Moen, R., Pastor, J., Cohen, Y. & Schwartz, C. C. Effects of moose movement and habitat use on GPS collar performance. J. Wildl. Manag. 60, 659–668 (1996).
Cain, J. W. III., Krausman, P. R., Jansen, B. D. & Morgart, J. R. Influence of topography and GPS fix interval on GPS collar performance. Wildl. Soc. Bull. 33, 926–934 (2005).
Graves, T. A. & Waller, J. S. Understanding the causes of missed global positioning system telemetry fixes. J. Wildl. Manag. 70, 844–851 (2006).
Moen, R., John, P. & Cohen, Y. Effects of animal activity on GPS telemetry location attempts. Alces 37, 207–216 (2001).
D’Eon, R. G. Effects of a stationary GPS fix-rate bias on habitat-selection analyses. J. Wildl. Manag. 67, 858–863 (2003).
Dussault, C., Courtois, R., Ouellet, J. P. & Huot, J. Evaluation of GPS telemetry collar performance for habitat studies in the boreal forest. Wildl. Soc. Bull. 27, 965–972 (1999).
Nielson, R. M., Manly, B. F. J., Mcdonald, L. L., Sawyer, H. & Mcdonald, T. L. Estimating habitat selection when GPS fix success is less than 100 %. Ecology 90, 2956–2962 (2009).
Rempel, R. S., Rodgers, A. R. & Abraham, K. F. Performance of a GPS animal location system under boreal forest canopy. J. Wildl. Manag. 59, 543–551 (1995).
Bowman, J. L., Kochanny, C. O., Demarais, S. & Leopold, B. D. Evaluation of a GPS collar for white-tailed deer. Wildl. Soc. Bull. 28, 141–145 (2000).
Jung, T. S. & Kuba, K. Performance of GPS collars on free-ranging bison (Bison bison) in north-western Canada. Wildl. Res. 42, 315–323 (2015).
Recio, M. R., Mathieu, R., Denys, P., Sirguey, P. & Seddon, P. J. Lightweight GPS-tags, one giant leap for wildlife tracking? An assessment approach. PLoS One 6, e28225 (2011).
Mattisson, J., Andrén, H., Persson, J. & Segerström, P. Effects of species behavior on global positioning system collar fix rates. J. Wildl. Manag. 74, 557–563 (2010).
Kaczensky, P., Ito, T. Y. & Walzer, C. Satellite telemetry of large mammals in Mongolia: What expectations should we have for collar function?. Wildl. Biol. Pract. 6, 108–126 (2010).
Harris, R. B. et al. Tracking Wildlife by Satellite: Current systems and Performance. Fish and Wildlife Technical Report https://pubs.er.usgs.gov/publication/70185512 (1990).
Schwartz, C. C. & Arthur, S. M. Radiotracking large wilderness mammals: Integration of GPS and argostechnology. Ursus 11, 261–274 (1999).
Tomkiewicz, S. M., Fuller, M. R., Kie, J. G. & Bates, K. K. Global positioning system and associated technologies in animal behaviour and ecological research. Philos. Trans. R. Soc. B Biol. Sci. 365, 2163–2176 (2010).
Rodgers, A. R. Recent telemetry technology. In Radio Tracking and Animal Populations (eds Marzluff, J. M. & Millspaugh, J. J.) 79–121 (Elsevier, New York, 2001). https://doi.org/10.1016/B978-012497781-5/50005-0.
Thomas, B., Holland, J. D. & Minot, E. O. Wildlife tracking technology options and cost considerations. Wildl. Res. 38, 653–663 (2011).
Margalida, A., Pérez-García, J. M., Afonso, I. & Moreno-Opo, R. Spatial and temporal movements in Pyrenean bearded vultures (Gypaetus barbatus): Integrating movement ecology into conservation practice. Sci. Rep. 6, 35746 (2016).
