Abstract
To nest in the same breeding area, territory or even nest-site in successive years may provide a possibility to look at mechanisms involved in breeding habitat selection and could also be an important tool for conservation, management and restoration attempts. In this study we examine site fidelity towards the breeding area as well as the nesting site in a dense and stable population of the Lesser Grey Shrike Lanius minor, a long-distance migrant and highly endangered passerine species, at its present northern border of its breeding range. Overall we recovered 48 out of 146 (32.8%) adults between 1996 and 2000. Recovery rate is significantly higher for males (31 of 77, 40.25%) than for females (17 of 69, 24.6%). Recovery rate of nestlings is much lower since only 51 of 790 (6.5%) were recovered and there is no significant sex difference. Furthermore, our results from 1989 to 2000 revealed that more than 30% (97/319) of the nests were built in the same nest tree in successive years and more than half (183/319 = 57.4%) of the nests in the same or neighboring trees (up to 20 m), but very seldom by the same individuals. The fact that nest reuse in successive years is almost exclusively done by different individuals suggests habitat copying and public information of individual birds. Due to optimal ecological breeding conditions other parameters like inbreeding avoidance or increased genetic variability could be important factors in nest-site selection strategies and consequently result in a “disperse over stay strategy”.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Boulinier EK, Danchin R (1997) The use of conspecific reproductive success for breeding patch selection in territorial migratory species. Evol Ecol 11:505–517
Brown JH, Kodric-Brown A (1977) Turnover rates in insular biogeography: effect of immigration on extinction. Ecology 58:445–449
Clarke AL, Saether BE, Roskaft E (1997) Sex biases in avian dispersal: a reappraisal. Oikos 79(3):429–438
Collister DM, Smet De K (1997). Breeding and natal dispersal in the Loggerhead Shrike. J Field Ornithol 68:273–282
Cramp S, Perrins CM (eds) (1993) The birds of the Western Palearctic. vol 7. Oxford University Press, Oxford, New York
Dale S (2001) Female-biased dispersal, low female recruitment, unpaired males, and the extinction of small and isolated bird populations. Oikos 92(2):344–356
Danchin E, Boulinier T, Massot M (1998) Conspecific reproductive success and breeding habitat selection: implications for study of coloniality. Ecology 78:2415–2428
Doligez B, Danchin E, Clobert J, Gustafsson L (1999) The use of conspecific reproductive success for breeding habitat selection in a non-colonial, hole-nesting species, the collared flycatcher. J Anim Ecol 68:1193–1206
Doligez B, Cadet C, Danchin E, Boulinier T (2003) When to use public information for breeding habitat selection? The role of environmental predictability and density dependence. Anim Behav 66:973–988
Fahrig L, Merriam G (1994) Conservation of fragmented populations. Conserv Biol 8:50–59
Freemark KE, Dunning JB, Hejl SJ, Probst JR (1995) A landscape ecology perspective for research, conservation and management. In: Martin TE, Finch DM (eds) Ecology and management of neotropical migratory birds. Oxford University Press, Oxford, NewYork, pp 381–427
Gavin TA, Bollinger EK (1988) Reproductive correlates of breeding-site fidelity in Bobolinks (Dolichonyx oryzivorus). Ecology 69:96–103
Giralt D, Valera F (2003). Decline of the spanish population of lesser grey shrike: is it a consequence of living off limits?. Die Vogelwarte 42:37
Glutz von Blotzheim U, Bauer K (1993) Handbuch der Vögel Mitteleuropas, Band 13. Aula Verlag, Wiesbaden
Gowaty PA, Plissner JH (1997) Breeding dispersal of eastern bluebirds depends on nesting success but not on removal of old nests: an experimental study. J Field Ornithol 68(3):323–330
Greenwood PJ (1980) Mating systems, philopatry and dispersal in birds and mammals. Anim Behav 28:1140–1162
Haas CA (1997) What characteristics of shelterbelts are important to breeding success and return rate of birds? Am Midland Nat 137:225–238
Haas CA (1998) Effects of prior nestling success on site fidelity and breeding dispersal: an experimental approach. Auk 115:929–936
Haas CA, Sloane SA (1989) Low return rates of migratory Loggerhead Shrikes: winter mortality or low site fidelity? Wilson Bull 101:458–460
Hantge E (1957) Zur Brutbiologie des Schwarzstirnwürgers (Lanius minor). Vogelwelt 8:137–147
Harvey PH, Greenwood PJ, Perrins CM (1979) Breeding area fidelity of Great Tits (Parus major). J Anim Ecol 48:305–313
Hoi H, Kristin A, Valera F, Hoi C (2004) Clutch enlargement in Lesser Gray Shrikes (Lanius minor) in Slovakia when food is superabundant: a maladaptive response? Auk 121:557–564
Holmes RT, Marra PP, Sherry TW (1996) Habitat-specific demography of breeding black-throated blue warblers (Dendroica caerulescens): implications for population dynamics. J Anim Ecol 65:183–195
Hoover JP (2003) Decision rules for site fidelity in a migratory bird, the Prothonotary warbler. Ecology 84:416–430
