Facilitation influences patterns of perennial species abundance and richness in a subtropical dune system.

Cecilia E S Dalotto,Rafael B Sühs,Nivaldo Peroni,Tânia T Castellani,Michele S Dechoum,Francisco I Pugnaire

doi:10.1093/aobpla/ply017

Cecilia E S Dalotto, Rafael B Sühs + Show 4 more

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https://doi.org/10.1093/aobpla/ply017

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Abstract

Positive interactions in plant communities are under-reported in subtropical systems most likely because they are not identified as stressful environments. However, environmental factors or disturbance can limit plant growth in any system and lead to stressful conditions. For instance, salinity and low nutrient and water availability generate a gradient of stressful conditions in coastal systems depending on distance to shore. In a tropical coastal system in SE Brazil, we aimed to assess whether Guapira opposita, a shrub common in restinga environments, acted as nurse involved in ecological succession and which factors influenced its facilitation process. We sampled perennial species above 10 cm in height under the canopy of 35 G. opposita individuals and in neighbouring open areas. Shrub height, canopy area and distance to freshwater bodies were measured in the field, and distance to the ocean was obtained from aerial images. In addition, we measured the distance to the closest forest patch as a potential source of seeds. Plant abundance and species richness were higher under the canopy of G. opposita than in open areas. Facilitation by G. opposita was mainly determined by shrub height, which had a positive relationship with woody and bromeliads abundance and species richness while there was no relationship with the other factors. Overall, our data evidence that tropical environments may be highly stressful for plants and that nurse species play a key role in the regeneration of restinga environments, where their presence is critical to maintain ecosystem diversity and function.

Highlights

The process of ecological succession refers to directional changes in the composition of species and community structure over time (Clements 1916)
The 35 sampled G. opposita individuals ranged in height between 0.8 and 3 m and had a canopy area between 0.24 and 9.9 m2
Abundance and richness of woody plant and bromeliad species were higher under G. opposita canopies than in adjacent open areas (Table 1)

Summary

Introduction

The process of ecological succession refers to directional changes in the composition of species and community structure over time (Clements 1916). In a successional process guided by facilitation, some species are central to the establishment of others by improving or mitigating conditions, which allows less tolerant species to establish (Connell and Slatyer 1977). Dalotto et al – Facilitation influences abundance and richness in a subtropical dune system of succession, centred on focal individuals, is known as nucleation (Yarranton and Morrison 1974) From these nuclei, some shrub or tree species can recruit different individuals under their canopies and expand to form large patches of continuous vegetation, affecting the composition of future forests (Yarranton and Morrison 1974; Slocum 2001). In environments under high abiotic stress, such as coastal systems, nurse species allow less stress-tolerant species to become established, increasing local abundance and richness (Armas and Pugnaire 2009; Cavieres et al 2014)

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