García-Jiménez, R., Pérez-García, J. M. & Margalida, A. Drivers of daily movement patterns affecting an endangered vulture flight activity. BMC Ecol. 18, 39 (2018).
BirdLife International. (2017). Gypaetus barbatus (Amended Version of 2017 Assessment). The IUCN Red List of Threatened Species 2017: e.T22695174A118590506. https://doi.org/10.2305/IUCN.UK.2017-3.RLTS.T22695174A118590506.en. Accessed: 12th Mar 2020.
Houston D. C. Reintroduction programmes for vulture species. In Proceedings of the International Conference on Conservation and Management of Vulture populations 1, (eds Houston D. C. & Piper, S. E., 2006). Natural History Museum, University of Crete, Thessaloniki.
Britten, M. W., Kennedy, P. L. & Ambrose, S. Performance and accuracy evaluation of small satellite transmitters. J. Wildl. Manag. 63, 1349–1358 (1999).
Soutullo, A., Cadahía, L., Urios, V., Ferrer, M. & Negro, J. J. Accuracy of lightweight satellite telemetry: A case study in the Iberian Peninsula. J. Wildl. Manag. 71, 1010–1015 (2007).
Silva, R., Afán, I., Gil, J. A. & Bustamante, J. Seasonal and circadian biases in bird tracking with solar GPS-tags. PLoS One 12, e0185344 (2017).
Byrne, M. E., Holland, A. E., Bryan, A. L. & Beasley, J. C. Environmental conditions and animal behavior influence performance of solar-powered GPS-GSM transmitters. Condor 119, 389–404 (2017).
Hofman, M. P. G. et al. Right on track? Performance of satellite telemetry in terrestrial wildlife research. PLoS One 14, 1–26 (2019).
Aubrecht, C. et al. Vertical roughness mapping – ALS based classification of the vertical vegetation structure in forested areas. In Symposium A Quarterly Journal In Modern Foreign Literatures (eds. Wagner, W. & Székely, B.) XXXVIII, 35–40 (2010).
Frair, J. L. et al. Resolving issues of imprecise and habitat-biased locations in ecological analyses using GPS telemetry data. Philos. Trans. R. Soc. B Biol. Sci. 365, 2187–2200 (2010).
Péron, G. et al. The challenges of estimating the distribution of flight heights from telemetry or altimetry data. Anim. Biotelemetry 8, 1–13 (2020).
Cargnelutti, B. et al. Testing global positioning system performance for wildlife monitoring using mobile collars and known reference points. J. Wildl. Manag. 71, 1380–1387 (2007).
Edenius, L. Field test of a GPS location system for moose Alces alces under Scandinavian boreal conditions. Wildl. Biol. 3, 39–43 (1997).
Jurdak, R., Corke, P., Dharman, D. & Salagnac, G. Adaptive GPS duty cycling and radio ranging for energy-efficient localization. In Proceedings of the 8th ACM Conference on Embedded Networked Sensor Systems-SenSys ’10 57–70 (ACM Press, 2010). https://doi.org/10.1145/1869983.1869990.
Gau, R. J. et al. Uncontrolled field performance of Televilt GPS-SimplexTM collars on grizzly bears in western and northern Canada. Wildl. Soc. Bull. 32, 693–701 (2004).
Girard, I. et al. Feasibility of GPS use to locate wild ungulates in high mountain environment. Pirineos 157, 7–14 (2002).
Krüger, S., Reid, T. & Amar, A. Differential range use between age classes of Southern African bearded vultures Gypaetus barbatus. PLoS One 9, e114920 (2014).
Augustine, B. C., Crowley, P. H. & Cox, J. J. A mechanistic model of GPS collar location data: Implications for analysis and bias mitigation. Ecol. Modell. 222, 3616–3625 (2011).
Douglas, D. C. et al. Moderating Argos location errors in animal tracking data. Methods Ecol. Evol. 3, 999–1007 (2012).
