Your search keyword '"Duriez O."' showing total 67 results

1. Apex scavengers from different European populations converge at threatened savannah landscapes

Author

Delgado-González, A., Cortés-Avizanda, A., Serrano, D., Arrondo, E., Duriez, O., Margalida, A., Carrete, M., Oliva-Vidal, P., Sourp, E., Morales-Reyes, Z., García-Barón, I., de la Riva, M., Sánchez-Zapata, J. A., and Donázar, J. A.

Published

2022

2. The Energetic Cost of Humoral Immunity in the Collared Dove, Streptopelia decaocto: Is the Magnitude Sufficient to Force Energy-Based Trade-offs?

Author

Eraud, C., Duriez, O., Chastel, O., and Faivre, B.

Published

2005

3. Hotspots in the grid: Avian sensitivity and vulnerability to collision risk from energy infrastructure interactions in Europe and North Africa

Author

Gauld, J. G., Silva, J. P., Atkinson, P. W., Record, P., Acacio, M., Arkumarev, V., Blas, J., Bouten, W., Burton, N., Catry, I., Champagnon, J., Clewley, G. D., Dagys, M., Duriez, O., Exo, K. M., Fiedler, W., Flack, A., Friedemann, G., Fritz, J., Garcia‐Ripolles, C., Garthe, S., Giunchi, D., Grozdanov, A., Harel, R., Humphreys, E. M., Janssen, R., Kölzsch, A., Kulikova, O., Oppel, S.., Peshev, H., Phipps, L., Pokrovsky, I., Ross-Smith, V. H., Saravia, V., Scragg, E. S., Sforzi, A., Stoynov, E., Thaxter, C., Van Steelant, W., Toor, M., Vorneweg, B., Waldenström, J., Wikelski, M., Zydelis, R., and Franco, A. M.

Abstract

1. Wind turbines and power lines can cause bird mortality due to collision or electrocution. The biodiversity impacts of energy infrastructure (EI) can be minimised through effective landscape-scale planning and mitigation. The identification of high-vulnerability areas is urgently needed to assess potential cumulative impacts of EI while supporting the transition to zero carbon energy. 2. We collected GPS location data from 1,454 birds from 27 species susceptible to collision within Europe and North Africa and identified areas where tracked birds are most at risk of colliding with existing EI. Sensitivity to EI development was estimated for wind turbines and power lines by calculating the proportion of GPS flight locations at heights where birds were at risk of collision and ac-counting for species' specific susceptibility to collision. We mapped the maxi-mum collision sensitivity value obtained across all species, in each 5 × 5 km grid cell, across Europe and North Africa. Vulnerability to collision was obtained by overlaying the sensitivity surfaces with density of wind turbines and transmission power lines. 3. Results: Exposure to risk varied across the 27 species, with some species flying consistently at heights where they risk collision. For areas with sufficient tracking data within Europe and North Africa, 13.6% of the area was classified as high sensitivity to wind turbines and 9.4% was classified as high sensitivity to trans-mission power lines. Sensitive areas were concentrated within important migratory corridors and along coastlines. Hotspots of vulnerability to collision with wind turbines and transmission power lines (2018 data) were scattered across the study region with highest concentrations occurring in central Europe, near the strait of Gibraltar and the Bosporus in Turkey. 4. Synthesis and applications. We identify the areas of Europe and North Africa that are most sensitive for the specific populations of birds for which sufficient GPS tracking data at high spatial resolution were available. We also map vulnerability hotspots where mitigation at existing EI should be prioritised to reduce collision risks. As tracking data availability improves our method could be applied to more species and areas to help reduce bird-EI conflicts.

Published

2023

4. Windfarm collisions in medium‐sized raptors: even increasing populations can suffer strong demographic impacts

Author

Duriez, O., primary, Pilard, P., additional, Saulnier, N., additional, Boudarel, P., additional, and Besnard, A., additional

Published

2022

5. Windfarm collisions in medium‐sized raptors: even increasing populations can suffer strong demographic impacts.

Author

Duriez, O., Pilard, P., Saulnier, N., Boudarel, P., and Besnard, A.

Subjects

*BIRD mortality, *DEMOGRAPHIC change, *ENDANGERED species, *WIND turbines, *OFFSHORE wind power plants, *KESTRELS, *BIRDS of prey, *HAWKS, *WIND power plants

Abstract

The impact of bird mortality by collision on windfarms has often been evaluated at the individual level, but rarely at the population level. The Lesser kestrel Falco naumanni is an endangered short‐lived migratory raptor, susceptible to collision with wind turbines. We evaluated the impacts of windfarm turbine collisions on the demography of the largest lesser kestrel population in France. Using data from local monitoring of reproduction and windfarm mortality surveys, combined with capture‐recapture ringing data at a nearby population, we quantified vital parameters of fecundity and survival in order to parameterize a matrix population model to study the viability of this population. The breeding success was high and varied in synchrony with survival probabilities. Between 2013 and 2020, 43 carcasses were found below wind turbines, and when accounting for carcass detection and persistence rates, the true mortality should approach 154 individuals in that period, i.e. 3% of the studied population was affected by collisions each year. The matrix model showed that the population growth observed was only possible if there was a constant recruitment of 26 immigrant individuals each year into the population. Without the excess mortality by the windfarm, we predict that this population would have 22% more breeding pairs than what was observed in 2020. Simulations over 30 years showed that, under the current immigration rate, the population should decline if the excess mortality exceeds 11%. If immigration ceases, the population would decline above 5% excess mortality per year. It is urgent to monitor and reduce the excess mortality by windfarm collisions that threatens this lesser kestrel population. More generally, we advocate the use of population matrix demographic models in impact assessment studies to avoid placing new windfarms close to rare species that could not sustain additional mortality by collisions. [ABSTRACT FROM AUTHOR]

Published

2023

6. A terrestrial and marine nature reserve in the NW Mediterranean, Scàndula (Corsica): Biodiversity and lessons from 46 years of management

Author

Boudouresque, Charles-François, Dominici, J.M., Duriez, O., Astruch, P., Le Diréach, L., Médail, Frédéric, Sala, E., Schon, T., Vicente, Nardo, Institut méditerranéen d'océanologie (MIO), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Toulon (UTLN)-Centre National de la Recherche Scientifique (CNRS), Observatoire océanologique de Banyuls (OOB), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Institut méditerranéen de biodiversité et d'écologie marine et continentale (IMBE), Avignon Université (AU)-Aix Marseille Université (AMU)-Institut de recherche pour le développement [IRD] : UMR237-Centre National de la Recherche Scientifique (CNRS), Institut Océanographique Paul Ricard, and GREFF, Stéphane

Subjects

[SDE.BE] Environmental Sciences/Biodiversity and Ecology, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2021

7. Diurnal timing of nonmigratory movement by birds: the importance of foraging spatial scales

Author

Mallon, J.M., Tucker, M.A., Beard, A., Bierregaard Jr, R.O., Bildstein, K.L., Böhning-Gaese, K., Brzorad, J.N., Buechley, E.R., Bustamante, J., Carrapato, C., Castillo-Guerrero, J.A., Clingham, E., Desholm, M., DeSorbo, C.R., Domenech, R., Douglas, H., Duriez, O., Enggist, P., Farwig, N., Fiedler, W., Gagliardo, A., García-Ripollés, C., Gil Gallús, J.A., Gilmour, M.E., Harel, R., Harrison, A.L., Henry, L., Katzner, T.E., Kays, R., Kleyheeg, E., Limiñana, R., López-López, P., Lucia, G., Maccarone, A., Mallia, E., Mellone, U., Mojica, E.K., Nathan, R., Newman, S.H., Oppel, S., Orchan, Y., Prosser, D.J., Riley, H., Rösner, S., Schabo, D.G., Schulz, H., Shaffer, S., Shreading, A., Silva, J.P., Sim, J., Skov, H., Spiegel, O., Stuber, M.J., Takekawa, J.Y., Urios, V., Vidal-Mateo, J., Warner, K., Watts, B.D., Weber, N., Weber, S., Wikelski, M., Zydelis, R., Mueller, T., Fagan, W.F., Mallon, J.M., Tucker, M.A., Beard, A., Bierregaard Jr, R.O., Bildstein, K.L., Böhning-Gaese, K., Brzorad, J.N., Buechley, E.R., Bustamante, J., Carrapato, C., Castillo-Guerrero, J.A., Clingham, E., Desholm, M., DeSorbo, C.R., Domenech, R., Douglas, H., Duriez, O., Enggist, P., Farwig, N., Fiedler, W., Gagliardo, A., García-Ripollés, C., Gil Gallús, J.A., Gilmour, M.E., Harel, R., Harrison, A.L., Henry, L., Katzner, T.E., Kays, R., Kleyheeg, E., Limiñana, R., López-López, P., Lucia, G., Maccarone, A., Mallia, E., Mellone, U., Mojica, E.K., Nathan, R., Newman, S.H., Oppel, S., Orchan, Y., Prosser, D.J., Riley, H., Rösner, S., Schabo, D.G., Schulz, H., Shaffer, S., Shreading, A., Silva, J.P., Sim, J., Skov, H., Spiegel, O., Stuber, M.J., Takekawa, J.Y., Urios, V., Vidal-Mateo, J., Warner, K., Watts, B.D., Weber, N., Weber, S., Wikelski, M., Zydelis, R., Mueller, T., and Fagan, W.F.

