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References

  • van Balen, J.H. (1973) A comparative study of the breeding ecology of the great tit Parus major in different habitats. Ardea, 61, 193.
  • van Balen, J.H. (1980) Population fluctuations of the Great Tit and feeding conditions in winter. Ardea, 68, 143164.
  • Bell, G. (2010) Fluctuating selection: the perpetual renewal of adaptation in variable environments. Philosophical Transactions of the Royal Society B-Biological Sciences, 365, 8797.
  • Both, C. (2010) Food availability, mistiming, and climatic change. Effects of Climate Change on Birds (eds A.P. Moller, W. Fiedler & P. Berthold). Oxford University Press, Oxford.
  • Both, C., Visser, M.E. & Verboven, N. (1999) Density-dependent recruitment rates in great tits: the importance of being heavier. Proceedings of the Royal Society of London Series B-Biological Sciences, 266, 465469.
  • Both, C., Bouwhuis, S., Lessells, C.M. & Visser, M.E. (2006) Climate change and population declines in a long-distance migratory bird. Nature, 441, 8183.
  • Both, C., Van Turnhout, C.A.M., Bijlsma, R.G., Siepel, H., Van Strien, A.J. & Foppen, R.P.B. (2010) Avian population consequences of climate change are most severe for long-distance migrants in seasonal habitats. Proceedings of the Royal Society B: Biological Sciences, 277, 12591266.
  • Charlesworth, B. (1971) Selection in density-regulated populations. Ecology, 52, 469.
  • Charlesworth, B. (1994) Evolution in Age-structured Populations. Cambridge University Press, New York.
  • Charmantier, A., McCleery, R.H., Cole, L.R., Perrins, C., Kruuk, L.E.B. & Sheldon, B.C. (2008) Adaptive phenotypic plasticity in response to climate change in a wild bird population. Science, 320, 800803.
  • Clobert, J., Perrins, C.M., McCleery, R.H. & Gosler, A.G. (1988) Survival rate in the great tit Parus major L. in relation to sex, age, and immigration status. Journal of Animal Ecology, 57, 287306.
  • Clutton-Brock, T. (1998) Reproductive Success: Studies of Invididual Variation in Contrasting Breeding Systems. University of Chicago Press, Chicago.
  • Coulson, T., Tuljapurkar, S. & Childs, D.Z. (2010) Using evolutionary demography to link life history theory, quantitative genetics and population ecology. Journal of Animal Ecology, 79, 12261240.
  • Coulson, T., Catchpole, E.A., Albon, S.D., Morgan, B.J.T., Pemberton, J.M., Clutton-Brock, T.H., Crawley, M.J. & Grenfell, B.T. (2001) Age, sex, density, winter weather, and population crashes in Soay sheep. Science, 292, 15281531.
  • Dhondt, A.A., Kempenaers, B. & Adriaensen, F. (1992) Density-dependent clutch size caused by habitat heterogeneity. Journal of Animal Ecology, 61, 643648.
  • Drever, M.C. & Clark, R.G. (2007) Spring temperature, clutch initiation date and duck nest success: a test of the mismatch hypothesis. Journal of Animal Ecology, 76, 139148.
  • Dunn, P.O., Winkler, D.W., Whittingham, L.A., Hannon, S.J. & Robertson, R.J. (2011) A test of the mismatch hypothesis: How is timing of reproduction related to food abundance in an aerial insectivore? Ecology, 92, 450461.
  • Eeva, T., Veistola, S. & Lehikoinen, E. (2000) Timing of breeding in subarctic passerines in relation to food availability. Canadian Journal of Zoology, 78, 6778.
  • Endler, J.A. (1986) Natural Selection in the Wild. Princeton University Press, Princeton, NJ.
  • Gebhardt-Henrich, S. (1990) Temporal and spatial variation in food availability and its effect on fledgling size in the great tit. Population Biology of Passerine Birds (eds J. Blondel, A. Gosler, J.-D. Lebreton & R.H. McCleery), pp. 175186. Springer, Berlin, Heidelberg, New york.
  • Gienapp, P., Postma, E. & Visser, M.E. (2006) Why breeding time has not responded to selection for earlier breeding in a songbird population. Evolution, 60, 23812388.