Jakober H, Stauber W (1987) Dispersionsprozesse in einer Neuntöter-Population. Beih. Veröffentlichungen Naturschutz Landschaftspflege Baden-Württemberg 48:119–130
Jakober H, Stauber W (1989) Beeinflussen Bruterfolg und Alter die Ortstreue des Neuntöters (Lanius collurio)? Die Vogelwarte 35:32–36
Knysh N, Pertsov D (2003) Lesser grey shrike (Lanius minor) in the North-East of Ukrajine. Die Vogelwarte 42:37–38
Konczey R, Toth L, Törek J (1997) Site fidelity of great- and blue tits in the Pilis-Visegrad Mountains. Opuscula Zoologica (Budapest) 29–30:103–111
Kristin A, Hoi H, Valera F, Hoi C (1999) Nest site fidelity and breeding biology in the Lesser Grey Shrike (Lanius minor) in Central Slovakia. Ring 21:74
Kristin A, Hoi H, Valera F, Hoi C (2000) Breeding biology and breeding success of the Lesser Grey Shrike (Lanius minor). Ibis 142:305–311
Lande R, Barrowclough GF (1987) Effective population size, genetic variation and their use in population management. In: Soulé M (eds) Viable population s for conservation. Cambridge University Press, Cambridge, UK, pp 87–123
Lefranc N, Worfolk T (1997) Shrikes. A guide to the shrikes of the world. Pica Press, Sussex pp 192
Lemon RE, Perreault L, Lozano GA (1996) Breeding dispersions and site fidelity of American redstarts (Setopaga ruticilla). Can J Zool 74:2238–2247
Lovászi P, Bártol I, Moskát C (2000) Nest-site selection and breeding success of the lesser Grey Shrike (Lanius minor) in Hungary. Ring 22:157–164
Lozano GA, Lemon RE (1999) Effects of prior residence and age on breeding performance in Yellow Warblers. Wilson Bull 111:381–388
Muller KL, Stamps JA, Krishnan VV, Willits NH (1997) The effects of conspecific attraction and habitat quality on habitat selection in territorial birds (Troglodytes aedon). Am Nat 150:650–661
Parejo D, Danchin E, Aviles JM (2005) The heterospecific habitat copying hypothesis: can competitors indicate habitat quality? Behav Ecol 16(1):96–105
Paton PWC, Edwards TC Jr (1996) Factors affecting interannual movements of Snowy Plovers. Auk 113:534–543
Payne RB, Payne LL (1993) Breeding dispersal in Indigo Buntings: circumstances and consequences of breeding success and population structure. Condor 95:1–24
Pusey AE (1987) Sex biased dispersal and inbreeding avoidance in birds and mammals. Trends Ecol Evol 2:295–299
Robinson SK (1985) Coloniality in the yellow-rumped Cacique as a defense against nest predators. Auk 102:506–519
Saunders DA, Hobbs RJ, Margules CR (1991) Biological consequences of ecosystem fragmentation: a review. Conserv Biol 5:18–32
Schjorring S, Gregersen J, Bregnballe T (2000) Sex difference in criteria determining fidelity towards breeding sites in the great cormorant. J Anim Ecol 69:214–223
Schmidt KA (2004) Site fidelity in temporally correlated environments enhances population persistence. Ecol Lett 7(3):176–184
Sedgwick JA (2004) Site fidelity, territory fidelity and natal philopatry in willow flycatchers (Empidonax traillii). Auk 121:1103–1121
Šimek J (2001). Patterns of breeding fidelity in the Red-backed Shrike (Lanius collurio). Ornis Fennica 78(2):61–71
Sokolov LV (1991) Philopatry and dispersal of birds. Institute of Zoology, St. Petersburg, p 232
Stamps JA (1988). Conspecific attraction and aggregation in territorial species. Am Nat 131:329–347
Stamps JA (1991) The effect of conspecifics on habitat selection in territorial species. Behav Ecol Sociobiol 28:29–36
Switzer PV (1997) Past reproductive success affects future habitat selection. Behav Ecol Sociobiol 40:307–312
Takagi M (2003) Philopatry and habitat selection in Bull-headed and Brown shrikes. J Field Ornithol 74:45–52
Ullrich B (1987) Beringungsergebnisse aus einer Brutpopulation des Rotkopfwürgers (Lanius senator) im mittleren Albvorland, Kreis Göppingen und Esslingen. Orn. Jh. Baden-Württ 3:107–112
Ward MP, Schlossberg S (2004) Conspecific attraction and the conservation of territorial songbirds. Conserv Biol 18:519–525
Warncke K (1958) Zur Brutbiologie des Schwarzstirnwürgers. Vogelwelt 79:177–181
Weatherhead PJ, Forbes MRL (1994) Natal philopatry in passerine birds genetic or ecological influences. Behav Ecol 5:426–433
Wirtitsch M, Hoi H, Valera F, Kristin A (2001) Habitat composition and use in the lesser grey shrike (Lanius minor). Folic Zoologica 50:137–150
Yosef R (1992) Male-biased breeding site fidelity in a population of Northern Shrikes. Condor 94:1025–1027
Author information
Authors and Affiliations
Corresponding author
Editor information
Rights and permissions
Copyright information
© 2006 Springer Science+Business Media B.V.
About this chapter
Cite this chapter
Krištín, A., Hoi, H., Valera, F., Hoi, C. (2006). Philopatry, dispersal patterns and nest-site reuse in Lesser Grey Shrikes (Lanius minor). In: Hawksworth, D.L., Bull, A.T. (eds) Vertebrate Conservation and Biodiversity. Topics in Biodiversity and Conservation, vol 5. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-6320-6_10
Download citation
DOI: https://doi.org/10.1007/978-1-4020-6320-6_10
Received:
Accepted:
Published:
Publisher Name: Springer, Dordrecht
Print ISBN: 978-1-4020-6319-0
Online ISBN: 978-1-4020-6320-6
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)