Abstract

Contains fulltext : 228867.pdf (Publisher’s version ) (Closed access)

Published

2020

8. Conserving wildlife facing mass-tourism calls for effective management

Author

Monti, F., primary, Duriez, O., additional, Dominici, J.‐M., additional, Sforzi, A., additional, Robert, A., additional, and Grémillet, D., additional

Published

2018

9. The price of success: integrative long‐term study reveals ecotourism impacts on a flagship species at a UNESCO site

Author

Monti, F., primary, Duriez, O., additional, Dominici, J.‐M., additional, Sforzi, A., additional, Robert, A., additional, Fusani, L., additional, and Grémillet, D., additional

Published

2018

10. Supplementary Material for: Eye Size, Fovea, and Foraging Ecology in Accipitriform Raptors

Author

Potier, S., Mitkus, M., Bonadonna, F., Duriez, O., Isard, P.-F., Dulaurent, T., Mentek, M., and Kelber, A.

Abstract

Birds with larger eyes are predicted to have higher spatial resolution because of their larger retinal image. Raptors are well known for their acute vision, mediated by their deep central fovea. Because foraging strategies may demand specific visual adaptations, eye size and fovea may differ between species with different foraging ecology. We tested whether predators (actively hunting mobile prey) and carrion eaters (eating dead prey) from the order Accipitriformes differ in eye size, foveal depth, and retinal thickness using spectral domain optical coherence tomography and comparative phylogenetic methods. We found that (1) all studied predators (except one) had a central and a temporal fovea, but all carrion eaters had only the central fovea; (2) eye size scaled with body mass both in predators and carrion eaters; (3) predators had larger eyes relative to body mass and a thicker retina at the edge of the fovea than carrion eaters, but there was no difference in the depth of the central fovea between the groups. Finally, we found that (4) larger eyes generally had a deeper central fovea. These results suggest that the visual system of raptors within the order Accipitriformes may be highly adapted to the foraging strategy, except for the foveal depth, which seems mostly dependent upon the eye size.

Published

2017

11. Bird collision with power lines: estimating carcass persistence and detection associated with ground search surveys

Author

Borner, L., primary, Duriez, O., additional, Besnard, A., additional, Robert, A., additional, Carrere, V., additional, and Jiguet, F., additional

Published

2017

12. Weakening of the subpolar gyre as a key driver of North Atlantic seabird demography: a case study with Brünnich’s guillemots in Svalbard

Author

Fluhr, J, primary, Strøm, H, additional, Pradel, R, additional, Duriez, O, additional, Beaugrand, G, additional, and Descamps, S, additional

Published

2017

13. Approaching birds with drones: first experiments and ethical guidelines

Author

Vas, E., Lescroël, A., Duriez, O., Boguszewski, G., Grémillet, D., Vas, E., Lescroël, A., Duriez, O., Boguszewski, G., and Grémillet, D.

Abstract

Unmanned aerial vehicles, commonly called drones, are being increasingly used in ecological research, in particular to approach sensitive wildlife in inaccessible areas. Impact studies leading to recommendations for best practices are urgently needed. The impact of drone colour, speed and flight angle is tested on the behavioural responses of mallards Anas platyrhynchos in a semi-captive situation, and of wild flamingos (Phoenicopterus roseus) and common greenshanks (Tringa nebularia) in a wetland area.

Published

2015

14. Can accelerometry be used to distinguish between flight types in soaring birds?

Author

Williams, H. J., primary, Shepard, E. L. C., additional, Duriez, O., additional, and Lambertucci, S. A., additional

Published

2015

15. Phylogeography of the Capercaillie in Eurasia: What is the status of the Pyrenean-Cantabrian population?

Author

Duriez, O., Sachet, J. M., Menoni, E., Miquel, C., Pierre TABERLET, Laboratoire d'Ecologie Alpine (LECA), Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Université Joseph Fourier - Grenoble 1 (UJF)-Université Grenoble Alpes (UGA), Centre National d'étude et de recherche appliqué sur les prédateurs, Office National de la Chasse et de la Faune Sauvage, Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry]), and Pla, Kim

Subjects

[SDE.BE] Environmental Sciences/Biodiversity and Ecology, [SDV.EE]Life Sciences [q-bio]/Ecology, environment, [SDV.EE] Life Sciences [q-bio]/Ecology, environment, [SDV.BID]Life Sciences [q-bio]/Biodiversity, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, ComputingMilieux_MISCELLANEOUS, [SDV.BID] Life Sciences [q-bio]/Biodiversity

Abstract

International audience

Published

2005

16. Wintering behaviour and spatial ecology of Eurasian Woodcock Scolopax rusticola in western France

Author

Duriez, O., Herve Fritz, Saïd, S., Ferrand, Y., Laboratoire Ecologie et évolution, Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL), Avifaune Migratrice (CNERA), ONCFS, Centre d'études biologiques de Chizé (CEBC), Centre National de la Recherche Scientifique (CNRS), CNERA Cervidés Sanglier (ONCFS), Office National de la Chasse et de la Faune Sauvage, CNERA Avifaune Migratrice, Ecologie quantitative et évolutive des communautés, Département écologie évolutive [LBBE], Laboratoire de Biométrie et Biologie Evolutive - UMR 5558 (LBBE), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS)-Laboratoire de Biométrie et Biologie Evolutive - UMR 5558 (LBBE), Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS), École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS), and Centre d'Études Biologiques de Chizé (CEBC)

Subjects

[SDV.OT]Life Sciences [q-bio]/Other [q-bio.OT], [SDE.BE]Environmental Sciences/Biodiversity and Ecology

Abstract

National audience; The spatial ecology of wintering Eurasian Woodcocks Scolopax rusticola was investigated to determine whether hunting-free forest reserves offer adequate protection to all individuals. The analysis of movements performed by 65 radiotagged Woodcocks during three consecutive winters in Brittany revealed the existence of three types of individual strategies. During daylight hours, 34% of birds remained in a unique core area (of 1.1 ha) during January and February while 18% used several core areas successively (never came back to a previously used core) and 48% alternated between several core areas (exploratory movements around several core areas visited several times). Alternating diurnal strategies seemed to result from a lower abundance of food (earthworms), whereas this was not the case in the unique coreuse strategy. The successive core-use strategy was considered as a subset of the ‘unique' strategy, for which birds were forced to change sites because of a lower abundance of food after depletion. During the night, 62% of birds showed alternative core-use whereas 33% lived in a unique core and the ‘successive' strategy was almost absent. As food abundance was similar in the night cores used by birds under each strategy, we discuss the reasons for the nocturnal strategies in relation to individual differences in territoriality or the ability to detect predators. Both diurnal and nocturnal strategies led most of the birds to leave the reserve, and the important use of bocage and hedges by day (by 39% of birds) and meadows at night (83% of birds used meadows on more than 70% of nights), around the protected forest, call for their inclusion in management plans around reserves

Published

2005

17. Comparing the effects of release methods on survival of the Eurasian black vulture Aegypius monachus reintroduced in France

Author

Mihoub, Jean-Baptiste, Prince, K., Duriez, O., Lécuyer, P., Eliotout, B., Sarrazin, F., Mihoub, Jean-Baptiste, Prince, K., Duriez, O., Lécuyer, P., Eliotout, B., and Sarrazin, F.

Abstract

The Near Threatened Eurasian black vulture Aegypius monachus is considered highly threatened in Europe, and the species was reintroduced in France between 1992 and 2004. A total of 53 individuals were released, using two methods: immatures were released from large aviaries at the reintroduction site after a stay of several months (the aviary method), whereas juveniles were placed on artificial nests until fledging (the hacking method). The survival rates of released birds were compared to the survival of wild-born offspring through a multi-event capture–recapture analysis accounting for tag loss. Survival rates were higher in adults than in juveniles and immatures (0.98 ± SE 0.02 vs 0.85 ± SE 0.03) and were constant over time. Overall there were no differences in post-release survival between the two release methods: immatures released by the aviary method had a similar survival to juveniles released by the hacking method or born in the wild. Immatures can breed before juveniles, so releasing immatures by the aviary method could accelerate reintroduction settlement and increase population viability. Accurate estimates of post-release survival are essential to improve the reliability of viability analysis of reintroduced populations and the management of such populations.

Published

2013

18. Can accelerometry be used to distinguish between light types in soaring birds?

Author

Williams, H. J., Shepard, E. L. C., Duriez, O., and Lambertucci, S. A.

