, Volume 88, Issue 1, pp 9–14 | Cite as

Feeding ecology and life history variation of the blue tit in Mediterranean deciduous and sclerophyllous habitats

  • Jacques Blondel
  • Alain Dervieux
  • Marie Maistre
  • Philippe Perret
Original Papers


High variation in laying date and clutch size of the blue tit between a Mediterranean mixed habitat on the mainland, southern France, and a sclerophyllous habitat on the island of Corsica is hypothesized to be related to differences in the food supply. The diet of the nestlings and feeding frequencies were studied using camera nestboxes and electronic chronographs. Food items brought to the nestlings were much more diverse on Corsica than on the mainland, including many fewer caterpillars and a wider range of taxa. However, when expressed as a volume index, prey items were on average larger on Corsica than on the mainland. Feeding frequencies were significantly lower on Corsica. A good correlation was found in both habitats between laying date and the caterpillar peak date, although both the leafing development of oaks and the peak of abundance of caterpillars occurred 3 weeks later in the Corsican sclerophyllous trees than in the mainland deciduous ones. Differences in the feeding ecology of tits between the two habitats are discussed in the light of the evergreen habit, which means that only 30% of leaves are available for phyllophagous insects instead of 100% in deciduous trees. the combination of a late and low food supply in evergreen trees is the best explanation for the differences in breeding traits betwen the two populations.

