Abstract
Community compensatory trend (CCT) is thought to facilitate persistence of rare species and thus stabilize species composition in tropical forests. However, whether CCT acts over broad geographical ranges is still in question. In this study, we tested for the presence of negative density dependence (NDD) and CCT in three forests along a tropical-temperate gradient. Inventory data were collected from forest communities located in three different latitudinal zones in China. Two widely used methods were used to test for NDD at the community level. The first method considered relationships between the relative abundance ratio and adult abundance. The second method emphasized the effect of adult abundance on abundance of established younger trees. Evidence for NDD acting on different growth forms was tested by using the first method, and the presence of CCT was tested by checking whether adult abundance of rare species affected that of established younger trees less than did abundance of common species. Both analyses indicated that NDD existed in seedling, sapling and pole stages in all three plant communities and that this effect increased with latitude. However, the extent of NDD varied among understory, midstory and canopy trees in the three communities along the gradient. Additionally, despite evidence of NDD for almost all common species, only a portion of rare species showed NDD, supporting the action of CCT in all three communities. So, we conclude that NDD and CCT prevail in the three recruitment stages of the tree communities studied; rare species achieve relative advantage through CCT and thus persist in these communities; CCT clearly facilitates newly established species and maintains tree diversity within communities across our latitudinal gradient.
Highlights
Persistence of rare species in a community is intriguing
Individuals Enumerated and Data Used At the Tropical Site, we counted 1,930 seedlings belonging to 115 species in the 600 seedling plots and 15,099 trees (DBH$1 cm) belonging to 210 species in the 3-ha plot
Density Dependence Test The log relative abundance ratio was negatively correlated with log adult abundance across all three life stages in all three of the forest communities (Figure 2)
Summary
Persistence of rare species in a community is intriguing. Compared with common species, rare species usually show low levels of self-compatibility, low overall reproductive effort and poor dispersal ability [1]. Mechanisms that compensate for the disadvantages faced by rare species in competition with more common species could facilitate their persistence. Some studies have postulated that compensatory mechanisms might be driven by density-dependent death rates [7,8,9]. These mechanisms could be general and have been termed ‘community compensatory trend (CCT)’ [4,10,11]. Most researchers consider CCT as a process that confers advantage to rare species as a result of increased density dependent mortality with increasing abundance. At the community level, a negative relationship between species population growth rates and abundance of the populations would indicate the existence of CCT
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