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Effect of nest composition, experience and nest quality on nest-building behaviour in the Bonelli’s Eagle

  • Collias, N.E. & Collias, E.C. Nest Building and Bird Behavior. (Princeton University Press, 1984).

  • Hansell, M.H. Bird nests and construction behaviour. (Cambridge University Press, 2000).

  • Deeming, D.C. & Reynolds, S.J. Nests, eggs and incubation: New ideas about avian reproduction. (Oxford University Press, 2015).

  • Pärssinen, V., Kalb, N., Vallon, M., Anthes, N. & Heubel, K. U. Male and female preferences for nest characteristics under paternal care. Ecol. Evol. 9, 7780–7791 (2019).

    PubMed 
    PubMed Central 

    Google Scholar 

  • Soler, J. J., Morales, J., Cuervo, J. J. & Moreno, J. Conspicuousness of passerine females is associated with the nest-building behaviour of males. Biol. J. Linn. Soc. 126, 824–835 (2019).

    Google Scholar 

  • Tipton, H. C., Dreitz, V. J. & Doherty, P. F. Jr. Occupancy of Mountain Plover and Burrowing Owl in Colorado. J. Wildl. Manage. 72, 1001–1006 (2008).

    Google Scholar 

  • Mukherjee, A., Kumara, H. N. & Bhupathy, S. Golden jackal’s underground shelters: Natal site selection, seasonal burrowing activity and pup rearing by a cathemeral canid. Mammal Res. 63, 325–339 (2018).

    Google Scholar 

  • Berg, M. L., Beintema, N. H., Welbergen, J. A. & Komdeur, J. The functional significance of multiple nest building in the Australian Reed Warbler Acrocephalus australis. Ibis 148, 395–404 (2006).

    Google Scholar 

  • Vergara, P., Gordo, O. & Aguirre, J. I. Nest size, nest building behaviour and breeding success in a species with nest reuse: the white stork Ciconia ciconia. Ann. Zool. Fennici 47, 184–194 (2010).

    Google Scholar 

  • Hansell, M.H. Animal architecture. (Oxford University Press, 2005).

  • Newton, I. Population ecology of raptors. Berkhamsted (T and AD Poyser, 1979).

  • Ontiveros, D., Caro, J. & Pleguezuelos, J. M. Green plant material versus ectoparasites in nests of Bonelli’s Eagle. J. Zool. 274, 99–104 (2008).

    Google Scholar 

  • Soler, J. J., Møller, A. P. & Soler, M. Nest building, sexual selection and parental investment. Evol. Ecol. 12, 427–441 (1998).

    Google Scholar 

  • Moreno, J., Soler, M., Møller, A. P. & Linden, M. The function of stone carrying in the Black Wheatear, Oenanthe leucura. Anim. Behav. 47, 1297–1309 (1994).

    Google Scholar 

  • Soler, J. J., Soler, M., Møller, A. P. & Martínez, J. G. Does the great spotted cuckoo choose magpie hosts according to their parenting ability?. Behav. Ecol. Sociobiol. 36, 201–206 (1995).

    Google Scholar 

  • Soler, J. J., Cuervo, J. J., Møller, A. P. & de Lope, F. Nest building is a sexually selected behaviour in the barn swallow. Anim. Behav. 56, 1435–1442 (1998).

    CAS 
    PubMed 

    Google Scholar 

  • Canal, D., Mulero-Pázmány, M., Negro, J. J. & Sergio, F. Decoration increases the conspicuousness of raptor nests. PLoS ONE 11, e0157440 (2016).

    PubMed 
    PubMed Central 

    Google Scholar 

  • Biddle, L., Goodman, A. M. & Deeming, D. C. Construction patterns of birds’ nests provide insight into nest-building behaviours. PeerJ 5, e3010 (2017).