Cuadrat, J. M. et al. El clima de los Pirineos. Base de datos y primeros resultados. Tiempo Clima 45, 38–41 (2010).
Margalida, A., Bertran, J. & Heredia, R. Diet and food preferences of the endangered Bearded Vulture Gypaetus barbatus: A basis for their conservation. Ibis (Lond. 1859) 151, 235–243 (2009).
del Hoyo, J., Elliott, A., Sargatal, J., Christie, D. A. & Kirwan, G. Handbook of the Birds of the World,2 (Lynx Edicions, Barcelona, 1994).
Antor, R. J. et al. First breeding age in captive and wild bearded vultures Gypaetus barbatus. Acta Ornithol. 42, 114–118 (2007).
Gil, J. A. et al. Home ranges and movements of non-breeding bearded vultures tracked by satellite telemetry in the Pyrenees. Ardeola 61, 379–387 (2014).
Sunyer, C. El periodo de emancipación en el Quebrantahuesos (Gypaetus barbatus): Consideraciones sobre su conservación. In El quebrantahuesos (Gypaetus barbatus) en los Pirineos. Características Ecológicas y Biología (eds Heredia, R. & Heredia, B.) 47–65 (ICONA, Turin, 1991).
Margalida, A. et al. Uneven large-scale movement patterns in wild and reintroduced pre-adult Bearded Vultures: Conservation implications. PLoS One 8, e65857 (2013).
Ellergren, H. First gene on the avian W chromosome (CHD) provides a tag for universal sexing of non-ratite birds. Proc. R Soc. Lond. Ser. B Biol. Sci. 263, 1635–1641 (1996).
Cruz, S., Proaño, C. B., Anderson, D., Huyvaert, K. & Wikelski, M. Data from: The Environmental-Data Automated Track Annotation (Env-DATA) System: Linking animal tracks with environmental data. (2013). https://doi.org/10.5441/001/1.3hp3s250.
Dodge, S. et al. The environmental-data automated track annotation (Env-DATA) system: Linking animal tracks with environmental data. Mov. Ecol. 1, 3 (2013).
Cuscó, F., Cardador, L., Bota, G., Morales, M. B. & Mañosa, S. Inter-individual consistency in habitat selection patterns and spatial range constraints of female little bustards during the non-breeding season. BMC Ecol. 18, 1–12 (2018).
Nakagawa, S. & Schielzeth, H. A general and simple method for obtaining R2 from generalized linear mixed-effects models. Methods Ecol. Evol. 4, 133–142 (2013).
Anadón, J. D. et al. Factors determining the distribution of the spur-thighed tortoise Testudo graeca in south-east Spain: A hierarchical approach. Ecography (Cop.) 29, 339–346 (2006).
R Foundation for Statistical Computing. R Core Team. R: A Language and Environment for Statistical Computing. https://www.R-project.org/ (2019).
Bates, D., Maechler, M. & Dai, B. lme4: Linear mixed-effects models using S4 classes. 2009. R package version 0.999375-31. https://CRAN.R-project.org/package=lme4 (2009).
Burnham, K. P. & Anderson, D. R. Model Selection and Multimodel Inference: A Practical Information-Theoretic Approach Vol 2 (Springer, Berlin, 2002).
Zuur, A., Ieno, E. N., Walker, N., Saveliev, A. A. & Smith, G. M. Mixed Effects Models and Extensions in Ecology with R (Springer, Berlin, 2009).
Barton, K. Package ‘MuMIn’. R package version 1.43. 15. https://CRAN.R-project.org/package=MuMIn (2019).
Fox, J. & Weisberg, S. An R Companion to Applied Regression (Sage publications, Thousand Oaks, 2018).
Mitchell, L. J., White, P. C. & Arnold, K. E. The trade-off between fix rate and tracking duration on estimates of home range size and habitat selection for small vertebrates. PLoS One 14, e0219357 (2019).
Source: Ecology - nature.com
