICM-CSIC/UPC) and supported by the Spanish Government through the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2019-000928-S)
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- 2021
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14. Feeding in deep-sea demosponges: Influence of abiotic and biotic factors
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Leah M. Robertson, Annie Mercier, and Jean-François Hamel
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0106 biological sciences ,Abiotic component ,Biotic component ,010504 meteorology & atmospheric sciences ,Ecology ,010604 marine biology & hydrobiology ,Particle (ecology) ,Aquatic Science ,Biology ,Oceanography ,biology.organism_classification ,01 natural sciences ,Sponge ,Nutrient ,Benthic zone ,Phytoplankton ,Seawater ,0105 earth and related environmental sciences - Abstract
In shallow benthic communities, sponges are widely recognized for their ability to contribute to food webs by cycling nutrients and mediating carbon fluxes through filter feeding. In comparison, little is known about filter feeding in deep-sea species and how it may be modulated by environmental conditions. Here, a rare opportunity to maintain live healthy deep-sea sponges for an extended period led to a preliminary experimental study of their feeding metrics. This work focused on demosponges collected from the continental slope of eastern Canada at ~ 1000 m depth. Filtration rates (as clearance of phytoplankton cells) at holding temperature (6 °C) were positively correlated with food particle concentration, ranging on average from 18.8 to 160.6 cells ml −1 h −1 at nominal concentrations of 10,000–40,000 cells ml −1 . Cell clearance was not significantly affected by decreasing seawater temperature, from 6 °C to 3 °C or 0 °C, although two of the sponges showed decreased filtration rates. Low pH (~ 7.5) and the presence of a predatory sea star markedly depressed or inhibited feeding activity in all sponges tested. While performed under laboratory conditions on a limited number of specimens, this work highlights the possible sensitivity of deep-sea demosponges to various types and levels of biotic and abiotic factors, inferring a consequent vulnerability to natural and anthropogenic disturbances.
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- 2017
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15. The deep-sea neogastropod Buccinum scalariforme : Reproduction, development and growth
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Annie Mercier, Jean-François Hamel, and E. M. Montgomery
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0106 biological sciences ,Larva ,biology ,Ecology ,010604 marine biology & hydrobiology ,media_common.quotation_subject ,Phytodetritus ,Zoology ,Veliger ,Aquatic Science ,Oceanography ,biology.organism_classification ,Fecundity ,010603 evolutionary biology ,01 natural sciences ,Bathyal zone ,Mesocosm ,Oophagy ,14. Life underwater ,Reproduction ,media_common - Abstract
Specimens of the neogastropod Buccinum scalariforme (60–70 mm shell height) collected between 700 and 1450 m depth along the continental slope of eastern Canada were kept for 4 years in mesocosm settings. Their mating, spawning and development were assessed, thereby generating the first complete life cycle account of a deep-sea gastropod. Egg laying occurred in March and September, with a total of 9 egg masses laid in 2013 and 2015, coinciding with periods of maximum deposition of particulate organic matter (phytodetritus). Oviposition lasted 2–3 days and the female protected the egg mass for ~3 more days until it had hardened. Typically, egg masses contained 50–75 egg capsules, each measuring 5–8 mm in diameter. A capsule contained between 100 and 150 spherical eggs (300–500 µm) of which ≤50 developed into embryos. Potential fecundity calculated from the entire egg mass at spawning was between 1500 and 2250 propagules; it drastically decreased over ~4–5 months of development to an effective fecundity of 30–50 juveniles emerging from the mass (0–2 juveniles per capsule). Development went through early embryonic stages in ~15 days and reached the trocophore in 15–21 days, followed by intracapsular veliger larva (480 µm) and intracapsular pediveliger (~1000 µm) after ~90 days. Completion of development relied on oophagy and adelphophagy. The juveniles hatched at a shell height of 1–2 mm and consumed the capsule membrane. Over 2.5 years, they reached a maximum size of ~8–10 mm shell height at an average of 9.8 µm day −1 . Estimations indicate that B. scalariforme could require between 20 and 50 years to reach maximum adult size. Large gastropods like B. scalariforme are among the most abundant motile benthic invertebrates of the bathyal zone of eastern Canada. Knowledge of their reproductive biology constitutes a first step in assessing their vulnerability and resilience to ever growing anthropogenic pressures, including fisheries, and oil/gas exploration and exploitation.
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- 2017
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16. Carry-over effects of ocean acidification in a cold‑water lecithotrophic holothuroid
- Author
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Katie Verkaik, Jean-François Hamel, and Annie Mercier
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0106 biological sciences ,Ecology ,biology ,010604 marine biology & hydrobiology ,Marine larval ecology ,Ocean acidification ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Fishery ,Sea cucumber ,Oceanography ,Environmental science ,Ecology, Evolution, Behavior and Systematics - Published
- 2016
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17. Influence of diet on growth, reproduction and lipid and fatty acid composition in the sea cucumberCucumaria frondosa
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Bruno L. Gianasi, Jean-François Hamel, Annie Mercier, and Christopher C. Parrish
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0106 biological sciences ,chemistry.chemical_classification ,Gonad ,biology ,Ecology ,business.industry ,010604 marine biology & hydrobiology ,Zoology ,04 agricultural and veterinary sciences ,Broodstock ,Aquatic Science ,biology.organism_classification ,Fecundity ,01 natural sciences ,Cucumaria ,Sea cucumber ,medicine.anatomical_structure ,chemistry ,Aquaculture ,Reproductive biology ,040102 fisheries ,medicine ,0401 agriculture, forestry, and fisheries ,business ,Carotenoid - Abstract
The suspension-feeding sea cucumber Cucumaria frondosa is widely distributed in cold waters and is commercially exploited in the North Atlantic. While the species is considered to have potential for aquaculture, its feeding and reproductive biology differs markedly from that of currently cultivated sea cucumbers. Here, for the first time, the influence of food sources on the condition of C. frondosa was experimentally tested. Individuals were fed with either diatoms or fish eggs for 3 months. Specific growth rate (SGR), organ indices, fecundity, gonad maturity and profiles of lipids and fatty acids (FA) in tissues were compared among treatments and with sea cucumbers collected from the field. Individuals fed with fish eggs showed higher SGR and organ indices than all other treatments. The highest proportion of large oocytes was also found in gonad tubules of females from the fish egg treatment, although individuals fed with diatoms were the only ones in which spontaneous spawning occurred. Moreover, gonad and muscle tissues of sea cucumbers from the fish egg treatment presented the highest levels of lipids and essential FA. In contrast, non-fed sea cucumbers showed negative SGR, relatively low female fecundity and low concentrations of lipids and FA in tissues. While the fish egg diet presented several obvious benefits, phytoplankton remains an important source of carotenoids, which are vital for vitellogenesis in echinoderms. This indicates that mixed diets rich in lipids, essential FA and carotenoids can be further investigated to optimize growth and reproductive output of this species in captivity.
- Published
- 2016
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18. Experimental test of optimal holding conditions for live transport of temperate sea cucumbers
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Jean-François Hamel, Bruno L. Gianasi, and Annie Mercier
- Subjects
0106 biological sciences ,010604 marine biology & hydrobiology ,Salting ,04 agricultural and veterinary sciences ,Aquatic Science ,Biology ,Test (biology) ,biology.organism_classification ,01 natural sciences ,Fishery ,Cucumaria ,Sea cucumber ,040102 fisheries ,Temperate climate ,0401 agriculture, forestry, and fisheries ,Seawater ,Shellfish ,Icing - Abstract
Sea cucumber is one of the top five luxury seafoods in Asia and its commercialization primarily revolves around the processed body wall. Hence, live transport and storage of sea cucumbers prior to processing must preserve the condition of the body wall and underlying muscles. Unlike most commercial shellfish on which industry standards are chiefly based, sea cucumbers lack a protective exoskeleton and have the ability to autolyze. Here, we tested the efficacy of different live storage methods on Cucumaria frondosa , a commercial species that is widely distributed in the North Atlantic and the Arctic. Current technologies and low-cost variants were experimentally tested under conditions prescribed for the transport of seafood in Canada. Markers of post-storage health, body wall condition and muscle integrity were compared among treatments. The most common method currently in use (icing and salting) yielded the highest rates of mortality and skin necrosis, whereas iced seawater emerged as the best storage condition. These findings should help stakeholders adapt their methodologies to optimize the exploitation of temperate and cold-water sea cucumber resources.