    PubMed 
    PubMed Central 

    Google Scholar 

  • Akresh, M. E., Ardia, D. R. & King, D. I. Effect of nest characteristics on thermal properties, clutch size, and reproductive performance for an open-cup nesting songbird. Avian Biol. Res. 10, 107–118 (2017).

    Google Scholar 

  • Podofillini, S. et al. Home, dirty home: Effect of old nest material on nest-site selection and breeding performance in a cavity-nesting raptor. Curr. Zool. 64, 693–702 (2018).

    PubMed 
    PubMed Central 

    Google Scholar 

  • Ruiz-Castellano, C., Tomás, G., Ruiz-Rodríguez, M., Martín-Gálvez, D. & Soler, J. J. Nest material shapes eggs bacterial environment. PLoS ONE 11, e0148894 (2016).

    PubMed 
    PubMed Central 

    Google Scholar 

  • Tomás, G. et al. Interacting effects of aromatic plants and female age on nest-dwelling ectoparasites and blood-sucking flies in avian nests. Behav. Proc. 90, 246–253 (2012).

    Google Scholar 

  • Suárez-Rodríguez, M. & García, C. M. An experimental demonstration that house finches add cigarette butts in response to ectoparasites. J. Avian Biol. 48, 1316–1321 (2017).

    Google Scholar 

  • Mennerat, A. et al. Aromatic plants in nests of the blue tit Cyanistes caeruleus protect chicks from bacteria. Oecologia 161, 849–855 (2009).

    ADS 
    PubMed 

    Google Scholar 

  • Sanz, J. J. & García-Navas, V. Nest ornamentation in blue tits: is feather carrying ability a male status signal?. Behav. Ecol. 22, 240–247 (2011).

    Google Scholar 

  • Östlund-Nilsson, S. & Holmlund, M. The artistic three-spined stickleback (Gasterosteus aculeatus). Behav. Ecol. Sociobiol. 53, 214–220 (2003).

    Google Scholar 

  • Quader, S. What makes a good nest? Benefits of nest choice to female Baya Weavers (Ploceus philippinus). Auk 123, 475–486 (2006).

    Google Scholar 

  • Møller, A. P. & Nielsen, J. T. Large increase in nest size linked to climate change: an indicator of life history, senescence and condition. Oecologia 179, 913–921 (2015).

    ADS 
    PubMed 

    Google Scholar 

  • De Neve, L., Soler, J. J., Soler, M. & Pérez-Contreras, T. Nest size predicts the effect of food supplementation to magpie nestlings on their immunocompetence: An experimental test of nest size indicating parental ability. Behav. Ecol. 15, 1031–1036 (2004).

    Google Scholar 

  • Szentirmai, I., Komdeur, J. & Székely, T. What makes a nest-building male successful? Male behavior and female care in penduline tits. Behav. Ecol. 16, 994–1000 (2005).

    Google Scholar 

  • Tomás, G. et al. Nest size and aromatic plants in the nest as sexually selected female traits in blue tits. Behav. Ecol. 24, 926–934 (2013).

    Google Scholar 

  • Jelínek, V., Požgayová, M., Honza, M. & Procházka, P. Nest as an extended phenotype signal of female quality in the great reed warbler. J. Avian Biol. 47, 428–437 (2016).

    Google Scholar 

  • Muth, F. & Healy, S. D. The role of adult experience in nest building in the zebrafinch, Taeniopygia guttata. Anim. Behav. 82, 185–189 (2011).

    Google Scholar 

  • Wysocki, D. et al. Factors affecting nest size in a population of Blackbirds Turdus merula. Bird Study 62, 208–216 (2015).

    Google Scholar 

  • Moreno, J. Avian nests and nest-building as signals. Avian Biol. Res. 5, 238–251 (2012).

    Google Scholar 

  • Bailey, I. E., Morgan, K. V., Bertin, M., Meddle, S. L. & Healy, S. D. Physical cognition: Birds learn the structural efficacy of nest material. Proc. R. Soc. B 281, 20133225 (2014).

