Your search keyword '"Sturaro, Nicolas"' showing total 11 results

1. Trophic plasticity of mixotrophic corals under contrasting environments.

Author

Sturaro, Nicolas, Hsieh, Yunli Eric, Qi Chen, Pei-Ling Wang, and Denis, Vianney

Subjects

*SCLERACTINIA, *GLOBAL environmental change, *DEEP-sea corals, *CORALS, *STABLE isotopes, *NITROGEN isotopes

Abstract

Mixotrophic organisms can derive nutrition from both auto-and heterotrophy, which allows them to use a variety of trophic pathways to sustain their metabolic demands under variable conditions. Therefore, when facing environmental change, these organisms are expected to demonstrate an intrinsic ability to acclimatize through trophic plasticity. 2. Scleractinian corals are ecologically important mixotrophs, but understanding their trophic plasticity has been impaired by an oversimplification towards inconsistent proxies of coral diet and overlooking intraspecific variability. 3. Here, we applied a Bayesian analysis of carbon and nitrogen stable isotope data to determine the trophic niches of six common species of scleractinian corals and their associated endosymbionts, and combined it with an unsupervised machine learning algorithm to identify trophic behaviours and strategies. 4. We found a variable amount of nutritional plasticity identified by different trophic behaviours within and between mixotrophic corals living under the same environmental conditions. Furthermore, we observed changes in trophic plasticity across environmental conditions. Corals from variable environments had larger host and endosymbiont niches than corals from stable environments. In addition, deeper corals had niches indicating a greater degree of heterotrophy than shallow corals. Collectively, corals exhibited distinct trophic strategies by promoting trophic niche differentiation along the mixotrophic continuum and conspecific individual colonies displayed high trophic variation. 5. Our results provide a foundation to understand how mixotrophic organisms may adjust their nutrition in response to ongoing global environmental change and the consequential modification of benthic assemblages. [ABSTRACT FROM AUTHOR]

Published

2021

2. Progenesis as an intrinsic factor of ecological opportunity in a polyphenic amphibian.

Author

Lejeune, Benjamin, Bissey, Lucie, Didaskalou, Emilie Alexia, Sturaro, Nicolas, Lepoint, Gilles, Denoël, Mathieu, and Galván, Ismael

Subjects

BODY size, ANIMAL ecology, GASTROINTESTINAL contents, AMPHIBIANS, STABLE isotopes, ECOLOGICAL niche

Abstract

Paedomorphosis, a developmental heterochrony involving the retention of larval traits at the adult stage, is considered a major evolutionary process because it can generate phenotypic variation without requiring genetic modifications. Two main processes underlie paedomorphosis: neoteny, a slowdown of somatic development, and progenesis, a precocious maturation associated with body size reduction. Being essentially a truncation of ontogeny, progenesis has often been deemed an evolutionary dead end with advantages attributed to precocious reproduction or small body size required in specific environmental contexts (e.g. parasitism, interstitial life), but there is a lack of studies on the immediate ecological consequences of progenesis.Because body size is a key factor determining trophic ecology in animals, we hypothesized that progenesis might intrinsically promote ecological opportunity via body size reduction (i.e. 'the trophic advantage of progenesis' hypothesis). We tested this hypothesis in facultatively progenetic palmate newts Lissotriton helveticus using stable isotope niche modelling and diet reconstruction in conjunction with traditional stomach content analyses and body condition (BC) assessment.We show that not only did progenetic individuals occupy a different trophic niche than metamorphic individuals in all populations, but the smaller they were compared to metamorphs due to progenesis, the more different they were in terms of trophic ecology, with no negative effect on their BC.Altogether, the results suggest that via body size reduction, progenesis may generally act as an intrinsic factor of ecological opportunity, allowing the use of existing but previously unavailable resources, even in habitats where seemingly little opportunity exists. We argue that beyond the classically recognized fitness advantages of progenetic development, this process may also generally bring an immediate trophic advantage via body size reduction, which would have important implications to understand the evolution and adaptiveness of this process in many different taxa, from marine meiofauna to primates. A free Plain Language Summary can be found within the Supporting Information of this article. [ABSTRACT FROM AUTHOR]