Subjects

ACCELEROMETRY, BIRD flight, ACCELERATION (Mechanics)

Abstract

Background: Accelerometry has been used to identify behaviours through the quantification of body posture and motion for a range of species moving in different media. This technique has not been applied to light behaviours to the same degree, having only been used to distinguish lapping from soaring light, even though identifying the type of soaring light could provide important insights into the factors underlying movement paths in soaring birds. This may be due to the complexities of interpreting acceleration data, as movement in the aerial environment may be influenced by phenomena such as centripetal acceleration (pulling-g). This study used high-resolution movement data on the light of free-living Andean condors (Vultur gryphus) and a captive Eurasian griffon vulture (Gyps fulvus) to examine the influence of gravitational, dynamic and centripetal acceleration in different light types. Flight behaviour was categorised as thermal soaring, slope soaring, gliding and lapping, using changes in altitude and heading from magnetometry data. We examined the ability of the k-nearest neighbour (KNN) algorithm to distinguish between these behaviours using acceleration data alone. Results: Values of the vectorial static body acceleration (VeSBA) suggest that these birds experience relatively little centripetal acceleration in light, though this varies between light types. Centripetal acceleration appears to be of most influence during thermal soaring; consequently, it is not possible to derive bank angle from smoothed values of lateral acceleration. In contrast, the smoothed acceleration values in the dorso-ventral axis provide insight into body pitch, which varied linearly with airspeed. Classification of passive light types via KNN was limited, with low accuracy and precision for soaring and gliding. Conclusion: The importance of soaring was evident in the high proportion of time each bird spent in this light mode (52.17-84.00 %). Accelerometry alone was limited in its ability to distinguish between passive light types, though smoothed values in the dorso-ventral axis did vary with airspeed. Other sensors, in particular the magnetometer, provided powerful methods of identifying light behaviour and these data may be better suited for automated behavioural identification. This should provide further insight into the type and strength of updraughts available to soaring birds. [ABSTRACT FROM AUTHOR]

Published

2015

19. The energetic cost of humoral immunity in the Collared Dove,Streptopelia decaocto: is the magnitude sufficient to force energy-based trade-offs?

Author

Eraud, C., Duriez, O., Chastel, O., and Faivre, B.

Subjects

*STREPTOPELIA, *IMMUNOLOGY, *IMMUNE response, *IMMUNITY, *BLOOD cells, *ENVIRONMENTAL sciences, *POPULATION biology

Abstract

1. Energy saving is often suggested as the basis of a resource trade-off between immunocompetence and other fitness-relevant traits. This suggests that the energetic cost of an immune response is significant and sufficient to force trade-offs. To date, few studies have investigated the energetic cost of the humoral component of the immune system in birds and furthermore, existing results are contradictory.2. We addressed this question through two experiments. In experiment 1, the basal metabolic rate (BMR) of Collared Doves,Streptopelia decaocto, challenged with sheep red blood cells (SRBC) was compared with the BMR of control birds. The energetic cost of immunity on host life-history strategies was compared with another physiological activity, thermoregulation, in experiment 2 to assess its significance.3. Experiment 1 showed that antibody production against SRBC increased BMR of birds, with a peak of energy expenditure 7 days after immune activation (+8·5% BMR). In addition, we found that among birds fedad libitum, those mounting a stronger immune response lost significantly more mass than controls or birds mounting a low immune response. In experiment 2, we found the cost of thermoregulation to be 5·27% BMR °C−1.4. If results from experiment 1 primarily suggested that an energy-based trade-off was expected between immune functions and other fitness-related traits, experiment 2 showed that the magnitude of this energetic cost corresponded to that used during low levels of thermoregulation. Consequently, we suggest that energy saving is not the central mechanism of a trade-off mediating immunocompetence. We provide some evidence that the degradation of body condition should be considered as an important additional cost of humoral immunity in the context of a resource-based trade-off.Functional Ecology(2005)19, 110 –118 [ABSTRACT FROM AUTHOR]

Published

2005

20. Presumed killers? Vultures, stakeholders, misperceptions, and fake news

Author

Lambertucci, SA, Margalida, A, Speziale, KL, Amar, A, Ballejo, F, Bildstein, KL, Blanco, G, Botha, AJ, Bowden, CGR, Cortés-Avizanda, A, Duriez, O, Green, RE, Hiraldo, F, Ogada, D, Plaza, P, Sánchez-Zapata, JA, Santangeli, A, Selva, N, Spiegel, O, and Donázar, JA

Subjects

livestock predation, bird scavengers, human wildlife conflict, Ecosystem services, 15. Life on land

Abstract

Vultures and condors are among the most threatened avian species in the world due to the impacts of human activities. Negative perceptions can contribute to these threats as some vulture species have been historically blamed for killing livestock. This perception of conflict has increased in recent years, associated with a viral spread of partial and biased information through social media and despite limited empirical support for these assertions. Here, we highlight that magnifying infrequent events of livestock being injured by vultures through publically shared videos or biased news items negatively impacts efforts to conserve threatened populations of avian scavengers. We encourage environmental agencies, researchers, and practitioners to evaluate the reliability, frequency and context of reports of vulture predation, weighing those results against the diverse and valuable contributions of vultures to environmental health and human well-being. We also encourage the development of awareness campaigns and improved livestock management practices, including commonly available non-lethal deterrence strategies, if needed. These actions are urgently required to allow the development of a more effective conservation strategy for vultures worldwide.

21. Commentary Tolerance of bearded vultures to human activities: response to Comor et al. (2019)

Author

Duriez, O., Margalida, A., Albert, L., Beatriz Arroyo, Couanon, V., Loustau, H., Razin, M., and Mihoub, J. -B

22. Spatial and Temporal Variability in Migration of a Soaring Raptor Across Three Continents

Author

Phipps W., López-López P., Buechley E., Oppel S., Álvarez E., Arkumarev V., Bekmansurov R., Berger-Tal O., Bermejo A., Bounas A., Alanís I., de la Puente J., Dobrev V., Duriez O., Efrat R., Fréchet G., García J., Galán M., García-Ripollés C., Gil A., Iglesias-Lebrija J., Jambas J., Karyakin I., Kobierzycki E., Kret E., Loercher F., Monteiro A., Morant Etxebarria J., Nikolov S., Pereira J., Peške L., Ponchon C., Realinho E., Saravia V., Sekercioğlu C., Skartsi T., Tavares J., Teodósio J., Urios V., Vallverdú N., Phipps W., López-López P., Buechley E., Oppel S., Álvarez E., Arkumarev V., Bekmansurov R., Berger-Tal O., Bermejo A., Bounas A., Alanís I., de la Puente J., Dobrev V., Duriez O., Efrat R., Fréchet G., García J., Galán M., García-Ripollés C., Gil A., Iglesias-Lebrija J., Jambas J., Karyakin I., Kobierzycki E., Kret E., Loercher F., Monteiro A., Morant Etxebarria J., Nikolov S., Pereira J., Peške L., Ponchon C., Realinho E., Saravia V., Sekercioğlu C., Skartsi T., Tavares J., Teodósio J., Urios V., and Vallverdú N.

Abstract

© Copyright © 2019 Phipps, López-López, Buechley, Oppel, Álvarez, Arkumarev, Bekmansurov, Berger-Tal, Bermejo, Bounas, Alanís, de la Puente, Dobrev, Duriez, Efrat, Fréchet, García, Galán, García-Ripollés, Gil, Iglesias-Lebrija, Jambas, Karyakin, Kobierzycki, Kret, Loercher, Monteiro, Morant Etxebarria, Nikolov, Pereira, Peške, Ponchon, Realinho, Saravia, Sekercioğlu, Skartsi, Tavares, Teodósio, Urios and Vallverdú. Disentangling individual- and population-level variation in migratory movements is necessary for understanding migration at the species level. However, very few studies have analyzed these patterns across large portions of species' distributions. We compiled a large telemetry dataset on the globally endangered Egyptian Vulture Neophron percnopterus (94 individuals, 188 completed migratory journeys), tracked across ~70% of the species' global range, to analyze spatial and temporal variability of migratory movements within and among individuals and populations. We found high migratory connectivity at large spatial scales (i.e., different subpopulations showed little overlap in wintering areas), but very diffuse migratory connectivity within subpopulations, with wintering ranges up to 4,000 km apart for birds breeding in the same region and each subpopulation visiting up to 28 countries (44 in total). Additionally, Egyptian Vultures exhibited a high level of variability at the subpopulation level and flexibility at the individual level in basic migration parameters. Subpopulations differed significantly in travel distance and straightness of migratory movements, while differences in migration speed and duration differed as much between seasons and among individuals within subpopulations as between subpopulations. The total distances of the migrations completed by individuals from the Balkans and Caucasus were up to twice as long and less direct than those in Western Europe, and consequently were longer in duration, despite faster migration speeds. These diff

