Abiotic Drivers of Seedling Bank Diversity in Subtropical Forests of Southern China

Francesco Martini,Xiaoyang Song,Uromi Manage Goodale,Chaobo Zou

doi:10.3389/fevo.2021.784036

Francesco Martini, Xiaoyang Song + Show 2 more

Open Access

https://doi.org/10.3389/fevo.2021.784036

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Abstract

Abiotic factors are important to shape plant community composition and diversity through processes described as environmental filtering. Most studies on plant diversity in forests focus on adult trees, while the abiotic drivers of forest seedling community characteristics are less understood. Here, we studied seedling banks’ composition, richness, diversity, and abundance, and investigated their relationships with microsite abiotic conditions along a wide elevational gradient. We sampled seedling communities in 312 1-m2 quadrats, distributed in 13 one-ha plots in four subtropical forests in south China, covering an elevation gradient of 1500 m, for 2 years. We measured light availability, slope, and 11 soil nutrients for each seedling quadrat. We used analysis of similarities and multivariate analysis of variance to compare the composition and abiotic drivers of the four forests’ seedling communities. We then used mixed models and structural equation modeling to test the direct and indirect effects of abiotic factors on seedling species richness, diversity, and abundance. The differences in seedling community composition among these forests were mostly explained by differences in elevations and soil nutrients. Seedling diversity as Shannon and Simpson diversity index decreased with increasing elevation and increased with increasing slope, but seedling abundance and species richness did not. Elevation had an indirect effect on Simpson’s diversity index through modulating the direct effects of soil properties. Our findings show that soil properties play a prominent role in favoring differentiation in species composition among the four forests we studied and provide additional evidence to decreasing species diversity with elevation. However, this was reflected in decreasing Shannon and Simpson indices rather than species richness, which is more commonly studied. Whether and to what extent future environmental changes in climate and soil acidification will alter future forest composition and diversity needs to be investigated.

Highlights

An important goal in plant community ecology is to understand what factors drive species composition and the diversity of communities
We investigated the relationship between several abiotic factors and seedling community characteristics, measured as seedling species composition, abundance, species richness, and diversity
The models performed well, all variance inflation factor (VIF) were < 2.5 (Supplementary Table 3) which we considered sufficiently low slightly higher than what recommended by some authors (Zuur et al, 2010), and we did not detect any sign of spatial autocorrelation

Summary

Introduction

An important goal in plant community ecology is to understand what factors drive species composition and the diversity of communities. The first mostly concerns the effects of species pool, dispersal and the interactions with neighboring plants and natural enemies, while the second studies the abiotic environment that critically contributes to form and maintain plant communities through processes described as environmental filtering (Kraft et al, 2015). These two groups of mechanisms are not mutually exclusive, but act in combination to form and maintain plant communities (Myers and Harms, 2009). This hypothesis mostly applies to younger life stages such as the seed-to-seedling transition, and its strength is debated, it is widely considered a relevant mechanism to explain species coexistence (Song et al, 2020; Hülsmann et al, 2021; LaManna et al, 2021)

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