    PubMed 
    PubMed Central 

    Google Scholar 

  • Camacho-Alpízar, A., Eckersley, T., Lambert, C. T., Balasubramanian, G. & Guillette, L. M. If it ain’t broke don’t fix it: Breeding success affects nest-building decisions. Behav. Proc. 184, 104336 (2021).

    Google Scholar 

  • Madden, J. R. Bower decorations are good predictors of mating success in the spotted bowerbird. Behav. Ecol. Sociobiol. 53, 269–277 (2003).

    Google Scholar 

  • Mainwaring, M. C., Nagy, J. & Hauber, M. E. Sex-specific contributions to nest building in birds. Behav. Ecol. https://doi.org/10.1093/beheco/arab035 (2021).

    Article 

    Google Scholar 

  • Witte, K. The differential-allocation hypothesis: Does the evidence support it?. Evolution 49, 1289–1290 (1995).

    PubMed 

    Google Scholar 

  • Wright, J. & Cuthill, I. Monogamy in the European starling. Behaviour 120, 262–285 (1992).

    Google Scholar 

  • Burley, N. Sexual selection for aesthetic traits in species with biparental care. Am. Nat. 127, 415–445 (1986).

    ADS 

    Google Scholar 

  • Mainwaring, M. C., Hartley, I. R., Lambrechts, M. M. & Deeming, D. C. The design and function of birds’ nests. Ecol. Evol. 4, 3909–3928 (2014).

    PubMed 
    PubMed Central 

    Google Scholar 

  • Sergio, F. et al. Raptor nest decorations are a reliable threat against conspecifics. Science 331, 327–330 (2011).

    ADS 
    CAS 
    PubMed 

    Google Scholar 

  • Heinrich, B. Why does a hawk build with green nesting material?. Northeast. Nat. 20, 209–218 (2013).

    Google Scholar 

  • Mingju, E. et al. Old nest material functions as an informative cue in making nest-site selection decisions in the European Kestrel (Falco tinnunculus). Avian Res. 10, 43 (2019).

    Google Scholar 

  • Martínez-Abraín, A. & Jiménez, J. Stick supply to nests by cliff-nesting raptors as an evolutionary load of past tree-nesting. IEE 12, 22–25. https://doi.org/10.24908/iee.2019.12.3.n (2019).

    Article 

    Google Scholar 

  • Martínez, J. E. et al. Breeding behaviour and time-activity budgets of Bonelli’s Eagles Aquila fasciata: Marked sexual differences in parental activities. Bird Study 47, 35–44 (2020).

    Google Scholar 

  • Cramp, S. & Simmons, K.E.L. Handbook of the Birds of the western Palearctic. Vol. 2. (Oxford University Press, 1980).

  • Paillisson, J. M. & Chambon, R. Variation in male-built nest volume with nesting-support quality, colony, and egg production in whiskered terns. Ecol. Evol. 11, 15585–15600 (2021).

    PubMed 
    PubMed Central 

    Google Scholar 

  • Álvarez, E. & Barba, E. Nest quality in relation to adult bird condition and its impact on reproduction in Great Tits Parus major. Acta Ornithol. 43, 3–9 (2008).

    Google Scholar 

  • Ferguson-Lees, J. & Christie, D. Raptors of the world. (Christopher Helm, 2001).

  • Ontiveros, D. Águila perdicera – Aquila fasciata. In Enciclopedia Virtual de los Vertebrados Españoles. (eds. Salvador, A. & Morales, M.B.) Museo Nacional de Ciencias Naturales, Madrid; http://www.vertebradosibericos.org/ (accessed 13 September 2021) (2016).

  • Del Hoyo, J., Elliott, A. & Sargatal, J. Handbook of the birds of the world, vol. 2. New world vultures to guineafowl. (Lynx Edicions, 1994).