23. Presumed killers? Vultures, stakeholders, misperceptions, and fake news

Author

Rhys E. Green, Fernando Ballejo, José A. Sánchez-Zapata, José A. Donázar, Guillermo Blanco, Orr Spiegel, Arjun Amar, Keith L. Bildstein, Karina L. Speziale, Darcy Ogada, Andrea Santangeli, Olivier Duriez, Nuria Selva, Sergio A. Lambertucci, Ainara Cortés-Avizanda, Antoni Margalida, Andre Botha, Pablo I. Plaza, Christopher G. R. Bowden, Fernando Hiraldo, Lambertucci, SA [0000-0002-2624-2185], Speziale, KL [0000-0003-2224-2097], Duriez, O [0000-0003-1868-9750], Spiegel, O [0000-0001-8941-3175], Apollo - University of Cambridge Repository, Lambertucci, Sergio A. [0000-0002-2624-2185], Speziale, Karina L. [0000-0003-2224-2097], Duriez, Olivier [0000-0003-1868-9750], Spiegel, Orr [0000-0001-8941-3175], Helsinki Institute of Life Science HiLIFE, Helsinki Institute of Sustainability Science (HELSUS), and Finnish Museum of Natural History

Subjects

Bird scavengers, 0106 biological sciences, QH1-199.5, Environmental Science (miscellaneous), Livestock predation, 010603 evolutionary biology, 01 natural sciences, Ecosystem services, RAPTORS, QH540-549.5, CONFLICT, Nature and Landscape Conservation, Human wildlife conflict, Global and Planetary Change, BIRDS, Ecology, biology, business.industry, Human–wildlife conflict, 010604 marine biology & hydrobiology, LIVESTOCK, General. Including nature conservation, geographical distribution, HUMANS, Advertising, SCIENCE, GYPS-FULVUS, 15. Life on land, biology.organism_classification, DECLINES, SCAVENGERS, CONTRIBUTED PAPER, 1181 Ecology, evolutionary biology, Livestock, Fake news, Gyps fulvus, business, CONTRIBUTED PAPERS

Abstract

Vultures and condors are among the most threatened avian species in the world due to the impacts of human activities. Negative perceptions can contribute to these threats as some vulture species have been historical ly blamed for killing livestock. This perception of confli ct has increased in recent years, associated with a viral spread of partial and biased information through social media and despite limited empirical support for these assertions. Here, we highlight that magnifying infrequent events of livestock being injured by vultures through publically shared videos or biased news items negatively impact efforts to conserve threatened populations of avian scavengers. We encourage environmental agencies, researchers, and practitioners to evaluate the reliability, frequency, and context of reports of vulture preda tion, weighing those results against the diverse and valuable contributions of vultures to environmental health and human well-being. We also encoura ge the development of awareness campaigns and improved livestock management practices, including commonly available nonlethal deterrence strategies, if needed. These actions are urgently required to allow the development of a more effective conservation strategy for vultures worldwide.

Published

2021

24. The use of social information in vulture flight decisions.

Author

Sassi Y, Nouzières B, Scacco M, Tremblay Y, Duriez O, and Robira B

Subjects

Humans, Animals, Birds, Social Dominance, Falconiformes

Abstract

Animals rely on a balance of personal and social information to decide when and where to move next in order to access a desired resource. The benefits from cueing on conspecifics to reduce uncertainty about resource availability can be rapidly overcome by the risks of within-group competition, often exacerbated toward low-ranked individuals. Being obligate soarers, relying on thermal updraughts to search for carcasses around which competition can be fierce, vultures represent ideal models to investigate the balance between personal and social information during foraging movements. Linking dominance hierarchy, social affinities and meteorological conditions to movement decisions of eight captive vultures, Gyps spp ., released for free flights in natural soaring conditions, we found that they relied on social information (i.e. other vultures using/having used the thermals) to find the next thermal updraught, especially in unfavourable flight conditions. Low-ranked individuals were more likely to disregard social cues when deciding where to go next, possibly to minimize the competitive risk of social aggregation. These results exemplify the architecture of decision-making during flight in social birds. It suggests that the environmental context, the context of risk and the social system as a whole calibrate the balance between personal and social information use.

Published

2024

25. A standardized protocol for assessing the performance of automatic detection systems used in onshore wind power plants to reduce avian mortality.

Author

Ballester C, Dupont SM, Corbeau A, Chambert T, Duriez O, and Besnard A

Subjects

Animals, Climate Change, Probability, Renewable Energy, Humans, Birds, Power Plants

Abstract

While wind power plants are an important contribution to the production of renewable energy to limit climate change, collision mortality from turbines is a danger for birds, including many protected species. To try to mitigate collision risks, automatic detection systems (ADSs) can be deployed on wind power plants; these work by detecting incoming birds using a detection/classification process and triggering a specific reaction (scaring off the bird or shutting down the turbine). Nonetheless, bird fatalities still occur at ADS-equipped wind power plants, which raises the question of the performance of these tools. To date, the lack of a transparent, peer-reviewed experimental process to compare the performance of types of ADS has meant there is no robust protocol to assess these systems. With the aim of filling this gap, we developed two standardized protocols that provide objective and unbiased assessments of the performance of different types of ADS, based on their probability of detecting/classifying birds at risk of collision. Both protocols rely on precise 3D tracking of wild birds by human observers using a laser rangefinder, and the comparison of these tracks with those detected and recorded by an ADS. The first protocol evaluates a system's general performance, generating comparable data for all types of ADS. In this protocol, detection/classification probability is estimated conditional on several abiotic and biotic environmental factors such as bird size, distance from the target, the flight angle and azimuth of the bird, as well as weather conditions. The second protocol aims to verify that the performance of an ADS installed on a given wind power plant complies with its regulatory requirements. In this protocol, detection/classification probability is specifically estimated for a given target species at a given regulatory detection distance. This protocol also estimates the proportion of time an ADS is functional on site over a year, and the proportion of reaction orders successfully operated by wind turbines. These protocols have been field-tested and made publicly available for use by government agencies and wind power plant operators., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

26. Low achromatic contrast sensitivity in birds: a common attribute shared by many phylogenetic orders.

Author

Blary CLM, Duriez O, Bonadonna F, Mitkus M, Caro SP, Besnard A, and Potier S

Subjects

Animals, Phylogeny, Birds, Vertebrates, Mammals, Contrast Sensitivity, Color Vision

Abstract

Vision is an important sensory modality in birds, which can outperform other vertebrates in some visual abilities. However, sensitivity to achromatic contrasts - the ability to discern luminance difference between two objects or an object and its background - has been shown to be lower in birds compared with other vertebrates. We conducted a comparative study to evaluate the achromatic contrast sensitivity of 32 bird species from 12 orders using the optocollic reflex technique. We then performed an analysis to test for potential variability in contrast sensitivity depending on the corneal diameter to the axial length ratio, a proxy of the retinal image brightness. To account for potential influences of evolutionary relatedness, we included phylogeny in our analyses. We found a low achromatic contrast sensitivity for all avian species studied compared with other vertebrates (except small mammals), with high variability between species. This variability is partly related to phylogeny but appears to be independent of image brightness., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2024. Published by The Company of Biologists Ltd.)

Published

2024

27. EolPop, a R-shiny tool for quantifying the demographic impact of species exposed to fatalities: Application to bird collisions with wind turbines.

Author

Chambert T, Duriez O, Deleaux M, and Besnard A

Subjects

Animals, France, Population Density, Uncertainty, Birds, Animals, Wild

Abstract

Quantifying the demographic impact of anthropogenic fatalities on animal populations is a key component of wildlife conservation. However, such quantification remains rare in environmental impact assessments (EIA) of large-infrastructure projects, partly because of the complexity of implementing demographic models. Providing user-friendly demographic tools is thus an important step to fill this gap. We developed an application called EolPop to run demographic simulations and assess population-level impacts of fatalities. This tool, freely available online, is easy to use and requires minimal input data from the user. As an output, it provides an estimate, with associated uncertainty, of the relative deficit in population size at a given time horizon. Because this impact metric is relative to a baseline scenario without fatalities, it is robust to uncertainties. We showcase the tool using examples on two species that are affected by collisions with wind turbines: Lesser kestrel (Falco naumanni) and Eurasian skylark (Alauda arvensis). After 30 years, the kestrel's population is expected to suffer a deficit of ca. 48%. In contrast, the impact on skylarks, which are already declining in France, is estimated to be fairly low (ca. 7%). EolPop aims at providing a robust quantification of the relative impact of fatalities. This tool was originally built for windfarm EIA, with a focus on birds, but it can be used to assess the demographic consequences of any type of fatalities on any species., Competing Interests: Declaration of competing interest The authors declare that they have no competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

28. Highly pathogenic avian influenza affects vultures' movements and breeding output.

Author

Duriez O, Sassi Y, Le Gall-Ladevèze C, Giraud L, Straughan R, Dauverné L, Terras A, Boulinier T, Choquet R, Van De Wiele A, Hirschinger J, Guérin JL, and Le Loc'h G

