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Why input matters: Selection of climate data sets for modelling the potential distribution of a treeline species in the Himalayan region

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  • Maria, Bobrowski
  • Udo, Schickhoff

Abstract

Betula utilis is a major constituent of alpine treeline ecotones in the western and central Himalayan region. The objective of this study is to analyse for the first time the performance of different climatic predictors in modelling the potential distribution of B. utilis in the subalpine and alpine belts of the Himalayan region. Using Generalized Linear Models (GLM) we aim at examining climatic factors controlling the species distribution under current climate conditions. We evaluate the predictive ability of climate data derived from different statistical methods GLMs were created using least correlated bioclimatic variables derived from two different climate data sets: 1) interpolated climate data (i.e. WORLDCLIM; Hijmans et al., 2005), and 2) quasi-mechanistical statistical downscaling (i.e. CHELSA; Karger et al., 2016). Model accuracy was evaluated using threshold-independent (Area Under the Curve) and threshold-dependent (True Skill Statistics) measures. Although there were no significant differences between the models in AUC, we found highly significant differences (p≤0.01) in TSS. We conclude that models based on variables of CHELSA climate data had higher predictive power, whereas models using WORLDCLIM climate data consistently overpredicted the potential suitable habitat for B. utilis.

Suggested Citation

  • Maria, Bobrowski & Udo, Schickhoff, 2017. "Why input matters: Selection of climate data sets for modelling the potential distribution of a treeline species in the Himalayan region," Ecological Modelling, Elsevier, vol. 359(C), pages 92-102.
    • Handle: RePEc:eee:ecomod:v:359:y:2017:i:c:p:92-102
    DOI: 10.1016/j.ecolmodel.2017.05.021
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    References listed on IDEAS

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