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- 2016
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19. Effect of light, phytoplankton, substrate types and colour on locomotion, feeding behaviour and microhabitat selection in the sea cucumber Cucumaria frondosa
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Jean-François Hamel, Tiffany Jennifer Small, Brittney Stuckless, Annie Mercier, and Jiamin Sun
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photoperiodism ,0303 health sciences ,biology ,business.industry ,Zoology ,Coralline algae ,04 agricultural and veterinary sciences ,Aquatic Science ,biology.organism_classification ,Substrate (marine biology) ,03 medical and health sciences ,Cucumaria ,Sea cucumber ,Aquaculture ,Darkness ,Phytoplankton ,040102 fisheries ,0401 agriculture, forestry, and fisheries ,business ,030304 developmental biology - Abstract
While the suspension-feeding sea cucumber Cucumaria frondosa is commercially exploited in the North Atlantic and is considered to have potential for integrated aquaculture, the impact of environmental conditions on its behaviour and population structure remains incompletely understood. The present study showed that adults are not photosensitive; they do not exhibit any preference for either illuminated or shaded areas. Within each photoperiod treatment, analyses of the daily activity cycle revealed that the proportion of individuals with feeding tentacles deployed did not change over time; however, the proportion of moving individuals increased in the dark phase under the 12 h light/12 dark regime, but remained constant under continuous light or darkness. Hence, from an aquaculture perspective, long days (i.e. summer photoperiod) might decrease the time spent moving in favour of feeding, potentially shifting the energy budget toward faster growth. Variations in phytoplankton concentration modulated the deployment of tentacles but did not trigger any displacement toward the food source, indicating that feeding responds directly to the presence of food. Moreover, C. frondosa exhibited a clear preference for substrates composed of bare rocks and rocks with coralline algae and displayed a weak preference for darker substrate backgrounds. Together, these findings highlight how some key environmental factors can govern the feeding, locomotor activities, and eventual distribution of cold-water suspension-feeding sea cucumbers.
- Published
- 2020
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20. Reproduction of a bathyal pennatulacean coral in the Canadian Arctic
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Annie Mercier, Vonda E. Wareham-Hayes, and Jean-François Hamel
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biology ,Sea pen ,Coral ,media_common.quotation_subject ,Marine larval ecology ,Zoology ,Aquatic Science ,Oceanography ,biology.organism_classification ,Fecundity ,Bathyal zone ,Arctic ,Reproduction ,Bay ,media_common - Abstract
While reproduction in deep-sea corals remains incompletely understood, there is a particularly crucial shortage of information related to corals living in deep waters of the Arctic Ocean. In the present study, colonies of the deep-sea pennatulacean coral Umbellula encrinus were collected in Baffin Bay (High Canadian Arctic) at bathyal depths between 2006 and 2010. From examination of gamete sizes, maturity levels and densities at several time points, U. encrinus was determined to be a gonochoric species with an equal sex ratio and a broadcast-spawning strategy. Fully mature oocytes measured between 800-950 μm in diameter, consistent with lecithotrophic larval development. Potential fecundity was ∼4200 mature oocytes colony−1 and ∼5300 mature spermatocysts colony−1. Gametogenesis was synchronous between sexes; a single main cohort of oocytes and spermatocysts was seen to increase in size throughout the year. Gametogenetically mature colonies were detected in late June during the earliest possible spring samplings. Spent colonies were detected in July and August. Early stages of gametogenesis appeared in early September shortly after the spawning months and more advanced growth stages occurred in late September and early November, after which time sampling was prevented by ice cover. The spawning season in U. encrinus appears to occur once a year, closely following the disappearance of the ice cover in early spring, when chlorophyll-a in Baffin Bay increases. The initiation of gametogenesis coincides with a period of sustained phytoplankton production and continues until the entire bay freezes over in fall. Since mature gametes were found in both male and female colonies just after the spring melt, gamete maturation likely continues under the ice. Both depth and latitude were shown to impact gamete development and fecundity in U. encrinus, with more advanced and fertile colonies occurring in deeper water and at higher latitudes.
- Published
- 2020
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21. Behavioural responses to hydrostatic pressure in selected echinoderms suggest hyperbaric constraint of bathymetric range
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Jean-François Hamel, Annie Mercier, and Justine Ammendolia
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0106 biological sciences ,Leptasterias polaris ,Strongylocentrotus droebachiensis ,Ecology ,biology ,Range (biology) ,010604 marine biology & hydrobiology ,Hydrostatic pressure ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Cucumaria ,Sea cucumber ,Oceanography ,biology.animal ,Bathymetry ,14. Life underwater ,Sea urchin ,Ecology, Evolution, Behavior and Systematics - Abstract
Although hydrostatic pressure is one of the most prominent abiotic drivers of faunal bathymetric ranges, it is one of the least understood. To better understand hyperbaric constraints on depth distributions, we explored responses to high pressure of adult echinoderms from eastern Canada. The sea urchin Strongylocentrotus droebachiensis, the sea star Leptasterias polaris and the sea cucumber Cucumaria frondosa were exposed to various pressures within and beyond their known bathymetric distribution (i.e. surface pressure; pressure at the midpoint in bathymetric distribution; pressure at twice the maximum depth in the species bathymetric distribution) for different durations (24 h, 72 h, 9 days). Survival was compromised by exposure to the highest pressure levels, with the sea urchin exhibiting the highest mortality. After 72-h exposure, mortality was observed for sea urchin and sea cucumber individuals while all sea star individuals survived. Following 9-day exposure of sea star individuals to high pressure, 100% mortality occurred. Exposure to pressures typical of natural distributions had little effect on the selected health and motor metrics. Pressures atypical of natural ranges negatively affected the motor functions of all species, irrespective of exposure duration. During and after 24-h exposure, feeding was reduced in sea urchin and sea cucumber individuals, but was unchanged in sea star individuals. Overall, there were no clear signs of acclimation to high pressure following sustained periods of exposure in any species. These results highlight constraints applied by hydrostatic pressure beyond current bathymetric ranges on life-sustaining behaviours in echinoderms. The potential of long-lived echinoderms to survive downward migration to greater depths is species-specific, suggesting there may be winners and losers in the face of near-future climate-driven migration patterns.
- Published
- 2018
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22. Influence of flow on locomotion, feeding behaviour and spatial distribution of a suspension-feeding sea cucumber
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Jiamin Sun, Annie Mercier, and Jean-François Hamel
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0106 biological sciences ,Tentacle ,Physiology ,Water flow ,Sea Cucumbers ,Population ,Flow (psychology) ,Aquatic Science ,Spatial distribution ,010603 evolutionary biology ,01 natural sciences ,Mesocosm ,Sea cucumber ,Water Movements ,Animals ,education ,Molecular Biology ,Ecology, Evolution, Behavior and Systematics ,education.field_of_study ,biology ,010604 marine biology & hydrobiology ,Feeding Behavior ,Population ecology ,biology.organism_classification ,Oceanography ,Insect Science ,Environmental science ,Animal Science and Zoology ,Animal Distribution ,Locomotion - Abstract
Although movement in response to environmental conditions represents a fundamental link between animal behaviour and population ecology, it is rarely investigated in suspension feeders because they are generally perceived as sessile. Here, the interplay between water flow and fine locomotor and feeding behaviours was experimentally investigated for the first time in a free-moving suspension-feeding sea cucumber ( Cucumaria frondosa ; Echinodermata, Holothuroidea) using time-lapse videography in a mesocosm setting. Individuals moved away from static conditions in the weakest flow treatment and fled the strongest flows (>40 cm s −1 ) in the more dynamic treatments. The tentacles of individuals located in areas with flows of ≥40 cm s −1 was aligned with the direction of the current, whereas in flows −1 , they were typically perpendicular to the direction of flow. Tentacle deployment and insertion rates (i.e. feeding rate) increased with flow, from 0.95 min −1 at 10 cm s −1 to 1.13 min −1 at 40 cm s −1 . Three modes of locomotion were detected. Forward crawling was most frequent at flows ≤40 cm s −1 , passive rolling dominated at flows >40 cm s −1 and active rolling occurred randomly at flows between 0 and 120 cm s −1 . Overall, the flow regime favoured by C . frondosa was determined to be between 21 and 40 cm s −1 , under which an optimal balance between efficient food capture and energy expenditure for attachment to the bottom was presumably found. These findings provide insight into the distribution and population dynamics of suspension-feeding holothuroids, and may also assist the fisheries management and aquaculture development of commercial species.