  • Ontiveros, D., Caro, J. & Pleguezuelos, J. M. Possible functions of alternative nests in raptors: the case of Bonelli’s Eagle. J. Ornithol. 149, 253–259 (2008).

    Google Scholar 

  • Del Moral, J.C. & Molina, B. El águila perdicera en España, población reproductora en 2018 y método de censo. (SEO/BirdLife, 2018).

  • BirdLife International. Aquila fasciata (amended version of 2016 assessment). The IUCN Red List of Threatened Species 2019. https://doi.org/10.2305/IUCN.UK.2019-3.RLTS.T22696076A155464015.en. Downloaded on 26 June 2021 (2019).

  • Balbontín, J. & Ferrer, M. Condition of large brood in Bonelli’s Eagle Hieraaetus fasciatus. Bird Study 52, 37–41 (2005).

    Google Scholar 

  • Martínez, J. E. et al. Copulatory behaviour in the Bonelli’s Eagle (Aquila fasciata): assessing the paternity assurance hypothesis. PLoS ONE 14, e0217175 (2019).

    PubMed 
    PubMed Central 

    Google Scholar 

  • Margalida, A. & Bertran, J. Nest-building behaviour of the Bearded Vulture Gypaetus barbatus. Ardea 88, 259–264 (2000).

    Google Scholar 

  • Krüger, O. Dissecting common buzzard lifespan and lifetime reproductive success: the relative importance of food, competition, weather, habitat and individual attributes. Oecologia 133, 474–482 (2002).

    ADS 
    PubMed 

    Google Scholar 

  • Morrison, T. A., Yoshizaki, J., Nichols, J. D. & Bolger, D. T. Estimating survival in photographic capture–recapture studies: overcoming misidentification error. Methods Ecol. Evol. 2, 454–463 (2011).

    Google Scholar 

  • Jiménez-Franco, M. V., Martínez, J. E., Pagán, I. & Calvo, J. F. Factors determining territory fidelity in a migratory forest raptor, the Booted Eagle Hieraaetus pennatus. J. Ornithol. 154, 311–318 (2013).

    Google Scholar 

  • Sreekar, R. et al. Photographic capture-recapture sampling for assessing populations of the Indian Gliding Lizard Draco dussumieri. PLoS ONE 8, e55935 (2013).

    ADS 
    CAS 
    PubMed 
    PubMed Central 

    Google Scholar 

  • Goswami, V. R. et al. Towards a reliable assessment of Asian elephant population parameters: The application of photographic spatial capture–recapture sampling in a priority floodplain ecosystem. Sci. Rep. 9, 8578 (2019).

    ADS 
    PubMed 
    PubMed Central 

    Google Scholar 

  • Méndez, D., Marsden, S. & Lloyd, H. Assessing population size and structure for Andean Condor Vultur gryphus in Bolivia using a photographic ‘capture-recapture’ method. Ibis 161, 867–877 (2019).

    Google Scholar 

  • Zuberogoitia, J., Martínez, J. E. & Zabala, J. Individual recognition of territorial peregrine falcons Falco peregrinus: A key for long-term monitoring programmes. Munibe 61, 117–127 (2013).

    Google Scholar 

  • Gil-Sánchez, J. M., Bautista, J., Godinho, R. & Moleón, M. Detection of individual replacements in a long-lived bird species, the Bonelli’s Eagle (Aquila fasciata), using three noninvasive methods. J. Raptor Res. https://doi.org/10.3356/JRR-20-53 (2021).

    Article 

    Google Scholar 

  • García, V., Moreno-Opo, R. & Tintó, A. Sex differentiation of Bonelli’s Eagle Aquila fasciata in western Europe using morphometrics and plumage colour patterns. Ardeola 60, 261–277 (2013).

    Google Scholar 

  • Real, J., Mañosa, S. & Codina, J. Post-nestling dependence period in the Bonelli’s Eagle Hieraaetus fasciatus. Ornis Fenn. 75, 129–137 (1998).