Published

2021

3. Toward a standardised protocol for the stable isotope analysis of scleractinian corals.

Author

Sturaro, Nicolas, Hsieh, Yunli Eric, Chen, Qi, Wang, Pei‐Ling, and Denis, Vianney

Subjects

*STABLE isotope analysis, *SCLERACTINIA, *ACIDIFICATION, *CARBON analysis, *STABLE isotopes, *NITROGEN analysis

Abstract

Rationale: The stable isotope analysis of carbon and nitrogen is a powerful tool in many ecological studies, but different sample treatments may affect stable isotope ratios and hamper comparisons among studies. The goal of this study was to determine whether treatments that are commonly used to prepare scleractinian coral samples for stable isotope analysis yield different δ15N and δ13C values, and to provide guidelines toward a standardised protocol. Methods: The animal tissues and Symbiodiniaceae of two symbiotic scleractinian coral species (Stylophora pistillata and Porites lutea) were divided into subsamples to test the effects of the drying method, lipid extraction, acidification treatment and water washing. All the subsamples were analysed for their δ15N and δ13C values, using continuous flow elemental analyser/isotope ratio mass spectrometry. Results: The drying method and lipid extraction treatment had no substantial effects on the δ15N and δ13C values of Symbiodiniaceae and animal tissues. Acid treatment did cause significant differences in δ13C values (mean differences ≤0.5‰, with individual samples becoming up to 2.0‰ more negative), whereas no ecologically significant differences were observed in δ15N values. Animal tissue δ13C values may vary depending on whether samples are washed or not. Conclusions: To move towards a standardised protocol in coral research, we recommend using an available drying method (as they are equally acceptable) for the stable isotope analysis of scleractinian corals, examining the need for lipid extraction on a case‐by‐case basis, performing a direct acidification of Symbiodiniaceae and animal tissues, and avoiding washing animal tissue with distilled water. [ABSTRACT FROM AUTHOR]

Published

2020

4. Is individual consistency in body mass and reproductive decisions linked to individual specialization in foraging behavior in a long-lived seabird?

Author

Dehnhard, Nina, Eens, Marcel, Sturaro, Nicolas, Lepoint, Gilles, Demongin, Laurent, Quillfeldt, Petra, Poisbleau, Maud, and Justus Liebig University Giessen

Subjects

Eudyptes chrysocome, Southern Oscillation Index, sea surface temperature, global climate change, stable isotopes, Southern Annular Mode, southern rockhopper penguin, ddc:570, environmental variability, Clutch mass, phenology

Abstract

Individual specialization in diet or foraging behavior within apparently generalist populations has been described for many species, especially in polar and temperate marine environments, where resource distribution is relatively predictable. It is unclear, however, whether and how increased environmental variability - and thus reduced predictability of resources - due to global climate change will affect individual specialization. We determined the within- and among-individual components of the trophic niche and the within-individual repeatability of δ(13)C and δ(15)N in feathers and red blood cells of individual female southern rockhopper penguins (Eudyptes chrysocome) across 7 years. We also investigated the effect of environmental variables (Southern Annular Mode, Southern Oscillation Index, and local sea surface temperature anomaly) on the isotopic values, as well as the link between stable isotopes and female body mass, clutch initiation dates, and total clutch mass. We observed consistent red blood cell δ(13)C and δ(15)N values within individuals among years, suggesting a moderate degree of within-individual specialization in C and N during the prebreeding period. However, the total niche width was reduced and individual specialization not present during the premolt period. Despite significant interannual differences in isotope values of C and N and environmental conditions, none of the environmental variables were linked to stable isotope values and thus able to explain phenotypic plasticity. Furthermore, neither the within-individual nor among-individual effects of stable isotopes were found to be related to female body mass, clutch initiation date, or total clutch mass. In conclusion, our results emphasize that the degree of specialization within generalist populations can vary over the course of 1 year, even when being consistent within the same season across years. We were unable to confirm that environmental variability counteracts individual specialization in foraging behavior, as phenotypic plasticity in δ(13)C and δ(15)N was not linked to any of the environmental variables studied.