  • Grøtan, V., Saether, B.E., Engen, S., van Balen, J.H., Perdeck, A.C. & Visser, M.E. (2009) Spatial and temporal variation in the relative contribution of density dependence, climate variation and migration to fluctuations in the size of great tit populations. Journal of Animal Ecology, 78, 447459.
  • Harvey, P.H., Greenwood, P.J., Perrins, C.M. & Martin, A.R. (1979) Breeding success of great tits (Parus major) in relation to age of male and female parent. Ibis, 121, 216219.
  • Heard, M.J., Riskin, S.H. & Flight, P.A. (2012) Identifying potential evolutionary consequences of climate-driven phenological shifts. Evolutionary Ecology, 26, 465473.
  • Husby, A., Kruuk, L.E.B. & Visser, M.E. (2009) Decline in the frequency and benefits of multiple brooding in great tits as a consequence of a changing environment. Proceedings of the Royal Society B-Biological Sciences, 276, 18451854.
  • Jarvinen, A. (1991) A meta-analytic study of the effects of female age on laying date and clutch size in the great tit (Parus major) and the pied flycatcher (Ficedula hypoleuca). Ibis, 133, 6266.
  • Jenouvrier, S., Barbraud, C. & Weimerskirch, H. (2006) Sea ice affects the population dynamics of Adelie penguins in Terre Adelie. Polar Biology, 29, 413423.
  • Jenouvrier, S. & Visser, M.E. (2011) Climate change, phenological shifts, eco-evolutionary responses and population viability: toward a unifying predictive approach. International Journal of Biometeorology, 55, 905919.
  • Jenouvrier, S., Holland, M., Stroeve, J., Barbraud, C., Weimerskirch, H., Serreze, M. & Caswell, H. (2012) Effects of climate change on an emperor penguin population: analysis of coupled demographic and climate models. Global Change Biology, doi: 10.1111/j.1365-2486.2012.02744.x.
  • Jones, T. & Cresswell, W. (2010) The phenology mismatch hypothesis: are declines of migrant birds linked to uneven global climate change? Journal of Animal Ecology, 79, 98108.
  • Keller, L.F. & van Noordwijk, A.J. (1994) Effects of local environmental conditions on nestling growth in the great tit (Parus major L.). Ardea, 82, 349362.
  • Kingsolver, J.G., Hoekstra, H.E., Hoekstra, J.M., Berrigan, D., Vignieri, S.N., Hill, C.E., Hoang, A., Gibert, P. & Beerli, P. (2001) The strength of phenotypic selection in natural populations. American Naturalist, 157, 245261.
  • Kinnison, M.T. & Hairston, N.G. (2007) Eco-evolutionary conservation biology: contemporary evolution and the dynamics of persistence. Functional Ecology, 21, 444454.
  • Kluijver, H.N. (1951) The population ecology of the Great Tit, Parus m. major L.. Ardea, 3, 9.
  • Kokko, H. & Lopez-Sepulcre, A. (2007) The ecogenetic link between demography and evolution: can we bridge the gap between theory and data? Ecology Letters, 10, 773782.
  • Lande, R. & Arnold, S.J. (1983) The measurement of selection on correlated characters. Evolution, 37, 12101226.
  • Lande, R., Engen, S. & Saether, B.-E. (2003) Stochastic Population Dynamics in Ecology and Conservation. Oxford University Press, Oxford.
  • Leech, D.I. & Crick, H.Q.P. (2007) Influence of climate change on the abundance, distribution and phenology of woodland bird species in temperate regions. Ibis, 149, 128145.
  • Lof, M.E., Reed, T.E., McNamara, J.M. & Visser, M.E. (2012) Timing in a fluctuating environment: environmental variability and asymmetric fitness curves can lead to adaptively mismatched avian reproduction. Proceedings of the Royal Society B: Biological Sciences 279, 31613169.
  • Malcolm, J.R., Liu, C.R., Neilson, R.P., Hansen, L. & Hannah, L. (2006) Global warming and extinctions of endemic species from biodiversity hotspots. Conservation Biology, 20, 538548.
  • Metcalf, C.J.E. & Pavard, S. (2007) Why evolutionary biologists should be demographers. Trends in Ecology & Evolution, 22, 205212.