Subjects

Humans, Adult, Animals, Breeding, Endangered Species, Influenza in Birds, Influenza A Virus, H5N1 Subtype, Falconiformes

Abstract

An exceptional highly pathogenic avian influenza (HPAI) outbreak due to H5N1 virus genotypes belonging to clade 2.3.4.4.b has been affecting birds worldwide since autumn 2021. 1 , 2 , 3 Mortality caused by viral infection has been well documented in poultry and more recently in wild birds, especially in seabird-breeding colonies. 4 , 5 , 6 However, there is a critical lack of knowledge about how terrestrial birds deal with HPAI virus infections in terms of behavior and space use, especially during the breeding season. 7 , 8 , 9 Understanding how birds move when they are infected could help evaluate the risk of spreading the virus at a distance among other populations of wild or domestic birds, this latter risk being especially important for commensal bird species. Through long-term GPS tracking, we described the changes in daily movement patterns of 31 adult griffon vultures Gyps fulvus in two French sites in 2022 compared with 3 previous years. In spring 2022, 21 vultures at both sites showed periods of immobility at the nest, during 5.6 days on average. Positive serological status of 2 individuals confirmed that they had been infected by HPAI viruses. Death was recorded for 3 of the 31 tracked individuals, whereas all others recovered and returned quickly to their foraging routine, although at least 9 birds failed breeding. Such immobility patterns and death rates were never observed in previous years and were not related to weather conditions. The high immobility behavior of infected birds could reduce the risks of transmission. The observed vulnerability to HPAI viruses questions the resistance of endangered vulture species worldwide if infected., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

29. Occurrence of ESBL- and AmpC-Producing E. coli in French Griffon Vultures Feeding on Extensive Livestock Carcasses.

Author

Haenni M, Du Fraysseix L, François P, Drapeau A, Bralet T, Madec JY, Boulinier T, and Duriez O

Abstract

Despite the fact that the selective pressure of antibiotics on wild birds is supposed to be very weak, they are considered potential vectors of antimicrobial resistance (AMR). Obligate scavengers such as vultures can present high proportions of resistance to extended-spectrum cephalosporins (ESC) and multi-drug-resistant (MDR) bacteria, partially due to feeding stations that are provisioned with livestock carcasses from intensive farming. Here we investigated whether griffon vultures ( Gyps fulvus ) from two populations located in the French Alps, which feed on livestock carcasses from extensive farms, may carry such resistant bacteria. Phenotypic and genotypic characterization showed an 11.8% proportion of ESC-resistant bacteria, including five extended-spectrum beta-lactamase (ESBL)-producing and one AmpC-producing E. coli . The five ESBL-positive E. coli were clonal and all came from the same vulture population, proving their spread between animals. The ESBL phenotype was due to a bla CTX-M-15 gene located on the chromosome. Both ESBL- and AmpC-positive E. coli belonged to minor STs (ST212 and ST3274, respectively); interestingly, ST212 has already been identified in wild birds around the world, including vultures. These results suggest that actions are needed to mitigate the spread of MDR bacteria through wild birds, particularly in commensal species.

Published

2023

30. Effect of harness design for tag attachment on the flight performance of five soaring species.

Author

Longarini A, Duriez O, Shepard E, Safi K, Wikelski M, and Scacco M

Abstract

Background: Bio-logging devices play a fundamental and indispensable role in movement ecology studies, particularly in the wild. However, researchers are aware of the influence that attaching devices can have on animals, particularly on their behaviour, energy expenditure and survival. The way a device is attached to an animal's body has also potential consequences for the collected data, and quantifying the type and magnitude of such potential effects is fundamental to enable researchers to combine and compare data from different studies, as much as it is to improve animal welfare. For over two decades, large terrestrial birds have been in the focus of long-term movement ecology research, employing bio-logging devices attached with different types of harnesses. However, comparative studies investigating the effects of different harness types used on these species are scarce., Methods: In this study, we tested for potential differences in data collected by two commonly used harness types, backpack and leg-loop, on the flight performance of 10 individuals from five soaring raptor species, equipped with high resolution bio-logging devices, in the same area and time. We explored the effect of harness type on vertical speed, airspeed, glide ratio, height above sea level, distance travelled, proportion of soaring and flapping behaviour, and VeDBA (a proxy for energy expenditure) between and within individuals, all used as fine-scale measures of flight performance., Results: Birds equipped with leg-loops climbed up to 0.36 ms[Formula: see text] faster, reached 25.9% greater altitudes while soaring and spent less time in active flight compared to birds equipped with backpacks, suggesting that backpack harnesses, compared to leg-loops, might cause additional drag affecting the birds' flight performance. A lower VeDBA, a lower rate of sinking while gliding and slightly higher glide ratio and airspeeds were also indicative of less drag using leg-loops, even though the effect on these parameters was comparable to inter-individual differences., Conclusions: Our results add to the existing literature highlighting the design-related advantages of leg-loops, and support the use of leg-loops as a better alternative to backpack harnesses for large soaring birds, when possible. Our study also highlights how apparently small changes in device attachment can lead to notable improvements in tagging practice, with implications for animal welfare, data interpretation and comparability., (© 2023. The Author(s).)

Published

2023

31. Evolutionary risks of osprey translocations.

Author

Monti F, Montgelard C, Robert A, Sforzi A, Triay R, Sarrazin F, and Duriez O

Subjects

Animals, Biological Evolution, Gene Rearrangement, Translocation, Genetic, Falconiformes

Published

2022

32. The interplay of wind and uplift facilitates over-water flight in facultative soaring birds.

Author

Nourani E, Bohrer G, Becciu P, Bierregaard RO, Duriez O, Figuerola J, Gangoso L, Giokas S, Higuchi H, Kassara C, Kulikova O, Lecomte N, Monti F, Pokrovsky I, Sforzi A, Therrien JF, Tsiopelas N, Vansteelant WMG, Viana DS, Yamaguchi NM, Wikelski M, and Safi K

Subjects

Animal Migration, Animals, Birds, Water, Flight, Animal, Wind

Abstract

Flying over the open sea is energetically costly for terrestrial birds. Despite this, over-water journeys of many birds, sometimes hundreds of kilometres long, are uncovered by bio-logging technology. To understand how these birds afford their flights over the open sea, we investigated the role of atmospheric conditions, specifically wind and uplift, in subsidizing over-water flight at a global scale. We first established that Δ T , the temperature difference between sea surface and air, is a meaningful proxy for uplift over water. Using this proxy, we showed that the spatio-temporal patterns of sea-crossing in terrestrial migratory birds are associated with favourable uplift conditions. We then analysed route selection over the open sea for five facultative soaring species, representative of all major migratory flyways. The birds maximized wind support when selecting their sea-crossing routes and selected greater uplift when suitable wind support was available. They also preferred routes with low long-term uncertainty in wind conditions. Our findings suggest that, in addition to wind, uplift may play a key role in the energy seascape for bird migration that in turn determines strategies and associated costs for birds crossing ecological barriers such as the open sea.

Published

2021

33. Ban veterinary use of diclofenac in Europe.

Author

Margalida A, Green RE, Hiraldo F, Blanco G, Sánchez-Zapata JA, Santangeli A, Duriez O, and Donázar JA

Subjects

Animals, Carnivory, Europe, Livestock, Anti-Inflammatory Agents, Non-Steroidal poisoning, Bird Diseases chemically induced, Diclofenac poisoning, Falconiformes, Veterinary Drugs poisoning

Published

2021

34. Differential survival throughout the full annual cycle of a migratory bird presents a life-history trade-off.

Author

Buechley ER, Oppel S, Efrat R, Phipps WL, Carbonell Alanís I, Álvarez E, Andreotti A, Arkumarev V, Berger-Tal O, Bermejo Bermejo A, Bounas A, Ceccolini G, Cenerini A, Dobrev V, Duriez O, García J, García-Ripollés C, Galán M, Gil A, Giraud L, Hatzofe O, Iglesias-Lebrija JJ, Karyakin I, Kobierzycki E, Kret E, Loercher F, López-López P, Miller Y, Mueller T, Nikolov SC, de la Puente J, Sapir N, Saravia V, Şekercioğlu ÇH, Sillett TS, Tavares J, Urios V, and Marra PP

Subjects

Africa, Northern, Animals, Bayes Theorem, Europe, Mediterranean Sea, Seasons, Animal Migration, Birds

Abstract

Long-distance migrations are among the most physically demanding feats animals perform. Understanding the potential costs and benefits of such behaviour is a fundamental question in ecology and evolution. A hypothetical cost of migration should be outweighed by higher productivity and/or higher annual survival, but few studies on migratory species have been able to directly quantify patterns of survival throughout the full annual cycle and across the majority of a species' range. Here, we use telemetry data from 220 migratory Egyptian vultures Neophron percnopterus, tracked for 3,186 bird months and across approximately 70% of the species' global distribution, to test for differences in survival throughout the annual cycle. We estimated monthly survival probability relative to migration and latitude using a multi-event capture-recapture model in a Bayesian framework that accounted for age, origin, subpopulation and the uncertainty of classifying fates from tracking data. We found lower survival during migration compared to stationary periods (β = -0.816; 95% credible interval: -1.290 to -0.318) and higher survival on non-breeding grounds at southern latitudes (<25°N; β = 0.664; 0.076-1.319) compared to on breeding grounds. Survival was also higher for individuals originating from Western Europe (β = 0.664; 0.110-1.330) as compared to further east in Europe and Asia, and improved with age (β = 0.030; 0.020-0.042). Anthropogenic mortalities accounted for half of the mortalities with a known cause and occurred mainly in northern latitudes. Many juveniles drowned in the Mediterranean Sea on their first autumn migration while there were few confirmed mortalities in the Sahara Desert, indicating that migration barriers are likely species-specific. Our study advances the understanding of important fitness trade-offs associated with long-distance migration. We conclude that there is lower survival associated with migration, but that this may be offset by higher non-breeding survival at lower latitudes. We found more human-caused mortality farther north, and suggest that increasing anthropogenic mortality could disrupt the delicate migration trade-off balance. Research to investigate further potential benefits of migration (e.g. differential productivity across latitudes) could clarify how migration evolved and how migrants may persist in a rapidly changing world., (© 2021 British Ecological Society.)

