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Spatial scaling laws yield a synthetic theory of biodiversity

Author

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  • Mark E. Ritchie

    (Utah State University)

  • Han Olff

    (Tropical Nature Conservation and Vertebrate Ecology Group, Wageningen Agricultural University)

Abstract

Ecologists still search for common principles that predict well-known responses of biological diversity to different factors1,2,3,4. Such factors include the number of available niches in space5,6,7, productivity8,9,10, area10, species' body size11,12,13,14 and habitat fragmentation. Here we show that all these patterns can arise from simple constraints on how organisms acquire resources in space. We use spatial scaling laws to describe how species of different sizes find food in patches of varying size and resource concentration. We then derive a mathematical rule for the minimum similarity in size of species that share these resources. This packing rule yields a theory of species diversity that predicts relations between diversity and productivity more effectively thanprevious models8,9,10. Size and diversity patterns for locally coexisting East African grazing mammals and North American savanna plants strongly support these predictions. The theory also predicts relations between diversity and area and between diversity and habitat fragmentation. Thus, spatial scaling laws provide potentially unifying first principles that may explain many important patterns of species diversity.

Suggested Citation

  • Mark E. Ritchie & Han Olff, 1999. "Spatial scaling laws yield a synthetic theory of biodiversity," Nature, Nature, vol. 400(6744), pages 557-560, August.
  • Handle: RePEc:nat:nature:v:400:y:1999:i:6744:d:10.1038_23010
    DOI: 10.1038/23010
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    Cited by:

    1. Taleb, Nassim Nicholas, 2009. "Errors, robustness, and the fourth quadrant," International Journal of Forecasting, Elsevier, vol. 25(4), pages 744-759, October.
    2. Ruifrok, Jasper L. & Janzen, Thijs & Kuijper, Dries P.J. & Rietkerk, Max & Olff, Han & Smit, Christian, 2015. "Cyclical succession in grazed ecosystems: The importance of interactions between different-sized herbivores and different-sized predators," Theoretical Population Biology, Elsevier, vol. 101(C), pages 31-39.

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