- Published
- 2018
23. Life history and feeding biology of the deep-sea pycnogonid Nymphon hirtipes
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Annie Mercier, Sandrine Baillon, and Jean-François Hamel
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Ecology ,Hatching ,media_common.quotation_subject ,Zoology ,Aquatic Science ,Biology ,Oceanography ,Fecundity ,biology.organism_classification ,Biological dispersal ,Juvenile ,Nymphon ,14. Life underwater ,Sea spider ,Reproduction ,Sex ratio ,media_common - Abstract
Pycnogonids (sea spiders) are commonly collected at bathyal and abyssal depths all around the world; however, little is known about species from deep-water habitats. The present study explores the life history of Nymphon hirtipes collected in northeastern Newfoundland between 700 and 1450 m depth and monitored in mesocosms for over 2 years. The pycnogonids were found in association with octocorals, hydrozoans and sea anemones. Adult females developed mature oocytes between June and August. Paired mating followed by oviposition occurred between early July and mid-October. Up to three egg masses were brooded by each male. It took a maximum of 4 months for the propagules to hatch from the egg mass. Offspring developed from walking leg-bearing larvae to early juveniles over the next ~5 months before leaving the male’s protection. Mating and oviposition coincided with the highest water temperatures of the annual cycle and dispersal of juveniles occurred in spring, when phytodetritus deposition was high and as ocean temperature rose markedly. All the females died after oviposition and the males ~9 months later, after juvenile dispersal. The sex ratio of mature individuals (~55–60 mm leg span) was 2 males for 3 females. Fecundity was estimated to be 184–288 eggs per adult female. Adults of N. hirtipes were seen feeding on hydrozoan polyps, small sea anemones (Stephanauge nexilis) and nudibranchs. Larvae and early juveniles did not feed while brooded by the male. Upon dispersal, their feeding apparatus became functional and they began feeding on hydrozoan polyps. After 13 months of growth post hatching, the juveniles reached ~21 mm leg span. Curve fitting estimated that ~7 years are required to reach the adult size of 55 mm leg span.
- Published
- 2015
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24. Trophic ecology of a deep-sea fish assemblage in the Northwest Atlantic
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Christopher C. Parrish, Annie Mercier, Jean-François Hamel, and Camilla Parzanini
- Subjects
0106 biological sciences ,Ecology ,010604 marine biology & hydrobiology ,Pelagic zone ,Aquatic Science ,Biology ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Zooplankton ,Fishing down the food web ,Demersal zone ,Bathyal zone ,Coryphaenoides rupestris ,Deep sea fish ,Ecology, Evolution, Behavior and Systematics ,Trophic level - Abstract
Understanding the trophic ecology of deep-sea communities provides valuable insight into deep-water ecosystem functioning, and can help inform fisheries management and conservation initiatives. However, few deep-sea food webs have been studied so far in the Northwest Atlantic. Here, stable isotope, gut content, and morphometric analyses were combined to explore trophic relationships in a deep-water fish assemblage off eastern Canada. While a weak depth effect was found on the isotopic composition of the species analyzed, isotopic and dietary records revealed the existence of two main, strongly coupled trophic pathways. The pelagic pathway either comprised pelagic fishes (e.g., meso- and bathypelagic species), primarily feeding on zooplankton and fish, or benthopelagic predators that showed a more pelagic-oriented diet. Such fishes displayed the lowest values of stable N and C isotope ratios. In contrast, demersal fishes representing the benthic trophic pathway had significantly higher values of δ15N and δ13C, and a taxonomically more benthic-oriented and diverse diet. Furthermore, smaller body sizes, larger mouths, and adaptations (e.g., bioluminescent structures and lures) prevailed in the pelagic species, consistent with living in a relatively food-poor environment. The largest average body sizes were found in the demersal fishes suggesting enhanced food intake and growth investment for the species. Only juvenile individuals of threatened species, such as Coryphaenoides rupestris and Rajella fyllae were caught, providing evidence of the vulnerability of such species to commercial fishing.
- Published
- 2017
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25. Protracted oogenesis and annual reproductive periodicity in the deep-sea pennatulaceanHalipteris finmarchica(Anthozoa, Octocorallia)
- Author
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Sandrine Baillon, Jean-François Hamel, and Annie Mercier
- Subjects
Larva ,Ecology ,Octocorallia ,Marine larval ecology ,media_common.quotation_subject ,Sea pen ,Phytodetritus ,Aquatic Science ,Biology ,biology.organism_classification ,Common species ,Anthozoa ,14. Life underwater ,Reproduction ,Ecology, Evolution, Behavior and Systematics ,media_common - Abstract
Halipteris finmarchica is one of the most common species of deep-sea pennatulacean corals in the Northwest Atlantic; it was recently determined to act as a biogenic substrate for other species and as a nursery for fish larvae. Its reproductive cycle was investigated in colonies sampled in 2006 and 2007 along the continental slope of Newfoundland and Labrador (Canada). Halipteris finmarchica exhibits large oocytes (maximum diameter of 1000 lm), which are consistent with lecithotrophic larval development. Female potential fecundity based on mature oocytes just before spawning was ~6 oocytes polyp 1 (500– 6300 oocytes colony 1 ); male potential fecundity was 16 spermatocysts polyp 1 (5500–57,400 spermatocysts colony 1 ). Based on statistical analysis of size-probability frequency distributions, males harboured one cohort of spermatocysts that matured inside 8–11 months, whereas females harboured two distinct cohorts of oocytes; a persistent pool of small ones (≤400 lm) and a small number (~20%) of larger ones that grew from ~400 to >800 lm over a year. Despite this difference in the tempo of oogenesis and spermatogenesis, a synchronic annual spawning was detected. A latitudinal shift in the spawning period occurred from south (April in the Laurentian Channel) to north (May in Grand Banks and July–August in Labrador/Lower Arctic), following the development of the phytoplankton bloom (i.e. sinking of phytodetritus). Prolonged oogenesis with the simultaneous presence of different oocyte classes in a given polyp is likely not uncommon in deep-sea octocorals and could hamper the detection of annual/seasonal reproduction when sample sizes are low and/or time series discontinued or brief.
- Published
- 2014
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26. Life history and seasonal breeding of the deep-sea annelid Ophryotrocha sp. (Polychaeta: Dorvelleidae)
- Author
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Sandrine Baillon, Annie Mercier, and Jean-François Hamel
- Subjects
Annelid ,biology ,Phenology ,Offspring ,Ecology ,media_common.quotation_subject ,Aquatic Science ,Oceanography ,biology.organism_classification ,Deep sea ,Courtship ,Propagule ,Biological dispersal ,Sexual maturity ,media_common - Abstract
Shallow-water annelids of the genus Ophryotrocha have become a popular biological system for exploring ecological, behavioral, developmental, and toxicological questions. Here we report on the successful maintenance in holding tanks, complete life cycle, and reproductive phenology of a first deep-water representative that could be used as a model species. This Ophryotrocha , which has yet to be formally described, is large (12–16 mm long) and exhibits simultaneous hermaphroditism. Specimens collected off northeast Newfoundland (eastern Canada) between 500 and 1500 m depth were monitored under flow-through laboratory conditions for over three years. They consistently exhibited seasonal feeding from April to February, followed by a reproductive season between February and May. Gametogenesis was initiated in early January and completed in early to mid-February, followed by courtship, which mainly involved pairs of individuals attached head to tail for hours to days. Transparent gelatinous masses containing 80–110 eggs were laid from mid-February to late-March. Propagules developed in the mass to the 1-chaetiger stage and, at an ambient temperature of ~1–4 °C, offspring emerged 30–45 days post-laying. Only ~40–45% of the eggs laid developed to the 1-chaetiger stage, with evidence of adelphophagy. After emerging from the gelatinous mass, 1-chaetiger stages remained aggregated and were guarded by adults for a few days before dispersing. All parents died following the dispersal of their offspring. The new generation reached sexual maturity in 8–9 months and was ready to reproduce the following January–February. A few cases of segmenting adult worms were also observed. Three complete generations developed successively to sexual maturity over the course of this study.