  • Miller-Rushing, A.J., Hoye, T.T., Inouye, D.W. & Post, E. (2010) The effects of phenological mismatches on demography. Philosophical Transactions of the Royal Society B-Biological Sciences, 365, 31773186.
  • Mols, C.M.M., van Noordwijk, A.J. & Visser, M.E. (2005) Assessing the reduction of caterpillar numbers by Great Tits Parus major breeding in apple orchards. Ardea, 93, 259269.
  • Morrisey, M.B. & Hadfield, J.D. (2012) Directional selection in temporally replicated studies is remarkably consistent. Evolution, 66, 435442.
  • Naef-Daenzer, L., Naef-Daenzer, B. & Nager, R.G. (2000) Prey selection and foraging performance of breeding Great Tits Parus major in relation to food availability. Journal of Avian Biology, 31, 206214.
  • van Noordwijk, A.J., McCleery, R.H. & Perrins, C.M. (1995) Selection for the timing of great tit breeding in relation to caterpillar growth and temperature. Journal of Animal Ecology, 64, 451458.
  • Nussey, D.H., Postma, E., Gienapp, P. & Visser, M.E. (2005) Selection on heritable phenotypic plasticity in a wild bird population. Science, 310, 304306.
  • Parmesan, C. & Yohe, G. (2003) A globally coherent fingerprint of climate change impacts across natural systems. Nature, 421, 3742.
  • Perdeck, A.C., Visser, M.E. & Van Balen, J.H. (2000) Great Tit Parus major survival, and the beech-crop cycle. Ardea, 88, 99108.
  • Perrins, C.M. (1965) Population fluctuations and clutch size in the great tit Parus major L. Journal of Animal Ecology, 34, 601647.
  • Perrins, C. (1970) The timing of birds' breeding seasons. Ibis, 112, 242255.
  • Perrins, C.M. & Moss, D. (1974) Survival of young great tits in relation to age of female parent. Ibis, 116, 220224.
  • van de Pol, M.V. & Wright, J. (2009) A simple method for distinguishing within- versus between-subject effects using mixed models. Animal Behaviour, 77, 753758.
  • Reed, T.E., Schindler, D.E. & Waples, R.S. (2010) Interacting effects of phenotypic plasticity and evolution on population persistence in a changing climate. Conservation Biology, 25, 5663.
  • Robinson, W.S. (1950) “Ecological correlations and the behavior of individuals”. American Sociological Review, 15, 351357.
  • Root, T.L., Price, J.T., Hall, K.R., Schneider, S.H., Rosenzweig, C. & Pounds, J.A. (2003) Fingerprints of global warming on wild animals and plants. Nature, 421, 5760.
  • Royama, T. (1966) Factors governing feeding rate, food requirement and brood size of nestling Great Tits Parus major. Ibis, 108, 313.
  • Saccheri, I. & Hanski, I. (2006) Natural selection and population dynamics. Trends in Ecology & Evolution, 21, 341347.
  • Saether, B.E., Sutherland, W.J. & Engen, S. (2004) Climate influences on avian population dynamics. Birds and Climate Change (eds A.P. Moller, W. Fielder & P. Berthold), pp. 185209. Elsevier, Oxford.
  • Saether, B.E., Engen, S., Islam, A., McCleery, R. & Perrins, C. (1998) Environmental stochasticity and extinction risk in a population of a small songbird, the great tit. American Naturalist, 151, 441450.
  • Saether, B.E., Tufto, J., Engen, S., Jerstad, K., Rostad, O.W. & Skatan, J.E. (2000) Population dynamical consequences of climate change for a small temperate songbird. Science, 287, 854856.
  • Schaper, S.V., Dawson, A., Sharp, P.J., Gienapp, P., Caro, S.P. & Visser, M.E. (2012) Increasing temperature, not mean temperature, is a cue for avian timing of reproduction. American Naturalist, 179, E55E69.
  • Shultz, M.T., Piatt, J.F., Harding, A., Kettle, A.B. & Van Pelt, T.I. (2009) Timing of breeding and reproductive performance in murres and kittiwakes reflect mismatched seasonal prey dynamics. Marine Ecology Progress Series, 393, 247258.
  • Siepielski, A.M., DiBattista, J.D. & Carlson, S.M. (2009) It's about time: the temporal dynamics of phenotypic selection in the wild. Ecology Letters, 12, 12611276.
