Your search keyword '"Durif, Caroline"' showing total 8 results

1. Atlantic cod (Gadus morhua) larvae are attracted by low-frequency noise simulating that of operating offshore wind farms.

Author

Cresci, Alessandro, Zhang, Guosong, Durif, Caroline M. F., Larsen, Torkel, Shema, Steven, Skiftesvik, Anne Berit, and Browman, Howard I.

Subjects

OFFSHORE wind power plants, ATLANTIC cod, LARVAE, UNDERWATER noise, PARTICLE motion

Abstract

The number and size of offshore wind (OW) turbines is increasing rapidly. OW turbines produce continuous, low-frequency noise that could impact marine fish dispersing/migrating through the facilities. Any such impact would be relevant for larval stages, which have limited possibility to swim away from OW facilities. If directional movement of fish larvae at sea is impacted by low-frequency continuous sound is unknown. We observe the behavior of Atlantic cod larvae (N = 89) in response to low-frequency sound while they are drifting in a Norwegian fjord inside transparent drifting chambers. We transmit 100 Hz continuous sound in the fjord, in the intensity range of OW turbines' operational noise, and measure the sound pressure and 3-D particle motion. Half of the larvae (N = 45) are exposed to low-frequency (100 Hz) continuous sound, while the other half (N = 44) are observed under the same conditions but without the sound. Exposure does not affect the routine and maximum swimming speeds or the turning behavior of the larvae. Control larvae orient to the northwest. In contrast, exposed larvae orient towards the source of low-frequency sound and particle motion. This provides a basis to assess how OW might impact dispersal in this species. An open water experiment in the North Sea, using drifting behavioral chambers, demonstrates that cod larvae orient to the source of low-frequency underwater noise at the level generated in the proximity of an offshore wind turbine. [ABSTRACT FROM AUTHOR]

Published

2023

2. Blood-based gene expression as non-lethal tool for inferring salinity-habitat history of European eel (Anguilla anguilla).

Author

Bertolini, Francesca, Rohtla, Mehis, Parzanini, Camilla, Tomkiewicz, Jonna, and Durif, Caroline M. F.

Subjects

ANGUILLA anguilla, GENE expression, OTOLITHS, EUROPEAN history, FRESHWATER habitats, RANDOM forest algorithms

Abstract

The European eel is a facultative catadromous species, meaning that it can skip the freshwater phase or move between marine and freshwater habitats during its continental life stage. Otolith microchemistry, used to determine the habitat use of eel or its salinity history, requires the sacrifice of animals. In this context, blood-based gene expression may represent a non-lethal alternative. In this work, we tested the ability of blood transcriptional profiling to identify the different salinity-habitat histories of European eel. Eels collected from different locations in Norway were classified through otolith microchemistry as freshwater residents (FWR), seawater residents (SWR) or inter-habitat shifters (IHS). We detected 3451 differentially expressed genes from blood by comparing FWR and SWR groups, and then used that subset of genes in a machine learning approach (i.e., random forest) to the extended FWR, SWR, and IHS group. Random forest correctly classified 100% of FWR and SWR and 83% of the IHS using a minimum of 30 genes. The implementation of this non-lethal approach may replace otolith-based microchemistry analysis for the general assessment of life-history tactics in European eels. Overall, this approach is promising for the replacement or reduction of other lethal analyses in determining certain fish traits. [ABSTRACT FROM AUTHOR]

Published

2022

3. Joint temporal trends in river thermal and hydrological conditions can threaten the downstream migration of the critically endangered European eel.

Author

Arevalo, Elorri, Drouineau, Hilaire, Tétard, Stéphane, Durif, Caroline M. F., Diserud, Ola H., Poole, W. Russell, and Maire, Anthony

Subjects

ANGUILLA anguilla, CLIMATE change, RARE fishes, FISH migration, WATER temperature

Abstract

Climate change is modifying the hydrological and thermal regimes of rivers worldwide, threatening the triggering of organisms' key life-cycle processes. European eel (Anguilla anguilla) is a critically endangered fish species that migrates over several thousand kilometres between its rearing habitats in continental waters of Europe and North Africa and its spawning area in the Sargasso Sea. Downstream migration of adult eels occurs during periods of decreasing river water temperature associated with high discharge but changes in these environmental cues may affected eel migratory conditions. An innovative multivariate method was developed to analyse long-term datasets of daily water temperature, discharge and eel passage in two European rivers. Over the past 50 years, water temperature and discharge increased in both rivers during the downstream migration period from August to November. Silver eels preferentially migrated at temperatures between 10 and 20 °C combined with high discharge. Environmental changes have resulted in the migration of silver eels under warmer water temperatures. This example illustrates how the changes in environmental cues have led to a growing mismatch between the migratory conditions preferentially selected and those actually used, which may threaten the completion of the eel's life cycle and ultimately the persistence of this already critically endangered species. [ABSTRACT FROM AUTHOR]

Published

2021

4. Silver Eel Migration and Behaviour.

Author

Bruijs, Maarten C. M. and Durif, Caroline M. F.