- Published
- 2014
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27. Patterns and drivers of asteroid abundances and assemblages on the continental margin of Atlantic Canada
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Katie S. P. Gale, Annie Mercier, Jean-François Hamel, and Kent Gilkinson
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Biomass (ecology) ,geography ,geography.geographical_feature_category ,Ecology ,Continental shelf ,Aquatic Science ,Deep sea ,Bathyal zone ,Oceanography ,Continental margin ,Benthic zone ,Abundance (ecology) ,Ecology, Evolution, Behavior and Systematics ,Geology ,Invertebrate - Abstract
Although continental shelf and slope environments typically exhibit high epifaunal biomass and have been subjected to increasing fishing pressure, ecological information on assemblages of non-commercial invertebrate species from subtidal and bathyal areas remains limited. Sea stars (Echinodermata: Asteroidea), which are known to influence communities through their feeding habits, have received less attention than structural taxa such as corals and sponges. To better understand the ecological roles of asteroids on continental shelves, we investigated ~30 species and assessed their distributions and co-occurrence with other benthic invertebrates on the shelf and slope of Eastern Canada. Using fisheries data and in situ video footage, we compiled a large dataset covering ~600,000 km2 that included over 350,000 individual asteroid records (37–2243 m depth). Multivariate analyses revealed geographically distinct asteroid assemblages, with a maximal overall density at 400–500 m and the highest diversity at 500–700 m. The most abundant and densely occurring species was Ctenodiscus crispatus. We found that asteroids associate with corals, sponges, bivalves, and other echinoderms, and that depth and substrate influence these assemblages. We identified species likely to affect coexisting organisms by their burrowing behavior that can disrupt epi- and infauna (C. crispatus) and through predation on ecologically important corals (Hippasteria phrygiana). In addition to providing baseline distribution and ecological information for many bathyal asteroid species in the Northwest Atlantic, this work highlights the abundance and diversified roles of asteroids within continental shelf and slope ecosystems.
- Published
- 2014
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28. Small-scale spatial distribution and oogenetic synchrony in brittlestars (Echinodermata: Ophiuroidea)
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Jean-François Hamel, Gina M. Doyle, and Annie Mercier
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Scale (anatomy) ,education.field_of_study ,biology ,Ecology ,media_common.quotation_subject ,Ophiopholis ,Population ,Aquatic Science ,Oceanography ,Spatial distribution ,biology.organism_classification ,Taxon ,Echinoderm ,Benthic zone ,Reproduction ,education ,media_common - Abstract
There is increasing evidence that spatial factors modulate reproductive processes over large (>150 km) and medium (10–100 km) scales in marine taxa, but few studies have explicitly determined the degree of inter-individual synchrony in gamete development at smaller scales within benthic populations. Using a ubiquitous broadcast-spawning species, the brittlestar Ophiopholis aculeata, we assessed variations in gametogenic activity over the annual reproductive cycle at various scales. Quantitative indices of oogenic maturity were compared in females collected: (1) in two substrata at a given site (distant ∼200–300 m), (2) among clusters of individuals living in relatively close proximity (∼10–50 m), and (3) within each cluster of individuals collected under/inside a given substratum (∼2–20 cm). Gametogenic maturity was also examined in females collected from distant sites (∼50–150 km). At the main study site, oogenic cohesion was greater within and among clusters of a given substratum than between substrata, and differences in reproductive output and spawning periods occurred between individuals from the two substrata studied. At the finest scale (within clusters of individuals) oogenic synchrony was maximal just before spawning. Comparing samples from distant geographic locations (>50 km) showed significant asynchrony outside the pre-spawning period. The present study shows that relatively high levels of asynchrony in gamete maturation may exist among conspecifics of a seemingly homogeneous population, except at the closest scale (within clusters) at the culmination of the reproductive cycle (near spawning). This emphasizes the likely interplay of inter-individual exchanges and small-scale distribution on the fine coordination of reproductive events.
- Published
- 2014
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29. Contrasting predation rates on planktotrophic and lecithotrophic propagules by marine benthic invertebrates
- Author
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Emily Joan Doncaster, Annie Mercier, and Jean-François Hamel
- Subjects
0106 biological sciences ,Cnidaria ,Larva ,biology ,Ecology ,010604 marine biology & hydrobiology ,Marine larval ecology ,Pelagic zone ,Aquatic Science ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Predation ,Propagule ,Benthic zone ,14. Life underwater ,Ecology, Evolution, Behavior and Systematics ,Invertebrate - Abstract
When modeling life-history evolution of marine benthic invertebrates, it has been common to assume constant mortality rate of offspring during the pre-settlement phase and greater propagule vulnerability in the pelagic than in the benthic habitat. However, recent findings have challenged these assumptions, emphasizing the need for further empirical tests. Here we present the results of a multifactorial experimental investigation of predation rates on propagules of various taxa by benthic invertebrates. Planktotrophic and lecithotrophic propagules of echinoderms, cnidarians and annelids (i.e. sea cucumbers, sea stars, sea urchins, corals, sea anemones, jellyfishes, and polychaetes) were tested at various stages of development to examine the effects of ontogeny, size and behavior on predation rates by common filter feeders (mussels, tunicates) and suspension feeders (sea anemones). Overall, propagule survival was positively correlated with their size, although on closer inspection this was essentially due to the size difference between developmental modes (larger lecithotrophic propagules being less vulnerable). A slight inverse relationship between survival and age was detected in both lecithotrophic and planktotrophic propagules; however ingestion rates were not systematically higher on more advanced life stages within prey species due to predator-specific responses to ontogenetic changes. Filter feeders were generally more effective predators than suspension feeders. Tunicates expressed greater selectivity based on size and age of propagules than on their behavior, while the inverse occurred in the two other predators. A combination of factors, i.e. size, buoyancy and chemical defenses, presumably underlie overall higher survival rates in lecithotrophic than in planktotrophic propagules, supporting the hypothesis that the former but not the latter may have evolved due to increased epibenthic predation.
- Published
- 2013
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30. Trophic ecology of deep-sea Asteroidea (Echinodermata) from eastern Canada
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Katie S. P. Gale, Jean-François Hamel, and Annie Mercier
- Subjects
Sponge spicule ,Benthos ,Benthic zone ,Ecology ,Aquatic Science ,Biology ,Oceanography ,Bathyal zone ,Trophic level ,Isotope analysis ,Apex predator ,Invertebrate - Abstract
Asteroids (sea stars) can be important predators in benthic communities and are often present in ecologically important and vulnerable deep-sea coral and sponge habitats. However, explicit studies on the trophic ecology of deep-sea asteroids are rare. We investigated the diets of seven species of deep-sea asteroid from the bathyal zone of Newfoundland and Labrador, eastern Canada. A multifaceted approach including live animal observations, stomach content analysis, and stable isotope analysis revealed the asteroids to be either top predators of megafauna or secondary consumers (mud ingesters, infaunal predators, and suspension feeders). The stable isotope signatures of Ceramaster granularis, Hippasteria phrygiana, and Mediaster bairdi are characteristic of high-level predators, having δ15N values 4.4‰ (more than one trophic level) above Ctenodiscus crispatus, Leptychaster arcticus, Novodinia americana, and Zoroaster fulgens. We present strong evidence that corals and sponges are common food items for two of the predatory species, C. granularis and H. phrygiana. During laboratory feeding trials, live H. phrygiana fed on several species of soft coral and C. granularis fed on sponges. Stomach content analysis of wild-caught individuals revealed sclerites from sea pens (e.g. Pennatula sp.) in the stomachs of both asteroid species; H. phrygiana also contained sclerites from at least two other species of octocoral and siliceous sponge spicules were present in the stomachs of C. granularis. The stomach contents of the secondary consumers contained a range of invertebrate material. Leptychaster arcticus and Ctenodiscus crispatus feed infaunally on bulk sediment and molluscs, Zoroaster fulgens is a generalist infaunal predator, and the brisingid Novodinia americana is a specialist suspension feeder on benthopelagic crustaceans. This study provides a foundation for understanding the ecological roles of bathyal asteroids, and suggests that some species may have the potential to be important modulators of deep-sea benthic communities.