  • Stinchcombe, J.R., Agrawal, A.F., Hohenlohe, P.A., Arnold, S.J. & Blows, M.W. (2008) Estimating nonlinear selection gradients using quadratic regression coefficients: Double or nothing? Evolution, 62, 24352440.
  • Thackeray, S.J., Sparks, T.H., Frederiksen, M., Burthe, S., Bacon, P.J., Bell, J.R., Botham, M.S., Brereton, T.M., Bright, P.W., Carvalho, L., Clutton-Brock, T., Dawson, A., Edwards, M., Elliott, J.M., Harrington, R., Johns, D., Jones, I.D., Jones, J.T., Leech, D.I., Roy, D.B., Scott, W.A., Smith, M., Smithers, R.J., Winfield, I.J. & Wanless, S. (2010) Trophic level asynchrony in rates of phenological change for marine, freshwater and terrestrial environments. Global Change Biology, 16, 33043313.
  • Thomas, C.D., Cameron, A., Green, R.E., Bakkenes, M., Beaumont, L.J., Collingham, Y.C., Erasmus, B.F.N., de Siqueira, M.F., Grainger, A., Hannah, L., Hughes, L., Huntley, B., van Jaarsveld, A.S., Midgley, G.F., Miles, L., Ortega-Huerta, M.A., Peterson, A.T., Phillips, O.L. & Williams, S.E. (2004) Extinction risk from climate change. Nature, 427, 145148.
  • Vatka, E., Orell, M. & Rytkönen, S. (2011) Warming climate advances breeding and improves synchrony of food demand and food availability in a boreal passerine. Global Change Biology, 17, 30023009.
  • Verboven, N., Tinbergen, J.M. & Verhulst, S. (2001) Food, reproductive success and multiple breeding in the Great Tit Parus major. Ardea, 89, 387406.
  • Verboven, N. & Visser, M.E. (1998) Seasonal variation in local recruitment of great tits: the importance of being early. Oikos, 81, 511524.
  • Visser, M.E. (2008) Keeping up with a warming world; assessing the rate of adaptation to climate change. Proceedings of the Royal Society B-Biological Sciences, 275, 649659.
  • Visser, M.E. & Both, C. (2005) Shifts in phenology due to global climate change: the need for a yardstick. Proceedings of the Royal Society B-Biological Sciences, 272, 25612569.
  • Visser, M.E., Both, C. & Lambrechts, M.M. (2004) Global climate change leads to mistimed avian reproduction. Advances in Ecological Research, 35, 89110.
  • Visser, M.E., Holleman, L.J.M. & Caro, S.P. (2009) Temperature has a causal effect on avian timing of reproduction. Proceedings of the Royal Society B-Biological Sciences, 276, 23232331.
  • Visser, M.E., Holleman, L.J.M. & Gienapp, P. (2006) Shifts in caterpillar biomass phenology due to climate change and its impact on the breeding biology of an insectivorous bird. Oecologia, 147, 164172.
  • Visser, M.E. & Lessells, C.M. (2001) The costs of egg production and incubation in great tits (Parus major). Proceedings of the Royal Society of London Series B-Biological Sciences, 268, 12711277.
  • Visser, M.E., te Marvelde, L. & Lof, M.E. (2011) Adaptive phenological mismatches of birds and their food in a warming world. Journal of Ornithology, DOI: 10.1007/s10336-011-0770-6.
  • Visser, M.E., van Noordwijk, A.J., Tinbergen, J.M. & Lessells, C.M. (1998) Warmer springs lead to mistimed reproduction in great tits (Parus major). Proceedings of the Royal Society of London Series B-Biological Sciences, 265, 18671870.
  • Visser, M.E., Adriaensen, F., van Balen, J.H., Blondel, J., Dhondt, A.A., van Dongen, S., du Feu, C., Ivankina, E.V., Kerimov, A.B., de Laet, J., Matthysen, E., McCleery, R., Orell, M. & Thomson, D.L. (2003) Variable responses to large-scale climate change in European Parus populations. Proceedings of the Royal Society of London Series B-Biological Sciences, 270, 367372.
  • Wilkin, T.A., King, L.E. & Sheldon, B.C. (2009) Habitat quality, nestling diet, and provisioning behaviour in great tits Parus major. Journal of Avian Biology, 40, 135145.