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Performance of tree phenology models along a bioclimatic gradient in Sweden

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  • Olsson, Cecilia
  • Bolmgren, Kjell
  • Lindström, Johan
  • Jönsson, Anna Maria

Abstract

Tree phenology has been recognized as an important indicator of climate change, and a wide range of budburst models have been developed. The models differ in temperature sensitivity, and the choice of model can therefore influence the result of climate impact assessments. In this study we compared the ability of 15 models to simulate budburst of the main forest tree species in Sweden. Records on the timing of budburst, available for 1873–1918 and 1966–2011, were used for model evaluation. The predefined models, having different chilling, competence and forcing modules, represented different hypothesis on temperature impact on tree phenology. We extracted the model-specific forcing units accumulated by the observed day of budburst, and tested for covariation with bio-climatic gradients. For all tree species, most models indicated a negative relation between forcing requirement and latitude, which may indicate provenance specific adaptations. The thermal continentality index, which in Sweden is highly correlated with latitude, did provide some additional explanation for the period of 1873–1918 but not for the period of 1966–2011. For most model- and tree species combinations, temperature anomalies explain a significant part of the variability in forcing units accumulated at day of budburst. This indicates that the budburst models were not able to fully track the response to inter-annual variations in temperature conditions, probably due to difficulties in capturing species and provenance specific chilling requirement, day length response and impact of spring backlashes.

Suggested Citation

  • Olsson, Cecilia & Bolmgren, Kjell & Lindström, Johan & Jönsson, Anna Maria, 2013. "Performance of tree phenology models along a bioclimatic gradient in Sweden," Ecological Modelling, Elsevier, vol. 266(C), pages 103-117.
    • Handle: RePEc:eee:ecomod:v:266:y:2013:i:c:p:103-117
    DOI: 10.1016/j.ecolmodel.2013.06.026
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    References listed on IDEAS

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    1. E. M. Wolkovich & B. I. Cook & J. M. Allen & T. M. Crimmins & J. L. Betancourt & S. E. Travers & S. Pau & J. Regetz & T. J. Davies & N. J. B. Kraft & T. R. Ault & K. Bolmgren & S. J. Mazer & G. J. McC, 2012. "Warming experiments underpredict plant phenological responses to climate change," Nature, Nature, vol. 485(7399), pages 494-497, May.
    2. Annette Menzel & Peter Fabian, 1999. "Growing season extended in Europe," Nature, Nature, vol. 397(6721), pages 659-659, February.
    3. Rammig, A. & Jönsson, A.M. & Hickler, T. & Smith, B. & Bärring, L. & Sykes, M.T., 2010. "Impacts of changing frost regimes on Swedish forests: Incorporating cold hardiness in a regional ecosystem model," Ecological Modelling, Elsevier, vol. 221(2), pages 303-313.
    4. Fu, Yongshuo H. & Campioli, Matteo & Van Oijen, Marcel & Deckmyn, Gaby & Janssens, Ivan A., 2012. "Bayesian comparison of six different temperature-based budburst models for four temperate tree species," Ecological Modelling, Elsevier, vol. 230(C), pages 92-100.
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    1. Olsson, Cecilia & Jönsson, Anna Maria, 2015. "A model framework for tree leaf colouring in Europe," Ecological Modelling, Elsevier, vol. 316(C), pages 41-51.
    2. Bregaglio, Simone & Orlando, Francesca & Forni, Emanuela & De Gregorio, Tommaso & Falzoi, Simone & Boni, Chiara & Pisetta, Michele & Confalonieri, Roberto, 2016. "Development and evaluation of new modelling solutions to simulate hazelnut (Corylus avellana L.) growth and development," Ecological Modelling, Elsevier, vol. 329(C), pages 86-99.

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