- Published
- 2013
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31. Seasonality in reproduction of the deep-water pennatulacean coral Anthoptilum grandiflorum
- Author
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Sandrine Baillon, Annie Mercier, Jean-François Hamel, and Vonda E. Wareham
- Subjects
Detritus ,Ecology ,media_common.quotation_subject ,Coral ,Marine larval ecology ,fungi ,Aquatic Science ,Biology ,Fecundity ,Bathyal zone ,Hermaphrodite ,Reproduction ,Ecology, Evolution, Behavior and Systematics ,Sex ratio ,media_common - Abstract
The deep-sea pennatulacean coral Anthoptilum grandiflorum exhibits a cosmopolitan distribution and was recently determined to serve as habitat for other invertebrates and fish larvae in the northwest Atlantic. Colonies collected at bathyal depths between 2006 and 2010 in eastern Canada were analysed to determine their fecundity and characterize spatial and temporal trends in their reproductive cycle. Anthoptilum grandiflorum is a gonochoric broadcast spawner with a sex ratio that does not differ significantly from equality (although one hermaphrodite colony was observed). In male colonies, all the spermatocysts synthesized become mature over the annual cycle, while only ~21 % of the initial production of oocytes reaches maturity in female colonies. Female potential fecundity based on mature oocytes just before spawning was on average 13 oocytes polyp−1; male potential fecundity was 48 spermatocysts polyp−1. The spawning period of A. grandiflorum differs between geographic regions, from April (in southern Newfoundland) to July (in Labrador), closely following regional spring phytoplankton blooms after accounting for the deposition of planktic detritus. Release of oocytes by a live colony held in the laboratory was recorded in April 2011, coincident with field data for similar latitudes. Seawater temperatures at the time of spawning were around 3.6–4.8 °C in all regions and in the laboratory. Early stages of gametogenesis were detected in colonies collected shortly after the spawning season, and early and late growth stages occurred successively until December. Mature colonies were observed between April and July (depending on latitude). The diameter of mature oocytes (~1,100 μm maximum diameter) is consistent with lecithotrophic larval development.
- Published
- 2013
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32. Penilidia desbarresisp. nov. (Echinodermata: Holothuroidea: Elasipodida) from the upper slope of Newfoundland and re-description ofP. ludwigi(von Marenzeller, 1893)
- Author
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Andrey V. Gebruk, Antonina V. Rogacheva, David L. Pawson, Jean-François Hamel, Kevin G. Macisaac, and Annie Mercier
- Subjects
Canyon ,Dorsum ,geography ,geography.geographical_feature_category ,Submarine canyon ,Aquatic Science ,Biology ,Oceanography ,biology.organism_classification ,Deep sea ,Type species ,Elasipodida ,Ecology, Evolution, Behavior and Systematics - Abstract
Penilpidia desbarresi sp. nov. was collected in the Desbarres Canyon at a depth of 525 m, off the southeastern coast of insular Newfoundland, eastern Canada. The new species differs from the type species Penilpidia ludwigi (von Marenzeller, 1983) in having larger middle spines on arched rod-type ossicles on the dorsum and by having the lobe around the posterior body end formed by six pairs of very small tube feet. Penilpidia desbarresi sp. nov was photographed in situ and sampled on a single occasion in July 2007. This gonochoric species (1� 2 cm long) was found on a muddy substrate and individuals were aggregated, reaching a density of 50 ind. m � 2 . Preliminary evidence points to brooding, which would be a first for the family Elpidiidae. Penilpidia ludwigi, not recorded for more than 100 years after its first description, is re-described.
- Published
- 2013
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33. Sea cucumber fisheries: global analysis of stocks, management measures and drivers of overfishing
- Author
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Steven W Purcell, Annie Mercier, Chantal Conand, M Verónica Toral-Granda, Jean-François Hamel, Alessandro Lovatelli, and Sven Uthicke
- Subjects
0106 biological sciences ,Stock assessment ,Overfishing ,010604 marine biology & hydrobiology ,Fishing ,Biodiversity ,04 agricultural and veterinary sciences ,Management, Monitoring, Policy and Law ,Aquatic Science ,Biology ,Oceanography ,Livelihood ,01 natural sciences ,Fishery ,040102 fisheries ,0401 agriculture, forestry, and fisheries ,Marine protected area ,14. Life underwater ,Fisheries management ,Ecology, Evolution, Behavior and Systematics ,Global biodiversity - Abstract
Worldwide, most sea cucumber fisheries are ineffectively managed, leading to declining stocks and potentially eroding the resilience of fisheries. We analyse trends in catches, fishery status, fishing participation and regulatory measures among 77 sea cucumber fisheries through data from recent fishery reports and fishery managers. Critical gaps in fisheries biology knowledge of even commonly targeted species undermine the expected success of management strategies. Most tropical fisheries are small-scale, older and typified by numerous (>8) species, whereas temperate fisheries are often emerging, mono-specific and industrialized. Fisher participation data indicated about 3 million sea cucumber fishers worldwide. Fisher participation rates were significantly related to the average annual yield. permanova analysis showed that over-exploited and depleted fisheries employed different sets of measures than fisheries with healthier stocks, and a non-metric multidimensional scaling ordination illustrated that a broad set of regulatory measures typified sustainable fisheries. SIMPER and regression tree analyses identified that the dissimilarity was most related to enforcement capacity, number of species harvested, fleet (vessel) controls, limited entry controls and rotational closures. The national Human Development Index was significantly lower in countries with over-exploited and depleted fisheries. Where possible, managers should limit the number of fishers and vessel size and establish short lists of permissible commercial species in multispecies fisheries. Our findings emphasize an imperative to support the enforcement capacity in low-income countries, in which risk of biodiversity loss is exceptionally high. Solutions for greater resilience of sea cucumber stocks must be embedded within those for poverty reduction and alternative livelihood options.
- Published
- 2011
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34. A new quantitative analysis of ovarian development in echinoderms: the maturity stage index
- Author
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Gina M. Doyle, Annie Mercier, and Jean-François Hamel
- Subjects
Gonad ,Ecology ,Maturity (sedimentology) ,media_common.quotation_subject ,Marine larval ecology ,Zoology ,Aquatic Science ,Biology ,Oocyte ,biology.organism_classification ,medicine.anatomical_structure ,Brittle star ,medicine ,Stage (hydrology) ,Reproduction ,Ecology, Evolution, Behavior and Systematics ,Gametogenesis ,media_common - Abstract
This study developed an objective quantitative method for detecting small-scale temporal or spatial differences in gametogenesis in echinoderms. The method was applied to conventional monthly samples of the planktotrophic brittle star, Ophiopholis aculeata, collected at a single site in Newfoundland (eastern Canada) at 10–15 m depth. The samples were analysed to determine gonad index, oocyte size and gonadal stage using histology. The maturity stage index (MSI) was developed to integrate a measure of brittle star size (disc diameter), oocyte size and oocyte density. The MSIs ranged from 0 to 800 and had significantly different means among the four gametogenic stages (early growth, growth, mature and spent). The MSI was more sensitive in revealing significant differences between consecutive stages than any of its individual constituents. The MSI was also applied to gametogenic data from the lecithotrophic holothuroid, Mesothuria lactea, again revealing significant differences between successive oogenic stages. This method is expected to be useful in field and experimental studies of gametogenesis in echinoderms (and possibly other taxa), where it is important to detect not just the timing of annual peaks in reproduction but small differences in reproductive status among individuals or populations (e.g. from different habitats or feeding regimes).
