Abstract
The distribution of plant species diversity has long been a major focus on biogeography. Yet, the universality of the popular Rapoport’s rule remains controversial for endemic plants, as previous studies have focused more on broad-ranged species. Here, we collected data for 4418 endemic woody seed plant species across China, including trees, shrubs, and lianas, to explore the latitudinal patterns of species range size and richness, and test the relevant biogeographic law. The species range size distribution was examined for conformity with Rapoport’s rule using four methods (i.e., Steven’s, Pagel’s, the mid-point, and the across-species method). Spatial patterns of species richness along latitudinal gradient were also investigated by parabolic regression. Results showed that species range size increased with latitude for all species as well as by trees, shrubs and lianas, especially assessed by Pagel’s method. Species richness was highest at low latitude, where species range size was smallest, and decreased with increasing latitude. The species range size and richness of shrubs were maximum, followed by trees then lianas. These findings prove that Rapoport’s rule is strongly supported by latitudinal patterns of species distribution in Chinese endemic woody seed plants.
Highlights
Understanding biodiversity patterns has long been a key goal in the fields of biogeography and ecology [1,2,3]
Our results revealed that Chinese endemic woody seed plants provided support for the Rapoport’s rule as species range size increased with latitude, in particular, assessed by Pagel’s method
Our results showed that the species richness of Chinese endemic woody seed plants was highest in the tropics and decreased gradually with increased latitude
Summary
Understanding biodiversity patterns has long been a key goal in the fields of biogeography and ecology [1,2,3]. Species range size and richness are two important biodiversity indicators [4,5,6]. Variation in either species range size or richness along geographical gradients can reflect the ecological adaptability, dispersal capability and evolutionary history of the tested species [7,8]. With the increasing availability of large-scale maps of species distributions, considerable progress has been made in describing continental and global patterns for species including animals, plants and microorganisms with broad geographic ranges [9,10,11]. The spatial patterns described by species with restricted ranges have received relatively little attention. The spatial shifts of plant distribution on latitudinal
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