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Understanding the mechanisms that drive spatial pattern change over space and time is a central goal of landscape ecology, but these patterns are often complex. Multifractals, an extension of the concept of fractal geometry, is especially suited to the description of complex pattern. In our paper, we examine the scaling properties of forest spatial pattern over 32years of forest expansion in a warm...
Quantifying patterns of great spatial and temporal complexities are a daunting task for landscape ecologists. Multifractals, with which more detailed information can be obtained from a distribution than mono-fractal does, is especially suited to the description of complex patterns. In our paper, three sites (256×256 cells per site, 100m per cell) from the upper, middle and lower reaches of Yanhe watershed...
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