- Published
- 2011
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35. Comparative study of reproductive synchrony at various scales in deep-sea echinoderms
- Author
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Sandrine Baillon, Jean-François Hamel, and Annie Mercier
- Subjects
Ecology ,media_common.quotation_subject ,Aquatic Science ,Biology ,Oceanography ,biology.organism_classification ,Phormosoma placenta ,Deep sea ,Reproductive synchrony ,Deep water ,Sampling resolution ,Echinoderm ,Mesothuria ,Reproduction ,media_common - Abstract
This study examined the influence of temporal and spatial factors on the determination of reproductive cycles in selected deep-water echinoderms. The prevalence of inter-individual synchrony in the gametogenesis of three ubiquitous species, Phormosoma placenta (Echinoidea), Hippasteria phrygiana (Asteroidea) and Mesothuria lactea (Holothuroidea) collected off the coast of Newfoundland and Labrador (eastern Canada), was determined. Analyses revealed diverse degrees of gametogenic asynchrony at the scales examined (within trawls, between trawls over similar or different periods, as well as among depths and locations over the same period). Taken as a whole, samples did not show any annual or seasonal patterns, whereas some sets of samples, taken over a particular time period in the same area and at the same depth, revealed well synchronized maturing and/or spawning periods in P. placenta and H. phrygiana. This study presents evidence that determination of reproductive cycles in many deep-sea species may be affected by low sampling resolution inherent to most deep-sea studies. More accurate assessments of reproductive patterns and periodicities may require much tighter collection designs as several species are likely to rely on long-term or transient pairing and aggregation to synchronize their breeding activities.
- Published
- 2011
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36. Genetic population structure in a commercial marine invertebrate with long-lived lecithotrophic larvae: Cucumaria frondosa (Echinodermata: Holothuroidea)
- Author
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Jean-François Hamel, Justin J. So, Annie Mercier, and Sven Uthicke
- Subjects
education.field_of_study ,Ecology ,Overfishing ,biology ,Marine larval ecology ,Population size ,Population ,Aquatic Science ,biology.organism_classification ,Coalescent theory ,Phylogeography ,Cucumaria ,education ,Ecology, Evolution, Behavior and Systematics ,Indo-Pacific - Abstract
The patterns of genetic diversity and connectivity were investigated in Cucumaria frondosa, the most abundant sea cucumber in the North Atlantic, to assist in the management and conservation of this ecologically important marine invertebrate, which is the target of an emerging fishery. Mitochondrial DNA COI sequences of 334 C. frondosa were obtained and analyzed, mainly from its western North Atlantic range, where the commercial fishery is being developed, with complementary sampling in the mid- and eastern North Atlantic. Analysis of molecular variance showed no significant (P > 0.05) differences among subpopulations in the western region suggesting that it constitutes one panmictic population. The same analysis showed low, but significant differences between eastern and western Atlantic populations. Coalescent analyses using isolation with migration models and a Bayesian skyline plot indicated historical divergence and a general increase in population size prior to the last glacial maximum and highly asymmetric gene flow (nearly 100 times lower from west to east) between sea cucumbers from North America and Norway. Results suggest that subpopulations of C. frondosa within the western North Atlantic have been highly connected. We propose that aided by the high-connectivity local subpopulations can recover rapidly from natural (i.e., ice ages) or anthropogenic (i.e., overfishing) population declines through recruitment from deep refugia.
- Published
- 2011
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37. Evidence of dietary feedback in a facultative association between deep-sea gastropods and sea anemones
- Author
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Annie Mercier, Jean-François Hamel, and Meredith Schofield
- Subjects
Cnidaria ,Facultative ,biology ,Ecology ,Gastropoda ,Foraging ,Aquatic Science ,Epibiont ,biology.organism_classification ,Coelenterata ,Mollusca ,Ecology, Evolution, Behavior and Systematics ,Bathyal zone - Abstract
While epibiotic associations between macrobenthic invertebrates are common, the role they play in the feeding ecology of intervening species is often incompletely understood. The diets of epibiotic sea anemones Allantactis parasitica and their gastropod hosts were analyzed using digestive tract contents, lipid biomarkers and observations of live specimens in an attempt to detect dietary feedback from the facultative association. Comparisons were made using symbiotic individuals and asymbiotic counterparts collected at depths of 191–627 m from three neighbouring areas in the northwest Atlantic. Gastropods carrying one or two epibionts had higher stomach indices than those harbouring three epibionts or no epibiont. The diet of symbiotic gastropods was also more diversified based on stomach contents and lipid analysis. Among other things, symbiotic gastropods contained four times more lipids and a greater proportion of Σn−3 fatty acids. Gastrovascular cavity content indices of asymbiotic sea anemones were generally lower than those of symbiotic counterparts. Their cavities were more often empty, and their diet less diversified with fewer benthic items, suggesting that foraging of gastropods through the sediments makes more food available to sea anemones living as epibionts. Lipid analysis showed some disparities between symbiotic and asymbiotic sea anemones at the regional scale, including in percent phospholipids and in the proportion of certain fatty acids. Together these findings indicate that mutual protection against predators leads to prolonged and more efficient foraging for gastropods and increased time spent deployed (feeding) in food-rich areas for sea anemones, thus enabling both partners to fully exploit food resources that may be limited at bathyal depths.
- Published
- 2011
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38. Reproductive periodicity, spawning and development of the deep-sea scleractinian coral Flabellum angulare
- Author
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Zhao Sun, Jean-François Hamel, and Annie Mercier
- Subjects
Cnidaria ,Ecology ,Flabellum angulare ,biology ,Reproductive success ,Coral ,Scleractinia ,Aquatic Science ,biology.organism_classification ,Mesocosm ,Water column ,Coelenterata ,Ecology, Evolution, Behavior and Systematics - Abstract
Increasing threats to deep-sea corals highlight the need to expand knowledge of these taxa so that conservation measures can be developed. The present study focused on the reproductive patterns of the deep-sea solitary coral Flabellum angulare. A series of samples (n = 398) collected in 2006–2008 in the northwest Atlantic at depths of 925–1,430 m revealed that gametogenesis was synchronous among males and females and fluctuated seasonally. Initiation of gamete synthesis was estimated to be in August–September and spawning in June. Further analysis and daily monitoring of 30–60 individuals maintained in a flow-through mesocosm showed that gamete release occurred in March–June with a peak in May. Release of oocytes coincided with rising seawater temperatures and high deposition rates indicative of elevated water column productivity. Oocytes (900–1,200 μm diameter) were released through the oral cavity, generally in bundles of 3–5 surrounded by mesenterial filaments and attached to a thread (30–50 mm long). As oocytes became free in the water column, ovulation occurred followed by fertilization. Eggs/embryos initially remained on the tentacles of the spawner before either falling onto the substratum or floating to the surface. The embryos developed into planula larvae measuring 2–3 mm in length within about 24 h. Together, these findings shed new light on the strategies used by deep-sea corals to maximize their reproductive success.
- Published
- 2010
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39. Planulation periodicity, settlement preferences and growth of two deep-sea octocorals from the northwest Atlantic
- Author
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Jean-François Hamel, Zhao Sun, and Annie Mercier
- Subjects
Cnidaria ,Larva ,Ecology ,biology ,Octocorallia ,Aquatic Science ,biology.organism_classification ,Demersal zone ,Bathyal zone ,Water column ,Productivity (ecology) ,Mesenteries ,Ecology, Evolution, Behavior and Systematics - Abstract
Adaptations and life history strategies have rarely been studied in deep-sea corals. Here we present laboratory data on the timing of larval release, reproductive output, substratum selectiv- ity and growth of 2 alcyonaceans (Cnidaria, Octocorallia) from the bathyal zone of eastern Canada. Planulation patterns in 2 Drifa species were significantly influenced by seasonal productivity and the lunar cycle, and larval output was greater in larger colonies (from shallower depths). After release, planulae of Drifa sp. shifted their buoyancy to move between the bottom and the water column, whereas planulae of D. glomerata were largely demersal and crawled on the substratum until settle- ment (typically occurring after 1 to 30 d in both species). Settlement trials showed that planulae set- tled more readily on rough natural surfaces covered with biofilm than all other substrata tested and that larvae of colonies from deeper habitats were less selective than those originating from shallower habitats. In both species, the 8 primary mesenteries (and tentacle buds) appeared within 24 h post settlement, and polyps reached a maximum size after 2 to 3 mo. The first branching polyp was observed after ca. 9 mo of growth in D. glomerata, whereas no direct evidence of branching was detected in Drifa sp. over 21 mo of observation, although 2- and 4-polyp colonies were later discov- ered in the holding tank with adults. Together, these findings highlight dual traits of resilience (i.e. extended breeding period, long-lived larvae) and vulnerability (i.e. substratum selectivity, slow growth) in deep-sea corals.
