Studies of spatial patterns of landscapes are useful to quantify human impact, predict wildlife effects, or describe variability of landscape features. A common approach to identify and quantify landscape structure is with a landscape scale model known as a contagion index. A contagion index quantifies two distinct components of landscape diversity: composition and configuration. Some landscape ecologists promote the use of relative contagion indices. It is demonstrated that relativized contagion indices are mathematically untenable. Two new theoretical contagion indices, Gamma(1) and Gamma(2), are derived using a mean value approach (i.e., statistical expected value) instead of entropy. Behavior of Gamma(1) and Gamma(2) was investigated with simulated random, uniform, and aggregated landscapes. They are shown to be well-behaved and sensitive to composition and configuration. Distributional properties of (Gamma) over cap (1) and (Gamma) over cap (2) are derived. They are shown to be asymptotically unbiased, consistent, and asymptotically normally distributed. Variance formulas for (Gamma) over cap (1) and (Gamma) over cap (2) are developed using the delta method. The new index models are used to examine landscape diversity on three physiographic provinces in Alabama by analyzing the pattern and changes in forest cover types over the recent past. In comparing (Gamma) over cap (1) and (Gamma) over cap (2), use of (Gamma) over cap (1) in analysis of variance gave a more conservative test of contagion.

• 出版日期2011-2