Abstract
BackgroundTobler's first law of geography, 'Everything is related to everything else, but near things are more related than distant things' also applies to biological systems as illustrated by a general and strong occurrence of geographic distance decay in ecological community similarity. Using American palms (Arecaceae) as an example, we assess the extent to which Tobler's first law applies to species richness and species composition, two fundamental aspects of ecological community structure. To shed light on the mechanisms driving distance decays in community structure, we also quantify the relative contribution of geographic distance per se and environmental changes as drivers of spatial turnover in species richness and composition.ResultsAcross the Americas, similarity in species composition followed a negative exponential decay curve, while similarity in species richness exhibited a parabolic relationship with geographic distance. Within the four subregions geographic distance decays were observed in both species composition and richness, though the decays were less regular for species richness than for species composition. Similarity in species composition showed a faster, more consistent decay with distance than similarity in species richness, both across the Americas and within the subregions. At both spatial extents, geographic distance decay in species richness depended more on environmental distance than on geographic distance, while the opposite was true for species composition. The environmentally complex or geographically fragmented subregions exhibited stronger distance decays than the more homogenous subregions.ConclusionSimilarity in species composition exhibited a strong geographic distance decay, in agreement with Tobler's first law of geography. In contrast, similarity in species richness did not exhibit a consistent distance decay, especially not at distances >4000 kilometers. Therefore, the degree to which Tobler's first law of geography applies to community structure depends on which aspect hereof is considered – species composition or species richness. Environmentally complex or geographically fragmented regions exhibited the strongest distance decays. We conclude that Tobler's law may be most applicable when dispersal is a strong determinant of spatial turnover and less so when environmental control predominates.
Highlights
Tobler's first law of geography, 'Everything is related to everything else, but near things are more related than distant things' applies to biological systems as illustrated by a general and strong occurrence of geographic distance decay in ecological community similarity
Tobler's first law of geography, 'Everything is related to everything else, but near things are more related than distant things' [1], was first applied to urban growth systems, but it applies to biological systems as illustrated by a general occurrence of distance decays in ecological community similarity [2]
We conclude that the applicability of Tobler's first law of geography differs among different aspects of community structure, i.e., it is strongly applicable to species composition and only partially applicable to species richness
Summary
Tobler's first law of geography, 'Everything is related to everything else, but near things are more related than distant things' applies to biological systems as illustrated by a general and strong occurrence of geographic distance decay in ecological community similarity. A negative relationship is expected between community similarity and geographic distance as a consequence of environmental gradients, and due to dispersal limitation [7,8,9]. The latter notion is strongly contrasted by the view that 'everything is everywhere, but the environment selects' (Baas-Becking's or Beijerick's law), which suggests that dispersal limitation is unimportant [10,11]. The issue is controversial, [14], and other authors have emphasized the role of non-environmental range constraints [16], notably dispersal limitation [8,15]
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