- Published
- 2010
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40. First record of the sea cucumber Trachythyone nina (Echinodermata: Holothuroidea) in Canadian waters, with a redescription of the species and notes on its distribution and biology
- Author
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Doris J. Pawson, Jean-François Hamel, Annie Mercier, and David L. Pawson
- Subjects
geography ,geography.geographical_feature_category ,biology ,Continental shelf ,business.industry ,Distribution (economics) ,Albatross ,Aquatic Science ,Oceanography ,biology.organism_classification ,Deep sea ,Fishery ,Sea cucumber ,Arctic ,Dendrochirotida ,Type locality ,business ,Ecology, Evolution, Behavior and Systematics - Abstract
The original and only description of the cucumariid holothurian species Trachythyone nina (Deichmann, 1930) is based on material collected near George's Bank, by the US Fish Commission Steamer Albatross 125 years ago. No additional material of this species has been formally reported ever since. We hereby record T. nina for the first time in Canadian waters, from several sites along the continental slope of Newfoundland and Labrador (43–55° N) at depths of 1088–1308 m and from the Arctic (60° N) at 590 m, as well as from two sites near the type locality at 132–155 m along the coast of New England. A more detailed and accurate description of the species is provided, along with notes on its ecology and distribution. This tiny (≤15 mm long) gonochoric sea cucumber is usually associated with hard substrata, including deep-sea corals.
- Published
- 2010
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41. Reproductive biology of the deep-sea octocoral Drifa glomerata in the Northwest Atlantic
- Author
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Jean-François Hamel, Annie Mercier, Zhao Sun, and Evan N. Edinger
- Subjects
photoperiodism ,Larva ,Ecology ,biology ,media_common.quotation_subject ,Zoology ,Aquatic Science ,biology.organism_classification ,Algal bloom ,Nephtheidae ,Alcyonacea ,Reproductive biology ,Reproduction ,Planula ,Ecology, Evolution, Behavior and Systematics ,media_common - Abstract
The present study examined the mode and timing of reproduction of poorly understood deep-water octocorals and the environmental factors that may influence their reproductive patterns. Data on reproductive characteristics of the octocoral Drifa glomerata (Alcyonacea: Nephtheidae) collected between 2004 and 2007 at ca. 100–330 m depth off Newfoundland and Labrador (eastern Canada) were compared among years, months and depth ranges. No male gonad was ever observed during the study. The ratio of fertile colonies possessing large pinkish polyps with oocytes/planulae was >50% throughout the year. The number of brooded planula larvae within a single fertile polyp varied between 1 and 10 for a total of approximately 40–3,000 in a whole colony. The size of oocytes and/or planulae was consistently greater in the polyps than in the branchlets, indicating that the development pathway of oocytes to planulae is from the branchlets to the polyps. Although larval production seemed to persist year round, the onset of major planulation events occurred in December–January of two consecutive years, when large mature planulae were released in correlation with the first increase of photoperiod and maximum temperature at 150 m. A second peak in planulation between April and early June followed the phytoplankton bloom. Seasonal trends were more apparent in colonies from
- Published
- 2009
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42. Depth-related shift in life history strategies of a brooding and broadcasting deep-sea asteroid
- Author
-
Jean-François Hamel and Annie Mercier
- Subjects
Ecology ,Henricia ,Aquatic Science ,Biology ,Brachiolaria ,Fecundity ,biology.organism_classification ,Deep sea ,Bathyal zone ,Life history theory ,Paternal care ,Ecology, Evolution, Behavior and Systematics ,Sex ratio - Abstract
Combining field and laboratory work, this study investigated the reproductive cycle, aggregative behavior, spawning periodicity, development and early growth of the sea star Henricia lisa living at bathyal depths off eastern Canada. Marked differences were found between individuals from ~1,300 and ~600 m deep. The former had a male biased sex ratio and an aperiodic reproductive cycle, whereas the latter displayed an equal sex ratio and a biannual breeding pattern. Furthermore, the maximum size was larger and female fecundity roughly five times higher in shallower compared to deeper populations. In the tanks, aggregative behavior was recorded twice a year during the summer and winter breeding periods. The onset of aggregations and spawning coincided with a temperature of 3–4°C. Males spawned first and females typically responded inside 30–60 min. Between 12 and 20 eggs were retained to be brooded under the arched arms of the female, whereas the remainder were broadcasted and developed without parental care. The fertilized eggs underwent a first cleavage after 12 h, reached the brachiolaria stage in 1 month, became juveniles within 3–4 months and reached ~ 4 mm in diameter after 14–17 months of growth. The embryos and juveniles developed at the same rate whether brooded or not, and development of winter cohorts was typically slower due to lower prevailing temperatures. This study of H. lisa provides the first evidence of lecithotrophy in a seasonally breeding deep-sea echinoderm and of brooding in a deep-sea asteroid.
- Published
- 2008
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43. Nature and role of newly described symbiotic associations between a sea anemone and gastropods at bathyal depths in the NW Atlantic
- Author
-
Jean-François Hamel and Annie Mercier
- Subjects
Cnidaria ,Leptasterias polaris ,biology ,Ecology ,Gastropoda ,Aquatic Science ,Sea anemone ,Epibiont ,Buccinum undatum ,biology.organism_classification ,Mollusca ,Ecology, Evolution, Behavior and Systematics ,Bathyal zone - Abstract
The hormathiid sea anemone Allantactis parasitica was found living as an epibiont on numerous species of gastropods at depths of 725–1100 m along the continental slope of eastern Canada. The proportion of bathyal gastropods hosting 1–6 sea anemones reached 72.5% in a single trawl. Although A. parasitica was occasionally found on other substrata (i.e. empty shells, pebbles), laboratory trials confirmed that they preferably associate with living gastropods. Settlement of planula larvae occurred significantly more often on the shells of live bathyal gastropods than on all other substrata present in the tanks. Juvenile sea anemones (∼ 1 mm diameter) readily moved from the mud or other inert substrata onto shells of burrowed bathyal gastropods. Conversely, larvae, juveniles and adults of A. parasitica never associated with any shallow-water gastropods when given the opportunity. Trials exposing predatory sea stars (Leptasterias polaris) from shallow and bathyal depths to bathyal gastropods (Buccinum undatum) with epibiotic A. parasitica, and to asymbiotic bathyal and shallow-water B. undatum, revealed adaptive behaviours in both prey and predator. Shallow-water gastropods (devoid of epibionts) reacted defensively to L. polaris, whereas bathyal gastropods relied mostly on their epibionts to protect them, thus falling prey to L. polaris when the epibionts were removed. L. polaris from bathyal depths typically ignored symbiotic gastropods, but they consistently preyed on asymbiotic ones, while L. polaris from shallow areas initially attempted to prey on all gastropods, but learned to avoid those harbouring sea anemones. Furthermore, living as epibionts afforded sea anemones a means to escape one of their own predators, the sea star Crossaster papposus. The mutualistic relationship between hormathiid sea anemones and bathyal gastropods from the NW Atlantic may have evolved in response to predation pressure.
- Published
- 2008
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44. Diet, reproduction, settlement and growth of Palio dubia (Nudibranchia: Polyceridae) in the north-west Atlantic
- Author
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Annie Mercier, Jean-François Hamel, and Philip Sargent
- Subjects
Larva ,biology ,Hatching ,Ecology ,media_common.quotation_subject ,Polyceridae ,Nudibranch ,Aquatic Science ,biology.organism_classification ,Loricata ,Gastropoda ,Reproduction ,Mollusca ,media_common - Abstract
Egg masses, juveniles and adults of the gastropod Palio dubia were found in shallow rocky habitats of eastern Canada dominated by the bryozoan Eucratea loricata. Multiple-choice experiments and direct field observations revealed that P. dubia prefers to feed on E. loricata. Courtship, copulation and egg-laying as well as hatching of P. dubia were closely related to the lunar cycle. Reproduction was preceded by increased pairing and aggregative behaviour. The duration of embryonic development in the capsules was 10–15 d. After hatching, most veligers were retained within the bryozoan branches during their pelagic phase (1–3 d). In multiple-choice experiments, settlement occurred preferentially on the bryozoan E. loricata. In the absence of the preferred substratum, the larvae continued to swim and died after a period that never exceeded 8 d. Juveniles remained associated with the bryozoans on which they settled and reached the adult size in ~3 months.