Published

2021

35. Using GPS tracking and stable multi-isotopes for estimating habitat use and winter range in Palearctic ospreys.

Author

Monti F, Robert A, Dominici JM, Sforzi A, Bagur RT, Navarro AM, Guillou G, Duriez O, and Bentaleb I

Subjects

Animal Migration, Animals, Ecosystem, Isotopes, Seasons, Birds, Feathers

Abstract

We used both satellite tracking and carbon, nitrogen and sulphur stable isotopic analysis (SIA) to infer wintering ecology and habitat use of the Corsican osprey Pandion haliaetus population. A control sample of feathers from 75 individuals was collected within the osprey's northern hemisphere breeding range, to assess the SIA variability across habitat types. An experimental set of SIA on feathers of 18 Corsican adults was examined to infer wintering ground locations and habitat types used during the non-breeding period. We calibrated the SIA using GPS/GSM tracks of 12 Mediterranean adults' movements as wintering site references. We found 50% of individuals were resident and the other half migrated. Ospreys spent the winter at temperate latitudes and showed a high plasticity in habitat selection spread over the Mediterranean basin (marine bays, coastal lagoons/marshland, inland freshwater sites). Complementary to GPS tracking, SIA is, at a broad geographical scale, a reliable method to determine whether ospreys overwinter in a habitat different from that of their breeding area. This study proved that the integration of SIA and GPS/GSM tracking techniques was effective at overcoming the intrinsic limits of each method and achieving greater information for basic ecological studies of migratory birds in aquatic environments.

Published

2021

36. Gulper, ripper and scrapper: anatomy of the neck in three species of vultures.

Author

Böhmer C, Prevoteau J, Duriez O, and Abourachid A

Subjects

Animals, Phylogeny, Falconiformes anatomy & histology, Neck anatomy & histology, Neck Muscles anatomy & histology

Abstract

The head-neck system of birds is a highly complex structure that performs a variety of demanding and competing tasks. Morphofunctional adaptations to feeding specializations have previously been identified in the head and neck, but performance is also influenced by other factors such as its phylogenetic history. In order to minimize the effects of this factor, we here analyzed the anatomy of three closely related vultures that distinctly differ in feeding strategy. Vultures, as obligate scavengers, have occupied a special ecological niche by exclusively feeding on carrion. However, competition among sympatric vultures led to ecological differences such as preference of certain types of food from a carcass. Via comparative dissections we systematically described the craniocervical anatomy in the Griffon vulture (Gyps fulvus), the Cinereous vulture (Aegypius monachus) and the Hooded vulture (Necrosyrtes monachus) that exploit the same food resources in different ways. Our results revealed differences in the number of cervical vertebrae, in the morphology of the atlas-axis complex as well as in the neck musculature despite overall similarities in the musculoskeletal system. Gulpers, rippers and scrappers adopt specific postures while feeding from a carcass, but the cervical vertebral column is indispensable to position the head during all kinds of behavior. The great range of demands may explain the conservation of the overall muscle topography of the neck across the studied taxa., (© 2019 Anatomical Society.)

Published

2020

37. Optic flow cues help explain altitude control over sea in freely flying gulls.

Author

Serres JR, Evans TJ, Åkesson S, Duriez O, Shamoun-Baranes J, Ruffier F, and Hedenström A

Subjects

Animals, Oceans and Seas, Altitude, Charadriiformes physiology, Flight, Animal physiology, Models, Biological, Vision, Ocular

Abstract

For studies of how birds control their altitude, seabirds are of particular interest because they forage offshore where the visual environment can be simply modelled by a flat world textured by waves then generating only ventral visual cues. This study suggests that optic flow, i.e. the rate at which the sea moves across the eye's retina, can explain gulls' altitude control over seas. In particular, a new flight model that includes both energy and optical invariants helps explain the gulls' trajectories during offshore takeoff and cruising flight. A linear mixed model applied to 352 flights from 16 individual lesser black backed gulls ( Larus fuscus ) revealed a statistically significant optic flow set-point of ca 25° s -1 . Thereafter, an optic flow-based flight model was applied to 18 offshore takeoff flights from nine individual gulls. By introducing an upper limit in climb rate on the elevation dynamics, coupled with an optic flow set-point, the predicted altitude gives an optimized fit factor value of 63% on average (30-83% in range) with respect to the GPS data. We conclude that the optic flow regulation principle helps gulls to adjust their altitude over sea without having to directly measure their current altitude.

Published

2019

38. Static landscape features predict uplift locations for soaring birds across Europe.

Author

Scacco M, Flack A, Duriez O, Wikelski M, and Safi K

Abstract

Soaring flight is a remarkable adaptation to reduce movement costs by taking advantage of atmospheric uplifts. The movement pattern of soaring birds is shaped by the spatial and temporal availability and intensity of uplifts, which result from an interaction of local weather conditions with the underlying landscape structure. We used soaring flight locations and vertical speeds of an obligate soaring species, the white stork ( Ciconia ciconia ), as proxies for uplift availability and intensity. We then tested if static landscape features such as topography and land cover, instead of the commonly used weather information, could predict and map the occurrence and intensity of uplifts across Europe. We found that storks encountering fewer uplifts along their routes, as determined by static landscape features, suffered higher energy expenditures, approximated by their overall body dynamic acceleration. This result validates the use of static features as uplift predictors and suggests the existence of a direct link between energy expenditure and static landscape structure, thus far largely unquantified for flying animals. Our uplift availability map represents a computationally efficient proxy of the distribution of movement costs for soaring birds across the world's landscapes. It thus provides a base to explore the effects of changes in the landscape structure on the energy expenditure of soaring birds, identify low-cost movement corridors and ultimately inform the planning of anthropogenic developments., Competing Interests: The authors declare that they have no competing interests.

Published

2019

39. Sight or smell: which senses do scavenging raptors use to find food?

Author

Potier S, Duriez O, Célérier A, Liegeois JL, and Bonadonna F

Subjects

Animals, Appetitive Behavior, Color, Cues, Red Meat, Birds physiology, Falconiformes physiology, Smell, Vision, Ocular

Abstract

Raptors are usually considered to be mainly visually dependent, and the use of other sensory modalities has rarely been studied in these birds. Here, we investigated experimentally which senses (vision and/or olfaction) Turkey vultures (Cathartes aura) and Southern caracaras (Caracara plancus) use to find hidden food. First, two identical stainless-steel perforated balls, one containing a putrefied piece of meat and the other an odorless control, were presented to birds in binary choice experiments. Both species interacted more with the smelling ball than with the control, suggesting that they were attracted by the odor of the hidden meat. In a second experiment, individuals were accustomed to eat in one specifically colored ball (blue or green). In the test phase, the meat was hidden in the opposite color with respect to the one each bird had become accustomed to. Vultures still interacted more with the smelly ball disregarding the color, while caracaras interacted equally with the two balls. The prevalence of olfaction in Turkey vultures may partly explain why they are the first raptors to find carcasses in tropical forests. In contrast, caracaras forage on the ground opportunistically, a strategy where both olfaction and sight may be involved. Our experiments suggest that both species are able to use olfactory cues for foraging. However, olfaction could be the predominant sense in Turkey vultures while olfaction and sight could play an equivalent role in Southern caracaras.

