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Components of uncertainty in species distribution analysis: a case study of the Great Grey Shrike

Författare:
  • Carsten F. Dormann
  • Oliver Purschke
  • Jaime R. Garcia Marquez
  • Sven Lautenbach
  • Boris Schroeder
Publiceringsår: 2008
Språk: Engelska
Sidor: 3371-3386
Publikation/Tidskrift/Serie: Ecology
Volym: 89
Nummer: 12
Dokumenttyp: Artikel
Förlag: Ecological Society of America

Sammanfattning

Sophisticated statistical analyses are common in ecological research, particularly in species distribution modeling. The effects of sometimes arbitrary decisions during the modeling procedure on the final outcome are difficult to assess, and to date are largely unexplored. We conducted an analysis quantifying the contribution of uncertainty in each step during the model-building sequence to variation in model validity and climate change projection uncertainty. Our study system was the distribution of the Great Grey Shrike in the German federal state of Saxony. For each of four steps (data quality, collinearity method, model type, and variable selection), we ran three different options in a factorial experiment, leading to 81 different model approaches. Each was subjected to a fivefold cross-validation, measuring area under curve (AUC) to assess model quality. Next, we used three climate change scenarios times three precipitation realizations to project future distributions from each model, yielding 729 projections. Again, we analyzed which step introduced most variability (the four model-building steps plus the two scenario steps) into predicted species prevalences by the year 2050. Predicted prevalences ranged from a factor of 0.2 to a factor of 10 of present prevalence, with the majority of predictions between 1.1 and 4.2 (inter-quartile range). We found that model type and data quality dominated this analysis. In particular, artificial neural networks yielded low cross-validation robustness and gave very conservative climate change predictions. Generalized linear and additive models were very similar in quality and predictions, and superior to neural networks. Variations in scenarios and realizations had very little effect, due to the small spatial extent of the study region and its relatively small range of climatic conditions. We conclude that, for climate projections, model type and data quality were the most influential factors. Since comparison of model types has received good coverage in the ecological literature, effects of data quality should now come under more scrutiny.

Disputation

Nyckelord

  • Biology and Life Sciences
  • Saxony
  • stepwise model selection
  • Germany
  • sequential
  • regression
  • species distribution model
  • prediction
  • GLM
  • Generalized Linear Models
  • GAM
  • Generalized Additive Models
  • data uncertainty
  • collinearity
  • climate change
  • artificial neural network
  • best subset regression

Övrigt

Published
Yes
  • ISSN: 0012-9658

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