- Published
- 2008
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45. Long-term study of gamete release in a broadcast-spawning holothurian: predictable lunar and diel periodicities
- Author
-
Roberto H. Ycaza, Annie Mercier, and Jean-François Hamel
- Subjects
Moonlight ,Evening ,Ecology ,urogenital system ,fungi ,Zoology ,Captivity ,Aquatic Science ,Biology ,Spawn (biology) ,Reproductive synchrony ,Overcast ,medicine.anatomical_structure ,medicine ,Gamete ,Diel vertical migration ,reproductive and urinary physiology ,Ecology, Evolution, Behavior and Systematics - Abstract
Annual and monthly patterns of gamete release by the sea cucumber Isostichopus fuscus on the coast of Ecuador were studied to determine the proximal spawning cue and variations in reproductive output throughout the year. Several hundred newly collected individuals were monitored nearly every month for 4 yr. I. fuscus displayed a lunar spawning periodicity: 0.7 to 34.9% of individuals consistently spawned 1 to 4 d after the new moon. Spawning mostly occurred within one evening; however, some gamete release was often recorded over 2 to 4 consecutive evenings. Individuals maintained in captivity for several months retained their spawning periodicity and timing with the lunar cycle. Conversely, newly caught individuals that were shaded from the moonlight did not spawn, thus demonstrating the apparent lack of endogenous rhythms and prevalence of lunar luminance over other cues (i.e. tidal cycle, fluctuations in barometric pressure). On a spawning night, males typically initiated gamete release around sunset; females spawned just after the peak male broadcast. The percentage of spawning individuals was higher and a greater overlap between male and female peak spawning activity was observed during clear conditions compared with overcast conditions. The gonads of individuals that did not spawn in a given month showed a variety of maturity levels, including post-spawning, growth and mature gametogenic stages. Hence, the individual reproductive cycle is apparently longer than the monthly spawning periodicity observed at the population level, enabling I. fuscus populations to be reproductive year round.
- Published
- 2007
- Full Text
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46. Range extension of the deep-sea polychaete worm Neopolynoe acanellae in Canada
- Author
-
E. M. Montgomery, Annie Mercier, Ruth Barnich, and Jean-François Hamel
- Subjects
geography ,Polychaete ,geography.geographical_feature_category ,Ecology ,biology ,Continental shelf ,Range (biology) ,Sea pen ,Coral ,Aquatic Science ,Oceanography ,biology.organism_classification ,Deep sea ,Fishery ,Arctic ,Polynoidae ,Ecology, Evolution, Behavior and Systematics - Abstract
Specimens of the deep-sea scale worm Neopolynoe acanellae (Verrill, 1881) (Polychaeta, Polynoidae) were collected at depths between 466 and 1405 m in Canadian waters while still attached to their host, the pennatulacean coral (sea pen) Pennatula grandis Ehrenberg, 1834. The present records extend the northern latitude of occurrence of N. acanellae in North America by 17o (~2000 km) to include the northern continental shelf of Newfoundland and Labrador and the lower Arctic, off the southern coast of Baffin Island (Canada). Analysis of the worm's intestinal content confirmed the presence of sea pen soft tissues and sclerites, suggesting that this species feeds on its host and is therefore parasitic.
- Published
- 2015
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47. Factors regulating the breeding and foraging activity of a tropical opisthobranch
- Author
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Annie Mercier and Jean-François Hamel
- Subjects
Hydatina physis ,Courtship display ,Ecology ,media_common.quotation_subject ,Foraging ,Zoology ,Aquatic Science ,Biology ,Nocturnal ,Hydatina ,biology.organism_classification ,parasitic diseases ,Circadian rhythm ,Reproduction ,Full moon ,media_common - Abstract
This study investigated the influence of environmental factors on the foraging cycle, breeding activity, settlement and growth of the opisthobranch Hydatina physis using laboratory trials and field observations. Results showed that H. physis follows a nocturnal circadian rhythm mediated by photic intensity and modulated by food availability. The adults foraged between 1900 and 0530 h, with an activity peak between 2000 and 2200 h, and remained inactive and burrowed in the sand during the day. This pattern was clearly influenced by cloud cover, rain and laboratory manipulated light:dark cycle. The reproduction of H. physis was primarily influenced by the lunar cycle. For 4 consecutive months, hermaphroditic reciprocal copulation, preceded by pre-copulatory courtship behaviour, occurred at night 5–7 d before the full moon. Spawning occurred 3–5 d later for up to 5 consecutive nights, the egg mass gradually decreasing in size with each spawning. An overcast sky or rain prevented or delayed both copulation and egg release. Settlement of veligers was largely influenced by the nature of the substrate. In multiple-choice experiments, settlement occurred predominantly on sand containing cirratulid polychaetes. The juveniles reached ca. 3.9 mm in shell length after 5.5 months growth.
- Published
- 2006
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48. New Host and Geographical Distribution for the Pearlfish Carapus Mourlani (carapidae) with a Discussion on its Biology
- Author
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Eric Parmentier, Annie Mercier, and Jean-François Hamel
- Subjects
Gonad ,biology ,Ecology ,Host (biology) ,Carapus ,Zoology ,Aquatic Science ,biology.organism_classification ,Isostichopus fuscus ,Sea cucumber ,medicine.anatomical_structure ,Pearlfish ,medicine ,Activity cycle ,Coelom ,Animal Science and Zoology ,Ecology, Evolution, Behavior and Systematics - Abstract
Specimens of the pearlfish Carapus mourlani (Carapidae) were observed for the first time in association with the sea cucumber Isostichopus fuscus (Holothuroidea: Echinodermata) along the coast of Ecuador. Out of 4345 sea cucumbers collected from various depths between 5 and 60 m, 12 harbored a pearlfish either in the coelomic cavity, the respiratory tree, or the digestive tract, yielding a prevalence of ca. 0.0028. The presence of C. mourlani appeared to be detrimental to the holothurian host in some cases. Side effects resulting from coelomic cavity infections included less advanced gonad maturity (reduced gonadal tubule diameter and length, lower ratio of mature oocytes) and a significant proportion of necrotic and shriveled gonadal tubules, devoid of gametes. Aside from discussing this evidence, the present paper briefly describes the biology of the pearlfish, its relationship with the host, and its daily activity cycle.
- Published
- 2006
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49. New records of brisingidan asteroids (Asteroidea: Brisingida) in eastern Canada
- Author
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Christopher L. Mah, Annie Mercier, Jean-François Hamel, and Katie S. P. Gale
- Subjects
Nova scotia ,Geography ,Oceanography ,Ecology ,biology ,Asteroid ,Aquatic Science ,Brisingida ,biology.organism_classification ,Ecology, Evolution, Behavior and Systematics ,Bathyal zone - Published
- 2014
- Full Text
- View/download PDF
50. First records of Thyone inermis and Labidoplax buskii (Echinodermata: Holothuroidea) in Canadian waters
- Author
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Jean-François Hamel, Annie Mercier, Claude Massin, and Ashley Robar-Matheson
- Subjects
Nova scotia ,Ecology ,biology ,Apodida ,Aquatic Science ,Oceanography ,biology.organism_classification ,Deep sea ,Labidoplax ,Seafloor spreading ,Bathyal zone ,Fishery ,Sea cucumber ,Dendrochirotida ,Ecology, Evolution, Behavior and Systematics ,Geology - Abstract
This work presents records of two endobenthic species of sea cucumber (Holothuroidea: Echinodermata) not previously reported in Canadian waters. Thyone inermis (Dendrochirotida) and Labidoplax buskii (Apodida) were collected south-west of Nova Scotia (eastern Canada) in 2009 in Georges and Crowell Basins in the upper 2 cm of muddy seafloor at upper bathyal depths (240–370 m). Both species are of small size, 3.7–8 mm and 5–8 mm long, respectively.
- Published
- 2014
- Full Text
- View/download PDF
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