Published

2016

5. Applications of stable isotopes in environmental studies at the University of Liege

Author

Sturaro, Nicolas, Borges, Alberto, Das, Krishna, Dauby, Patrick, Gobert, Sylvie, Mascart, Thibaud, Michel, Loïc, Remy, François, and Lepoint, Gilles

Subjects

Trophic ecology, Biology and Life Sciences, Biogeochemistry, Ecotoxicology, Stable isotopes, Marine ecosystems

Published

2015

6. The dark side of the black caiman: Shedding light on species dietary ecology and movement in Agami Pond, French Guiana.

Author

Caut, Stephane, Francois, Vincent, Bacques, Matthieu, Guiral, Daniel, Lemaire, Jérémy, Lepoint, Gilles, Marquis, Olivier, and Sturaro, Nicolas

Subjects

PREY availability, ECOLOGICAL disturbances, ECOLOGY, TOP predators, NATURAL history, STABLE isotope analysis

Abstract

The black caiman is one of the largest neotropical top predators, which means that it could play a structuring role within swamp ecosystems. However, because of the difficulties inherent to studying black caimans, data are sorely lacking on many aspects of their general biology, natural history, and ecology, especially in French Guiana. We conducted a detailed study of the Agami Pond black caiman population using a multidisciplinary approach. The aim was to better understand the species’ dietary ecology and movements in the pond, and thus its functional role in pond system. We gathered natural history data, tracked caiman movements using satellite transmitters, and characterized feeding ecology via stable isotope analysis. Our study was carried out over three sampling periods and spanned both wet and dry seasons, which differ in their hydrological and ecological conditions. Our results show that black caiman abundance and age demographics differed between seasons in Agami Pond. In the dry season, Agami Pond is one of the only areas within the marsh to hold water. It thus contains large quantities of different fish species, which form the basis of the black caiman’s diet. Caiman body size, a proxy for age class, was around 1.5 meters. During the wet season, which corresponds to the breeding period for migratory birds (e.g., Agami herons), adult black caimans are present in Agami Pond. Adults were most abundant in the inundated forest. There, most individuals measured up to 2 meters. They also exhibited a particular “predatory” behavior near bird nests, preying on fallen chicks and adults. Juveniles and subadults were present during both seasons in the pond’s open waters. These behavioral observations were backed up by stable isotope analysis, which revealed ontogenetic variation in the caiman’s isotopic values. This isotopic variation reflected variation in diet that likely reduced intraspecific competition between adults and young. The telemetry and microchip data show that different age classes had different movement patterns and that seasonal variation in the pond may influence caiman prey availability and reproductive behavior. The new information gathered should help predict this species’ responses to potential ecosystem disturbance (e.g., water pollution, habitat destruction) and inform the development of an effective conservation plan that involves locals and wildlife officials. [ABSTRACT FROM AUTHOR]

Published

2019

7. 'Homemade': the phenotypic diversity of coral reef damselfish populations is driven by the local environment.

Author

Chen, Chia-Ting, Robitzch, Vanessa, Sturaro, Nicolas, Lepoint, Gilles, Berumen, Michael L, and Frédérich, Bruno

Subjects

CORAL reefs & islands, CORAL reef ecology, CORAL reef fishes, GASTROINTESTINAL content analysis, FISH populations

Abstract

Documenting phenotypic variation among populations is crucial for our understanding of micro-evolutionary processes. To date, the quantification of trophic and morphological variation among populations of coral reef fish at multiple geographical scales remains limited. This study aimed to quantify diet and body shape variation among four populations of the damselfish Dascyllus abudafur living in different environmental conditions from the central Red Sea and from Madagascar. Stomach content analyses showed that one adaptive response of D. abudafur inhabiting turbid waters is a trophic shift from almost exclusive zooplanktivory to a diet consisting of planktonic and benthic prey. Our morphometric data reveal differences in cephalic profile and body shape among populations, in agreement with this variation in trophic strategy. Isotopic diversity and body shape disparity vary among populations and we thus demonstrate that coral reef fish populations are not equal in terms of phenotypic diversity among sites and regions. Finally, our comparative analysis reveals that the main axes of body shape variation among populations are shared at both small (Red Sea sites) and large (Madagascar and Red Sea sites) spatial scales. This study raises new questions about the factors governing the direction of response to selection in this fish species. [ABSTRACT FROM AUTHOR]

Published

2019

8. Carbon, nitrogen and sulphur isotopic fractionation in captive juvenile hooded seal ( Cystophora cristata): Application for diet analysis.