Abstract

After their first transatlantic migration, larvae metamorphose into `glass eels΄ and swim into estuarine areas of river deltas. The glass eels develop into the so-called elvers (∼65 mm) which swim up the rivers. They enter inland waters of northern Africa and Europe during different periods; Morocco: September–October; Spain, Portugal, South France: November–December; North France: January–March; British Islands and the Netherlands: February–April and Scandinavia: April-May. After reaching a length of 30 cm, elvers become known as yellow eels. These specimens have moved inland to coastal seawater or inland freshwater and continue to grow for some 8–15 years (males) up to 10–18 years (females), but they even may become much older. After their period of growth, in preparation of their return trip to the spawning grounds, the eels transform into silver eel. Once the eel has undergone pre-puberty or ˵silvering″, which is accompanied by marked changes in morphology, body constitution and other features (see Chapter 2), it is ready to start its spawning migration. Its lifestyle changes radically. As we have seen in Chapter 2, silver eels stop feeding, they have already acquired salinity tolerance while still living in freshwater and finally they have begun their puberty. As European eels, Anguilla anguilla, spawn in the Sargasso sea, the silver eels must migrate from inland or coastal waters over a distance of about 6,000 km to reach this area. Somehow silver eels are triggered by environmental factors to start their migration. [ABSTRACT FROM AUTHOR]

Published

2009

5. Seasonal Evolution and Individual Differences in Silvering Eels from Different Locations.

Author

Durif, Caroline M. F., van Ginneken, Vincent, Dufour, Sylvie, Müller, Tamás, and Elie, Pierre

Abstract

Silvering is a requirement for downstream migration and reproduction. It marks the end of the growth phase and the onset of sexual maturation. This true metamorphosis involves a number of different physiological functions (osmoregulatory, reproductive), which prepare the eel for the long return trip to the Sargasso Sea. Unlike smoltifica-tion in salmonids, silvering of eels is largely unpredictable. It occurs at various ages (females: 4–20 years; males 2–15 years) and sizes (body length of females: 50–100 cm; males: 35–46 cm) (Tesch 2003). It is most common when studying eels, to separate individuals into two groups, yellow (resident) and silver (presumably migrant), and to compare the physiological profiles between the two. Basic knowledge was obtained in this way and we will first review what is known about these two stages. Because of the difficulty of getting individuals while they are in the process of metamorphosing, little is known about the dynamics of the silvering process. Here we present new information on the triggers, duration and succession of events up to the silver migratory stage. The transitional stages–between the yellow (resident) stage and the silver (migrating) stage–were characterized through exhaustive sampling of both resident and migratory eels. New aspects concerning the endocrinology of the silvering process will be given based on seasonal sampling of eels undergoing metamorphosis. These results will also bring new insights on the triggers and timing of silvering. [ABSTRACT FROM AUTHOR]

Published

2009

6. Sub-lethal exposure to ultraviolet radiation reduces prey consumption by Atlantic cod larvae ( Gadus morhua).

Author

Fukunishi, Yuichi, Browman, Howard, Durif, Caroline, Bjelland, Reidun, Shema, Steven, Fields, David, and Skiftesvik, Anne

Subjects

ULTRAVIOLET radiation, SURFACE of the earth, OZONE layer depletion, FISH larvae, CODFISH, PHYSIOLOGICAL effects of ultraviolet radiation