Key words

Blue tit Diet Feeding frequency Breeding traits Evergreen habit 


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  1. Ankney CD, MacInnes CD (1978) Nutrient reserves and reproductive performance of female Lesser Snow Geese. Auk 95:459–471Google Scholar
  2. Arcese P, Smith JNM (1988) Effects of population density and supplemental food on reproduction in song sparrows. J Anim Ecol 57:119–136Google Scholar
  3. Balen JH van (1973) A comparative study of the breeding ecology of the Great Tit (Parus major) in different habitats. Ardea 61:1–93Google Scholar
  4. Betts MM (1955) The food of titmice in oak woodlands. J Anim Ecol 24:282–323Google Scholar
  5. Blondel J (1985) Breeding strategies of the Blue Tit and the Coal Tit (Parus) in mainland and island Mediterranean habitats: a comparison. J Anim Ecol 54:531–556Google Scholar
  6. Biondel J, Clamens A, Cramm P, Gaubert H, Isenmann P (1987) Population studies of tits in the Mediterranean region. Ardea 75:21–34Google Scholar
  7. Blondel J, Isenmann P, Maistre M, Perret P (in press). What are the consequences of being a Downy Oak (Quercus pubescens) or a Holm Oak (Q. ilex) for breeding birds? Vegetatio, in pressGoogle Scholar
  8. Cowie RJ, Hinsley SA (1988) Feeding ecology of Great Tits (Parus major) and Blue Tits (Parus caeruleus), breeding in suburban gardens. J Anim Ecol 57:611–626Google Scholar
  9. Cramm P (1982) La reproduction des Mésanged dans une chênaie verte du Languedoc. L'Oiseau 52:347–360Google Scholar
  10. Dajoz R (1980) Ecologie des insectes forestiers. Gauthier-Villars, ParisGoogle Scholar
  11. Drent RH, Daan S (1980) The prudent parent: energetic adjustments in avian breeding. Ardea 68:225–252Google Scholar
  12. Du Merle P, Mazet R (1983) Stages phénologiques et infestation par Tortrix viridana L. (Lep. Tortricidae) des bourgeons du chêne pubescent et du chêne vert. Acta Oecol/Oecol Appl 4:47–53Google Scholar
  13. Edney EB (1977) Water balance in land arthropods. Springer, Berlin Heidelberg New YorkGoogle Scholar
  14. Favard P (1962) Contribution à l'étude de la faune entomologique du Chêne vert en Provence. Thèse, Univ. Aix-MarseilleGoogle Scholar
  15. Feeny PP (1970) Seasonal changes in oak leaf tannins and nutrients as a cause of spring feeding by winter moth caterpillars. Ecology 51:565–581Google Scholar
  16. Floret C, Galan MJ, Le Floc'h E, Leprince F, Romane F (1989) Plant Pheno-morphological Studies in Mediterranean Type Ecosystems. In: Orshan G (ed) Kluwer Academic Publ., Dordrecht pp 9–97Google Scholar
  17. Gibb JA (1950) The breeding biology of the Great and Blue Titmice. Ibis 92:507–539Google Scholar
  18. Gibb JA (1954) Feeding ecology of tits, with notes on Treecreeper and Goldcrest. Ibis 96:513–543Google Scholar
  19. Gibb JA (1955) Feeding rates of Great Tits. Brit Birds 48:49–58Google Scholar
  20. Gibb JA (1960) Populations of tits and golderests and their food supply in pine plantations. Ibis 102:163–208Google Scholar
  21. Gibb JA, betts MM (1963) Food and food supply of nestling tits in Breckland pine. J Anim Ecol 32:489–533Google Scholar
  22. Haartman L von (1971) Population dynamics. In: Farner DS, King JR (eds) Avian biology, vol. I. Academic Press, New York, London, pp 391–459Google Scholar
  23. Hartley PHT (1953) An ecological study of the feeding habits of the English titmice. J Anim Ecol 22:263–288Google Scholar
  24. Isenmann P (1987) Geographical variation in clutch-size: the example of the Blue Tit (Parus caeruleus) in the Mediterranean area. Die Vogelwarte 34:93–99Google Scholar
  25. Jones PJ, Ward P (1976) The level of reserve protein as the proximate factor controlling the timing and clutch size in the Red-billed Quelea Quelea quelea. Ibis 118:547–574Google Scholar
  26. Kluyver HN (1950) Daily routines of the Great Tit, Parus m. major L. Ardea 38:99–135Google Scholar
  27. Kluyver HN (1951) The population ecology of the Great Tit, Parus m. major L. Ardea 39:1–135Google Scholar
  28. Lack D (1950) The breeding seasons of European birds. Ibis 92:288–316Google Scholar
  29. Martin TE (1987) Food as a limit on breeding birds: a life-history perspective. Annu Rev Ecol Syst 18:453–487Google Scholar
  30. Mertens JAL (1969) The influence of brood size on the energy metabolism and water loss of nestling Great Tits Parus major major. Ibis 111:11–16Google Scholar
  31. Mertens JAL (1977) Thermal conditions for successful breeding in Great Tits (Parus major L.), I. Relation of growth and development of temperature regulation in nesting Great Tits. Oecologia 28:1–29Google Scholar
  32. Mertens JAL (1988) Water balance of Blue Tits (Parus caeruleus) in Corsica. Institute for Ecological Research, Progress Report 1987, 13–18Google Scholar
  33. Minot EO (1981) Effects of interspecific competition for food in breeding blue tits (Parus caeruleus) and great tits (Parus major). J Anim Ecol 50:375–386Google Scholar
  34. Owen DF (1977) Latitudinal gradients of clutch size: an extension of David Lack's theory. In Stonehouse B, Perrins CM (eds) Evolutionary Ecology. Macmillan, London pp 170–180Google Scholar
  35. Partridge L (1974) Habitat selection in Titmice. Nature 247:573–574Google Scholar
  36. Perrins CM (1965) Population fluctuations and clutch-size in the Great tit (Parus major). J Anim Ecol 34:601–647Google Scholar
  37. Perrins CM (1970) The timing of birds'breeding seasons. Ibis 112:242–255Google Scholar
  38. Perrins CM, McCleery RH (1989) Laying dates and clutch size in the Great Tit. Wils Bull 1091:236–253Google Scholar
  39. Rabenold KN (1978) Foraging strategies, diversity, and seasonality in bird communities of Appalachian Spruce-Fir forests. Ecol Monogr 48:397–424Google Scholar
  40. Royama T (1966) Factors governing feeding rate, food requirement and brood-size of nestling Great Tits Parus major. Ibis 108:313–347Google Scholar
  41. Royama T (1970) Factors governing the hunting behaviour and selection of food by the Great tit (Parus major L.). J Anim Ecol 39:619–668Google Scholar
  42. Tinbergen L (1960) The natural control of insects in pinewoods. I. Factors influencing the intensity of predation by songbirds. Arch Néerl Zool 13:265–336Google Scholar
  43. Török J (1986) Food segregation in three hole-nesting bird species during the breeding season. Ardea 74:129–136Google Scholar
  44. Varley GC (1967) The effects of grazing by animals on plant productivity. In Petrusewicz K (ed) Secondary Production of Terrestrial Ecosystems, PWN-Polish Scientific Publishers, Warsaw, pp 773–777Google Scholar
  45. Zandt H, Strijkstra A, Blondel J, Balen H van (1990) Food in two Mediterranean Blue Tit populations: Do differences in caterpillar availability explain differences in timing of the breeding season? In: Blondel J, Gosler A, Lebreton JD, McCleery R (eds) Population biology of passerine birds, An integrated approach. NATO ASI Series G, vol 24, Springer, Berlin Heidelberg pp 145–155Google Scholar

Copyright information

© Springer-Verlag 1991

Authors and Affiliations

  • Jacques Blondel
    • 1
  • Alain Dervieux
    • 1
  • Marie Maistre
    • 1
  • Philippe Perret
    • 1
  1. 1.Centre Louis EmbergerCNRSMontpellier cedexFrance

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