|
|
Chastel O., Blévin P., Humann‑Guilleminot S., Helfenstein F., Tartu S., Angelier F., Sebastiano M., Costantini D., Shaffer S., Bustamante P., Labadie P., Budzinski H., Herzke D., Moe B., Bustnes J.O., Gabrielsen G.W. . (2021). Contaminants of growing concern: Poly- and Perfluoroalkylated Substances (PFAS) and their physiological consequences in seabirds.
|
|
|
|
Reynaud L. & Dobrovolski S.G. (1995). Statistical analysis of glaciers fluctuations data. World Glacier Monitoring, Unesco, Haeberli Ed., .
|
|
|
|
Duprat J. (2017). Isotopic analysis of cometary dust. Bachelor's thesis, , .
|
|
|
|
Testut L., B. Legrésy, C. Watson, R. Coleman, H. Brolsma, R. Handsworth. (2018). Sea level trends in the Commonwealth Bay over the last century from historical data.
|
|
|
|
Testut L., P. Téchiné, M. Calzas, A. Guillot, C. Guillerm, C. Brachet, C. Drezen, L. Fichen, T. Donal. (2018). The French tide gauges network in Southern Ocean and Antarctica – ROSAME – Conclusions and recommendations after 25 years of experience.
|
|
|
|
K.-L. Klein. (2017). Relativistic solar particle events (GLEs) and solar eruptive activity.
|
|
|
|
Ramonet, M., M. Schmidt, L. Pépin, V. Kazan, D. Picard, D. Filippi, L. Jourd'heuil, C. Valant, G. Monvoisin, R. Sarda and P.Ciais. (2003). The French Trace Gas Monitoring Program (RAMCES). WMO/GAW Report, 148, 136–148.
|
|
|
|
Schmidt, M., P. Ciais, I. Levin, H.Meijer, M. Ramonet et al. (2003). The European Intercomparison Project for Greenhouse Gas Monitoring (TACOS-Infrastructure). WMO/GAW Report, , 32–36.
|
|
|
|
Barbraud Christophe, Weimerskirch Henri, . (2012). Assessing the effect of satellite transmitters on the demography of the Wandering Albatross Diomedea exulans
. Wilson J Ornithol, 153(2), 375–383-.
Abstract: Satellite transmitters and other tracking devices are valuable tools for furthering our understanding of bird movements, and their use has been steadily increasing. Since the necessary handling of birds to deploy transmitters can have deleterious consequences and the transmitter itself can add substantial mass, particularly to small species, or bring discomfort to the individual birds to which they are attached, it is important to quantify the effect such devices on both the behavior and the fitness of equipped animals. Very few studies have focused on the demographic effects of equipping birds with a satellite transmitter, with the vast majority of such studies focusing on short-term behavioral effects. We have assessed the demographic effects of attaching a satellite transmitter to the back of adult breeding Wandering Albatross individuals using long-term demographic data (20 years) and recent developments in capture–recapture methodology. We found no evidence of any negative effects of the attached devices on the probability of survival, breeding, or breeding successfully in the current or following season in either males or females. We conclude that the current satellite transmitters and smaller devices used by researchers are valuable conservation and research tools that do not adversely affect the demographic traits of large albatrosses. Similar tests should be carried out on smaller species, which are more likely to be affected.
Keywords: Adult survival, Breeding success, Capturerecapture, Multistate, Satellite transmitters, Wandering Albatross,
Programme: 109
|
|
|
|
Barbraud Christophe, Weimerskirch Henri, . (2012). Estimating survival and reproduction in a quasi-biennially breeding seabird with uncertain and unobservable states
. Wilson J Ornithol, 152(2), 605–615-.
Abstract: Estimating the effects of environmental factors on the population dynamics of albatrosses is necessary for their conservation. This requires estimation of demographic parameters, long-time series of capture–recapture data, and knowledge of their at-sea distribution. For biennial albatrosses, multistate mark–recapture models (MSMR) considering individuals during their sabbatical year as unobservable could provide reliable estimates. However, this requires that state assignment is determined with certainty which may not be the case in historical data. We applied multievent mark–recapture models (MEMR) to data on adult Wandering Albatross (Diomedea exulans) at Possession Island collected between 1966 and 2006. The models accounted for state uncertainty for those breeding states where the breeding outcome was uncertain. Survival estimates obtained from models not accounting for temporary emigration were higher than those obtained from models accounting for temporary emigration. For males and females, survival estimates from the MEMR models were higher than those from CJS and MSMR models. Annual survival probability was 0.924 (SE = 0.034) for breeding females, 0.971 (SE = 0.038) for non-breeding females, 0.954 (SE = 0.018) for breeding males, and 0.938 (SE = 0.017) for non-breeding males. Whereas Wandering Albatrosses are generally considered as obligate biennial breeders, we found that the probability that successful breeders attempted to breed in a subsequent year was 0.069 for females and 0.048 for males, although their probability of success was 44–62% lower than that of individuals that skipped breeding.
Keywords: Capturerecapture, Multievent, Multistate, Temporary emigration, Wandering Albatross,
Programme: 109
|
|