Abstract

Levels of ultraviolet-B radiation (UV-B: 280-315 nm) reaching the earth's surface have increased over the past few decades due to ozone depletion. It is well documented that exposure to UV-B radiation increases mortality in marine fish larvae. However, few studies have examined sub-lethal effects of UV-B radiation such as, for example, the possibility that it affects prey consumption by fish larvae. Atlantic cod larvae were exposed to a sub-lethal level of ultraviolet-B radiation (UV-B: 280-315 nm) for 15 h. After the exposure, rotifers (4/mL) were fed to cod larvae at three different post-exposure intervals (20 min, 3 and 6 h). Trials were replicated three times for each post-exposure interval. The number of rotifers in the gut and the percent of empty guts (number of fish with empty gut/number of fish examined × 100) were analyzed. Results were compared to those of unexposed fish (the control treatment). UV-B exposed cod larvae had consumed significantly fewer rotifers than control fish at all post-exposure intervals. There was no significant difference in the frequency of empty guts between fish in the UV-B treatment versus fish in the control treatment at any of the post-exposure time points (although the difference at 20 min post-exposure was borderline significant). These observations suggest that cod larvae exposed to sub-lethal levels of UV-B have lower net energy gain which may lead to reduced growth rate and possibly poorer survival. [ABSTRACT FROM AUTHOR]

Published

2013

7. Single-unit responses in the auditory cortex of monkeys performing a conditional acousticomotor task.

Author

Durif, Caroline, Jouffrais, Christophe, and Rouiller, Eric M.

Subjects

*NERVOUS system, *AUDITORY cortex, *TEMPORAL lobe, *NEURONS, *AUDITORY adaptation, *CELLS

Abstract

The general goal of the present study was to assess the response properties to tones of single neurons in the auditory cortex (primary auditory area, A1, and middle lateral auditory belt, ML) of two macaque monkeys while performing an acousticomotor discrimination task requiring a controlled level of attention and motivation. For each neuron, an approximation of the frequency receptive field (FRF) was first established. Second, based on the FRF, sets of paired tone frequencies were defined in which two different tone frequencies had to be associated by the monkey, following a trial and error strategy, to a left or a right key-press with the left arm. After acquisition of the association, the two tones of the pair were presented randomly (“instruction stimulus”) and, if the monkey touched the correct key, the stimulus was repeated (“confirmation stimulus”) and a reward was delivered. The majority of units (63%) had a FRF formed by multiple peaks, whereas 25% and 12% of units exhibited a simple U-shaped FRF and a “mosaic” FRF, composed of several separated zones of response, respectively. Five principal response patterns were observed: On, Off, On-Off, Sustained, and Inhibition. In relation to the acousticomotor association task, some auditory cortical neurons (33%) exhibited a different response to the same stimulus when presented, in the same trials, as instruction or as confirmation. It was also observed that the response to the same instruction stimulus could differ when comparing correct trials with erroneous trials (wrong motor response). In conclusion, the response properties of auditory cortical neurons in behaving monkeys are strongly dependent on the physical parameters of sounds (frequency, intensity, etc.) as indicated by FRF characteristics, but a substantial influence of the behavioral context and performance may also play an important role. [ABSTRACT FROM AUTHOR]

Published

2003

8. Glass eels (Anguilla anguilla) imprint the magnetic direction of tidal currents from their juvenile estuaries.

Author

Cresci, Alessandro, Durif, Caroline M., Paris, Claire B., Shema, Steven D., Skiftesvik, Anne Berit, and Browman, Howard I.

Subjects

*TIDAL currents, *ANGUILLA anguilla, *COMPASS (Orienteering & navigation), *FISH migration, *ESTUARIES

Abstract

The European eel (Anguilla anguilla) hatches in the Sargasso Sea and migrates to European and North African freshwater. As glass eels, they reach estuaries where they become pigmented. Glass eels use a tidal phase-dependent magnetic compass for orientation, but whether their magnetic direction is innate or imprinted during migration is unknown. We tested the hypothesis that glass eels imprint their tidal-dependent magnetic compass direction at the estuaries where they recruit. We collected 222 glass eels from estuaries flowing in different cardinal directions in Austevoll, Norway. We observed the orientation of the glass eels in a magnetic laboratory where the magnetic North was rotated. Glass eels oriented towards the magnetic direction of the prevailing tidal current occurring at their recruitment estuary. Glass eels use their magnetic compass to memorize the magnetic direction of tidal flows. This mechanism could help them to maintain their position in an estuary and to migrate upstream. Cresci et al. show that glass eels are able to use their magnetic compass to imprint the magnetic direction of tidal flows at the estuaries of the streams where they develop into yellow eels. The authors hypothesize that this ability helps glass eels to maintain their position in an estuary and to migrate upstream. [ABSTRACT FROM AUTHOR]

Published

2019