Published

2019

40. Migrating ospreys use thermal uplift over the open sea.

Author

Duriez O, Peron G, Gremillet D, Sforzi A, and Monti F

Subjects

Altitude, Animals, Mediterranean Sea, Remote Sensing Technology, Air Movements, Animal Migration, Falconiformes physiology, Flight, Animal physiology

Abstract

Most large raptors on migration avoid crossing the sea because of the lack of atmospheric convection over temperate seas. The osprey Pandion haliaetus is an exception among raptors, since it can fly over several hundred kilometres of open water. We equipped five juvenile ospreys with GPS-Accelerometer-Magnetometer loggers. All birds were able to find and use thermal uplift while crossing the Mediterranean Sea, on average 7.5 times per 100 km, and could reach altitudes of 900 m above the sea surface. Their climb rate was 1.6 times slower than over land, and birds kept flapping most of the time while circling in the thermals, indicating that convections cells were weaker than over land. The frequency of thermal soaring was correlated with the difference between the sea surface and air temperature, indicating that atmospheric convection occurred when surface waters were warmer than the overlaying air. These observations help explain the transoceanic cosmopolitan distribution of osprey, and question the widely held assumption that water bodies represent strict barriers for large raptors.

Published

2018

41. Vultures respond to challenges of near-ground thermal soaring by varying bank angle.

Author

Williams HJ, Duriez O, Holton MD, Dell'Omo G, Wilson RP, and Shepard ELC

Subjects

Altitude, Animals, Biomechanical Phenomena, Wings, Animal, Air Movements, Falconiformes physiology, Flight, Animal physiology

Abstract

Many large birds rely on thermal soaring flight to travel cross-country. As such, they are under selective pressure to minimise the time spent gaining altitude in thermal updrafts. Birds should be able to maximise their climb rates by maintaining a position close to the thermal core through careful selection of bank angle and airspeed; however, there have been few direct measurements of either parameter. Here, we apply a novel methodology to quantify the bank angles selected by soaring birds using on-board magnetometers. We couple these data with airspeed measurements to parameterise the soaring envelope of two species of Gyps vulture, from which it is possible to predict 'optimal' bank angles. Our results show that these large birds respond to the challenges of gaining altitude in the initial phase of the climb, where thermal updrafts are weak and narrow, by adopting relatively high, and conserved, bank angles (25-35 deg). The bank angle decreased with increasing altitude, in a manner that was broadly consistent with a strategy of maximising the rate of climb. However, the lift coefficients estimated in our study were lower than those predicted by theoretical models and wind-tunnel studies. Overall, our results highlight how the relevant currency for soaring performance changes within individual climbs: when thermal radius is limiting, birds vary bank angle and maintain a constant airspeed, but speed increases later in the climb in order to respond to decreasing air density., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2018. Published by The Company of Biologists Ltd.)

Published

2018

42. Social eavesdropping allows for a more risky gliding strategy by thermal-soaring birds.

Author

Williams HJ, King AJ, Duriez O, Börger L, and Shepard ELC

Subjects

Animals, Behavior, Animal physiology, Falconiformes physiology, Flight, Animal physiology, Wings, Animal physiology

Abstract

Vultures are thought to form networks in the sky, with individuals monitoring the movements of others to gain up-to-date information on resource availability. While it is recognized that social information facilitates the search for carrion, how this facilitates the search for updrafts, another critical resource, remains unknown. In theory, birds could use information on updraft availability to modulate their flight speed, increasing their airspeed when informed on updraft location. In addition, the stylized circling behaviour associated with thermal soaring is likely to provide social cues on updraft availability for any bird operating in the surrounding area. We equipped five Gyps vultures with GPS and airspeed loggers to quantify the movements of birds flying in the same airspace. Birds that were socially informed on updraft availability immediately adopted higher airspeeds on entering the inter-thermal glide; a strategy that would be risky if birds were relying on personal information alone. This was embedded within a broader pattern of a reduction in airspeed (approx. 3 m s -1 ) through the glide, likely reflecting the need for low speed to sense and turn into the next thermal. Overall, this demonstrates (i) the complexity of factors affecting speed selection over fine temporal scales and (ii) that Gyps vultures respond to social information on the occurrence of energy in the aerial environment, which may reduce uncertainty in their movement decisions., (© 2018 The Author(s).)

Published

2018

43. Visual field shape and foraging ecology in diurnal raptors.

Author

Potier S, Duriez O, Cunningham GB, Bonhomme V, O'Rourke C, Fernández-Juricic E, and Bonadonna F

Subjects

Animals, Appetitive Behavior, Eagles physiology, Feeding Behavior, Female, Hawks physiology, Male, Phylogeny, Social Behavior, Falconiformes physiology, Vision, Binocular, Visual Fields

Abstract

Birds, particularly raptors, are believed to forage primarily using visual cues. However, raptor foraging tactics are highly diverse - from chasing mobile prey to scavenging - which may reflect adaptations of their visual systems. To investigate this, we studied the visual field configuration of 15 species of diurnal Accipitriformes that differ in such tactics, first focusing on the binocular field and blind area by using a single-traits approach, and then exploring the shape of the binocular field with a morphometric approach. While the maximum binocular field width did not differ between species with different foraging tactics, the overall shape of their binocular fields did. In particular, raptors chasing terrestrial prey (ground predators) had a more protruding binocular field and a wider blind area above the head than did raptors chasing aerial or aquatic prey and obligate scavengers. Ground predators that forage on mammals from above have a wide but short bill - which increases ingestion rate - and a large suborbital ridge to avoid sun glare. This may explain the protruding binocular field and the wide blind area above the head. By contrast, species from the two other groups have long but narrow bills used to pluck, flake or tear food and may need large visual coverage (and reduced suborbital ridges) to increase their foraging efficiency (e.g. using large visual coverage to follow the escaping prey in three dimensions or detect conspecifics). We propose that binocular field shape is associated with bill and suborbital ridge shape and, ultimately, foraging strategies., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2018. Published by The Company of Biologists Ltd.)

Published

2018

44. Bio-logging, new technologies to study conservation physiology on the move: a case study on annual survival of Himalayan vultures.

Author

Sherub S, Fiedler W, Duriez O, and Wikelski M

Subjects

Animals, Asia, Western, Remote Sensing Technology, Seasons, Survival Analysis, Temperature, Conservation of Natural Resources methods, Falconiformes physiology

Abstract

Bio-logging, the on-animal deployment of miniaturised electronic data recorders, allows for the study of location, body position, and physiology of individuals throughout their ontogeny. For terrestrial animals, 1 Hz GPS-position, 3D-body acceleration, and ambient temperature provide standard data to link to the physiology of life histories. Environmental context is added at ever finer scales using remote sensing earth observation data. Here we showcase the use of such bio-logging approaches in a conservation physiology study on endangered Himalayan vultures (Gyps himalayensis). We determine environmental, behavioural, and physiological causes of survival in immature birds that roam from wintering sites in India, Bhutan, and Nepal towards summer areas in Tibet and Mongolia. Five of 18 immature griffons died during one year. Individuals that died had failed to migrate sufficiently far northward (>1500 km) in spring. Individuals likely died if they flew against headwinds from the north or were less able to find thermal updrafts. Surviving individuals migrated to cold and dry areas with low population density. We highlight flight experience, long distance movements, and remote places with low human population as factors critical for the survival of Himalayan vultures. High-resolution bio-logging studies can advance conservation management by pinpointing where and why migratory animals have problems and die.

Published

2017

45. Identification of animal movement patterns using tri-axial magnetometry.

Author

Williams HJ, Holton MD, Shepard ELC, Largey N, Norman B, Ryan PG, Duriez O, Scantlebury M, Quintana F, Magowan EA, Marks NJ, Alagaili AN, Bennett NC, and Wilson RP

Abstract

Background: Accelerometers are powerful sensors in many bio-logging devices, and are increasingly allowing researchers to investigate the performance, behaviour, energy expenditure and even state, of free-living animals. Another sensor commonly used in animal-attached loggers is the magnetometer, which has been primarily used in dead-reckoning or inertial measurement tags, but little outside that. We examine the potential of magnetometers for helping elucidate the behaviour of animals in a manner analogous to, but very different from, accelerometers. The particular responses of magnetometers to movement means that there are instances when they can resolve behaviours that are not easily perceived using accelerometers., Methods: We calibrated the tri-axial magnetometer to rotations in each axis of movement and constructed 3-dimensional plots to inspect these stylised movements. Using the tri-axial data of Daily Diary tags, attached to individuals of number of animal species as they perform different behaviours, we used these 3-d plots to develop a framework with which tri-axial magnetometry data can be examined and introduce metrics that should help quantify movement and behaviour.., Results: Tri-axial magnetometry data reveal patterns in movement at various scales of rotation that are not always evident in acceleration data. Some of these patterns may be obscure until visualised in 3D space as tri-axial spherical plots ( m-spheres ). A tag-fitted animal that rotates in heading while adopting a constant body attitude produces a ring of data around the pole of the m-sphere that we define as its Normal Operational Plane (NOP). Data that do not lie on this ring are created by postural rotations of the animal as it pitches and/or rolls. Consequently, stereotyped behaviours appear as specific trajectories on the sphere ( m-prints ), reflecting conserved sequences of postural changes (and/or angular velocities), which result from the precise relationship between body attitude and heading. This novel approach shows promise for helping researchers to identify and quantify behaviours in terms of animal body posture, including heading., Conclusion: Magnetometer-based techniques and metrics can enhance our capacity to identify and examine animal behaviour, either as a technique used alone, or one that is complementary to tri-axial accelerometry.