    Google Scholar 

  • Mínguez, E., Angulo, E. & Siebering, V. Factors influencing length of the post-fledging period and timing of dispersal in Bonelli’s Eagle (Hieraaetus fasciatus) in southwestern Spain. J. Raptor Res. 35, 228–234 (2001).

    Google Scholar 

  • Gil-Sánchez, J. M., Moleón, M., Otero, M. & Bautista, J. A nine-year study of successful breeding in a Bonelli’s eagle population in southeast Spain: A basis for conservation. Biol. Conserv. 118, 685–694 (2004).

    Google Scholar 

  • Resano-Mayor, J. et al. Multi-scale effects of nestling diet on breeding performance in a terrestrial top predator inferred from stable isotope analysis. PLoS ONE 9, e95320 (2014).

    ADS 
    PubMed 
    PubMed Central 

    Google Scholar 

  • Zuberogoitia, J., Martínez, J. E., Larrea, M. & Zabala, M. Parental investment of male Peregrine Falcons during incubation: Influence of experience and weather. J. Ornithol. 159, 275–282 (2018).

    Google Scholar 

  • R Core Team. R: A Language and Environment for Statistical Computing. Vienna: R Foundation for Statistical Computing. Available at: http://www.R-project.org/ (accessed 20 March 2021) (2021).

  • Bates, D., Maechler, M., Bolker, B. & Walker, S. Fitting linear mixed-effects models using lme4. J. Stat. Softw. 67, 1–48 (2015).

    Google Scholar 

  • Fernández, C. Nest material supplies in the Marsh Harrier Circus aeruginosus: Sexual roles, daily and seasonal activity patterns and rainfall influence. Ardea 80, 281–284 (1992).

    Google Scholar 

  • Margalida, A., González, L. M., Sánchez, R., Oria, J. & Prada, L. Parental behaviour of Spanish Imperial Eagles Aquila adalberti: sexual differences in a moderately dimorphic raptor. Bird Study 54, 112–119 (2007).

    Google Scholar 

  • López-López, P., Perona, A. M., Egea-Casas, O., Morant, J. & Urios, V. Tri-axial accelerometry shows differences in energy expenditure and parental effort throughout the breeding season in long-lived raptors. Curr. Zool. https://doi.org/10.1093/cz/zoab010 (2021).

    Article 
    PubMed 
    PubMed Central 

    Google Scholar 

  • Morant, J., López-López, P. & Zuberogoitia, I. Parental investment asymmetries of a globally endangered scavenger: Unravelling the role of gender, weather conditions and stage of the nesting cycle. Bird Study 66, 329–341 (2019).

    Google Scholar 

  • Margalida, A. & Bertran, J. Breeding biology of the Bearded Vulture Gypaetus barbatus: Minimal sexual differences in parental activities. Ibis 142, 225–234 (2000).

    Google Scholar 

  • Wimberger, P. H. The use of green plant material in bird nests to avoid ectoparasites. Auk 101, 615–618 (1984).

    Google Scholar 

  • Dubiec, A., Gózdz, I. & Mazgagski, T. D. Green plant material in avian nests. Avian Biol. Res. 6, 133–146 (2013).

    Google Scholar 

  • Jagiello, Z. A., Dylewski, L., Winiarska, D., Zolnierowicz, K. M. & Tobolka, M. Factors determining the occurrence of anthropogenic materials in nests of the white stork Ciconia ciconia. Environ. Sci. Pollut. Res. 25, 14726–14733 (2018).

    Google Scholar 

  • Fargallo, J. A., de León, A. & Potti, J. Nest maintenance effort and health status in chinstrap penguins, Pygoscelis antarctica: the functional significance of stone provisioning behaviour. Behav. Ecol. Sociobiol. 50, 141–150 (2001).

    Google Scholar 


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