Author

Pinzone, Marianna, Acquarone, Mario, Huyghebaert, Loreen, Sturaro, Nicolas, Michel, Loïc N., Siebert, Ursula, and Das, Krishna

Subjects

STABLE isotopes, CARBON isotopes, BIOMARKERS, SEAL behavior, NITROGEN isotopes

Abstract

Rationale Intrinsic biogeochemical markers, such as stable isotope ratios of carbon, nitrogen and sulphur, are increasingly used to trace the trophic ecology of marine top predators. However, insufficient knowledge of fractionation processes in tissues continues to hamper the use of these markers. Methods We performed a controlled feeding experiment with eight juvenile hooded seals ( Cystophora cristata) that were held on a herring-based diet ( Clupea harengus) for two years. Stable isotope ratios were measured via isotope ratio mass spectrometry in three of their tissues and related to values of these markers in their diet. Results Diet-tissue isotope enrichment (trophic enrichment factor, TEF) values between dietary herring and seal tissues for carbon (Δ13C) were +0.7 ‰ for red blood cells, +1.9 ‰ for hair and +1.1 ‰ for muscle. The TEFs for nitrogen trophic (Δ15N) were +3.3 ‰ for red blood cells, +3.6 ‰ for hair and +4.3 ‰ for muscle. For sulphur, the Δ34S values were +1.1 ‰ for red blood cells, +1.0 ‰ for hair and +0.9 ‰ for muscle. Conclusions These enrichment values were greater than those previously measured in adult seals. This increase may be related to the higher rate of protein synthesis and catabolism in growing animals. This study is the first report on sulphur isotope enrichment values for a marine mammal species. [ABSTRACT FROM AUTHOR]

Published

2017

9. Is individual consistency in body mass and reproductive decisions linked to individual specialization in foraging behavior in a long‐lived seabird?

Author

Eens, Marcel, Dehnhard, Nina, Demongin, Laurent, Poisbleau, Maud, Quillfeldt, Petra, Sturaro, Nicolas, and Lepoint, Gilles

Subjects

ROCKHOPPER penguins, OCEAN temperature, BODY weight, CLIMATE change, PHENOLOGY

Abstract

Abstract: Individual specialization in diet or foraging behavior within apparently generalist populations has been described for many species, especially in polar and temperate marine environments, where resource distribution is relatively predictable. It is unclear, however, whether and how increased environmental variability – and thus reduced predictability of resources – due to global climate change will affect individual specialization. We determined the within‐ and among‐individual components of the trophic niche and the within‐individual repeatability of δ13C and δ15N in feathers and red blood cells of individual female southern rockhopper penguins (Eudyptes chrysocome) across 7 years. We also investigated the effect of environmental variables (Southern Annular Mode, Southern Oscillation Index, and local sea surface temperature anomaly) on the isotopic values, as well as the link between stable isotopes and female body mass, clutch initiation dates, and total clutch mass. We observed consistent red blood cell δ13C and δ15N values within individuals among years, suggesting a moderate degree of within‐individual specialization in C and N during the prebreeding period. However, the total niche width was reduced and individual specialization not present during the premolt period. Despite significant interannual differences in isotope values of C and N and environmental conditions, none of the environmental variables were linked to stable isotope values and thus able to explain phenotypic plasticity. Furthermore, neither the within‐individual nor among‐individual effects of stable isotopes were found to be related to female body mass, clutch initiation date, or total clutch mass. In conclusion, our results emphasize that the degree of specialization within generalist populations can vary over the course of 1 year, even when being consistent within the same season across years. We were unable to confirm that environmental variability counteracts individual specialization in foraging behavior, as phenotypic plasticity in δ13C and δ15N was not linked to any of the environmental variables studied. [ABSTRACT FROM AUTHOR]

Published

2016

10. Using an apex predator for large-scale monitoring of trace element contamination: Associations with environmental, anthropogenic and dietary proxies.