Published

2017

46. Eye Size, Fovea, and Foraging Ecology in Accipitriform Raptors.

Author

Potier S, Mitkus M, Bonadonna F, Duriez O, Isard PF, Dulaurent T, Mentek M, and Kelber A

Subjects

Animals, Behavior, Animal physiology, Birds, Body Size, Ecology, Feeding Behavior physiology, Phylogeny, Predatory Behavior physiology, Raptors physiology, Retina anatomy & histology, Retina physiology, Tomography, Optical Coherence methods, Vision, Ocular physiology, Visual Acuity physiology, Eye anatomy & histology, Fovea Centralis anatomy & histology, Raptors anatomy & histology

Abstract

Birds with larger eyes are predicted to have higher spatial resolution because of their larger retinal image. Raptors are well known for their acute vision, mediated by their deep central fovea. Because foraging strategies may demand specific visual adaptations, eye size and fovea may differ between species with different foraging ecology. We tested whether predators (actively hunting mobile prey) and carrion eaters (eating dead prey) from the order Accipitriformes differ in eye size, foveal depth, and retinal thickness using spectral domain optical coherence tomography and comparative phylogenetic methods. We found that (1) all studied predators (except one) had a central and a temporal fovea, but all carrion eaters had only the central fovea; (2) eye size scaled with body mass both in predators and carrion eaters; (3) predators had larger eyes relative to body mass and a thicker retina at the edge of the fovea than carrion eaters, but there was no difference in the depth of the central fovea between the groups. Finally, we found that (4) larger eyes generally had a deeper central fovea. These results suggest that the visual system of raptors within the order Accipitriformes may be highly adapted to the foraging strategy, except for the foveal depth, which seems mostly dependent upon the eye size., (© 2017 S. Karger AG, Basel.)

Published

2017

47. Decision-making by a soaring bird: time, energy and risk considerations at different spatio-temporal scales.

Author

Harel R, Duriez O, Spiegel O, Fluhr J, Horvitz N, Getz WM, Bouten W, Sarrazin F, Hatzofe O, and Nathan R

Subjects

Altitude, Animals, Biomechanical Phenomena, Decision Making, Energy Metabolism, France, Israel, Falconiformes physiology, Feeding Behavior, Flight, Animal, Homing Behavior

Abstract

Natural selection theory suggests that mobile animals trade off time, energy and risk costs with food, safety and other pay-offs obtained by movement. We examined how birds make movement decisions by integrating aspects of flight biomechanics, movement ecology and behaviour in a hierarchical framework investigating flight track variation across several spatio-temporal scales. Using extensive global positioning system and accelerometer data from Eurasian griffon vultures (Gyps fulvus) in Israel and France, we examined soaring-gliding decision-making by comparing inbound versus outbound flights (to or from a central roost, respectively), and these (and other) home-range foraging movements (up to 300 km) versus long-range movements (longer than 300 km). We found that long-range movements and inbound flights have similar features compared with their counterparts: individuals reduced journey time by performing more efficient soaring-gliding flight, reduced energy expenditure by flapping less and were more risk-prone by gliding more steeply between thermals. Age, breeding status, wind conditions and flight altitude (but not sex) affected time and energy prioritization during flights. We therefore suggest that individuals facing time, energy and risk trade-offs during movements make similar decisions across a broad range of ecological contexts and spatial scales, presumably owing to similarity in the uncertainty about movement outcomes.This article is part of the themed issue 'Moving in a moving medium: new perspectives on flight'., (© 2016 The Author(s).)

Published

2016

48. Visual abilities in two raptors with different ecology.

Author

Potier S, Bonadonna F, Kelber A, Martin GR, Isard PF, Dulaurent T, and Duriez O

Subjects

Animals, Behavior, Animal physiology, Female, Fovea Centralis, Male, Vision, Binocular, Visual Acuity physiology, Visual Fields physiology, Ecosystem, Raptors physiology, Vision, Ocular physiology

Abstract

Differences in visual capabilities are known to reflect differences in foraging behaviour even among closely related species. Among birds, the foraging of diurnal raptors is assumed to be guided mainly by vision but their foraging tactics include both scavenging upon immobile prey and the aerial pursuit of highly mobile prey. We studied how visual capabilities differ between two diurnal raptor species of similar size: Harris's hawks, Parabuteo unicinctus, which take mobile prey, and black kites, Milvus migrans, which are primarily carrion eaters. We measured visual acuity, foveal characteristics and visual fields in both species. Visual acuity was determined using a behavioural training technique; foveal characteristics were determined using ultra-high resolution spectral-domain optical coherence tomography (OCT); and visual field parameters were determined using an ophthalmoscopic reflex technique. We found that these two raptors differ in their visual capacities. Harris's hawks have a visual acuity slightly higher than that of black kites. Among the five Harris's hawks tested, individuals with higher estimated visual acuity made more horizontal head movements before making a decision. This may reflect an increase in the use of monocular vision. Harris's hawks have two foveas (one central and one temporal), while black kites have only one central fovea and a temporal area. Black kites have a wider visual field than Harris's hawks. This may facilitate the detection of conspecifics when they are scavenging. These differences in the visual capabilities of these two raptors may reflect differences in the perceptual demands of their foraging behaviours., (© 2016. Published by The Company of Biologists Ltd.)

Published

2016

49. Migration, Prospecting, Dispersal? What Host Movement Matters for Infectious Agent Circulation?

Author

Boulinier T, Kada S, Ponchon A, Dupraz M, Dietrich M, Gamble A, Bourret V, Duriez O, Bazire R, Tornos J, Tveraa T, Chambert T, Garnier R, and McCoy KD

Subjects

Animal Diseases microbiology, Animal Diseases parasitology, Animal Distribution, Animals, Tick-Borne Diseases microbiology, Tick-Borne Diseases parasitology, Tick-Borne Diseases transmission, Ticks microbiology, Ticks parasitology, Animal Diseases transmission, Animal Migration, Birds physiology, Tick-Borne Diseases veterinary, Ticks physiology

Abstract

Spatial disease ecology is emerging as a new field that requires the integration of complementary approaches to address how the distribution and movements of hosts and parasites may condition the dynamics of their interactions. In this context, migration, the seasonal movement of animals to different zones of their distribution, is assumed to play a key role in the broad scale circulation of parasites and pathogens. Nevertheless, migration is not the only type of host movement that can influence the spatial ecology, evolution, and epidemiology of infectious diseases. Dispersal, the movement of individuals between the location where they were born or bred to a location where they breed, has attracted attention as another important type of movement for the spatial dynamics of infectious diseases. Host dispersal has notably been identified as a key factor for the evolution of host-parasite interactions as it implies gene flow among local host populations and thus can alter patterns of coevolution with infectious agents across spatial scales. However, not all movements between host populations lead to dispersal per se. One type of host movement that has been neglected, but that may also play a role in parasite spread is prospecting, i.e., movements targeted at selecting and securing new habitat for future breeding. Prospecting movements, which have been studied in detail in certain social species, could result in the dispersal of infectious agents among different host populations without necessarily involving host dispersal. In this article, we outline how these various types of host movements might influence the circulation of infectious disease agents and discuss methodological approaches that could be used to assess their importance. We specifically focus on examples from work on colonial seabirds, ticks, and tick-borne infectious agents. These are convenient biological models because they are strongly spatially structured and involve relatively simple communities of interacting species. Overall, this review emphasizes that explicit consideration of the behavioral and population ecology of hosts and parasites is required to disentangle the relative roles of different types of movement for the spread of infectious diseases., (© The Author 2016. Published by Oxford University Press on behalf of the Society for Integrative and Comparative Biology. All rights reserved. For permissions please email: journals.permissions@oup.com.)

Published

2016

50. Visual acuity in an opportunistic raptor, the chimango caracara (Milvago chimango).

Author

Potier S, Bonadonna F, Kelber A, and Duriez O

Subjects

Animals, Conditioning, Operant physiology, Eye anatomy & histology, Species Specificity, Falconiformes physiology, Visual Acuity physiology

Abstract

Raptors are always considered to have an extraordinary resolving power of their eyes (high visual acuity). Nevertheless, raptors differ in their diet and foraging tactics, which could lead to large differences in visual acuity. The visual acuity of an opportunist bird of prey, the Chimango caracara (Mivalgo chimango) was estimated by operant conditioning. Three birds were trained to discriminate two stimuli, a positive grey uniform pattern and a negative grating pattern stimulus. The visual acuity range from 15.08 to 39.83 cycles/degrees. When compared to other birds, they have a higher visual acuity than non-raptorial birds, but they have the lowest visual acuity found in bird of prey so far. We discuss this result in the context of the ecology of the bird, with special focus on it is foraging tactic., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016