Author

Badry, Alexander, Palma, Luis, Beja, Pedro, Ciesielski, Tomasz M., Dias, Andreia, Lierhagen, Syverin, Jenssen, Bjørn Munro, Sturaro, Nicolas, Eulaers, Igor, and Jaspers, Veerle L.B.

Abstract

Understanding the levels and drivers of contamination in top predators is important for their conservation and eventual use as sentinels in environmental monitoring. Therefore, metals and trace elements were analyzed in feathers of Bonelli's eagles (Aquila fasciata) from southern Portugal in 2007–2013, where they are believed to be exposed to a wide range of contamination sources such as agricultural land uses, urban areas, active and abandoned mines and a coal-fired power plant. We focused on concentrations of aluminum (Al), arsenic (As), copper (Cu), chromium (Cr), mercury (Hg), lead (Pb), selenium (Se) and zinc (Zn), as these contaminants are potentially associated with those sources and are known to pose a risk for terrestrial vertebrates. Stable isotope values of nitrogen (δ 15N: 15N/14N), carbon (δ 13C: 13C/12C) and sulphur (δ 34S: 34S/32S) were used as dietary proxies to control for potential effects of prey composition on the contamination pattern. The spatial distribution of potential contamination sources was quantified using geographic information systems. Concentrations of Hg in the southern part of the study area were above a reported toxicity threshold for raptors, particularly in territories closer to a coal-fired power plant at Sines, showing that contamination persisted after a previous assessment conducted in the 1990s. Hg and Se levels were positively correlated with δ 15N, which indicates biomagnification. Concentrations of As, Cr, Cu, Pb and Zn were generally low and unrelated to mining- or industrial activities, indicating low environmental background concentrations. Al was found at higher concentrations in the southernmost areas of Portugal, but this pattern might be related to external soil contamination on feathers. Overall, this study indicates that, among all elements studied, Hg seems to be the most important contaminant for Bonelli's eagles in southern Portugal, likely due to the power plant emissions and biomagnification of Hg in terrestrial food webs. Unlabelled Image • Trace elements and stable isotopes were assessed in Bonelli's eagle feathers • Higher Hg exposure was found closer to the coal-fired power plant of Sines • Hg concentrations were above a reported toxicity threshold for raptors around Sines • δ15N indicated biomagnification of Hg and Se in the terrestrial food web • As, Pb, Cr, Cu & Zn levels were mostly low and unrelated to anthropogenic activity [ABSTRACT FROM AUTHOR]

Published

2019

11. Mercury Stable Isotopes Discriminate Different Populations of European Seabass and Trace Potential Hg Sources around Europe.

Author

Cransveld, Alice, Amouroux, David, Tessier, Emmanuel, Koutrakis, Etnmanuil, Ozturk, Ayaka A, Bettoso, Nicola, Mieiro, Claudia L., Bérail, Sylvain, Barre, Julien P. G., Sturaro, Nicolas, Schnitzler, Joseph, and Das, Krishna

Subjects

*MERCURY isotopes, *STABLE isotopes, *EUROPEAN seabass, *MARINE fishes, *CLASSIFICATION of fish, *FISH populations

Abstract

Our study reports the first data on mercury (Hg) isotope composition in marine European fish, for seven distinct populations of the European seabass, Dicentrarchus labrax. The use of S2°''Hg and A1"Hg values in SIBER enabled us to estimate Hg isotopic niches, successfully discriminating several populations. Recursive-partitioning analyses demonstrated the relevance of Hg stable isotopes as discriminating tools. Hg isotopic values also provided insight on Hg contamination sources for biota in coastal environment. The overall narrow range of S'°aHg around Europe was suggested to be related to a global atmospheric contamination while 62c'Hg at some sites was linked either to background contamination, or with local contamination sources. At'lig was related to Hg levels of fish but we also suggest a relation with ecological conditions. Throughout this study, results from the Black Sea population stood out, displaying a Hg cycling similar to fresh water lakes. Our findings bring out the possibility to use Hg isotopes in order to discriminate distinct populations, to explore the Hg cycle on a large scale (Europe) and to distinguish sites contaminated by global versus local Hg source. The interest of using Hg sable isotopes to investigate the whole European Hg cycle is dearly highlighted. [ABSTRACT FROM AUTHOR]

Published

2017