期刊
OECOLOGIA
卷 199, 期 1, 页码 205-215出版社
SPRINGER
DOI: 10.1007/s00442-022-05179-8
关键词
Environmental heterogeneity; Epiphytes; Niche spaces; Neotropical forest; Plant communities
类别
资金
- Brazilian National Council for Scientific and Technological Development/CNPq [130112/2017-8]
- Coordination for the Improvement of Higher Education Personnel/CAPES (Brazil) [001]
- CNPq-PELD [403710/2012-0]
- British Natural Environment Research Council/NERC
- Sao Paulo Research Foundation/FAPESP
- ECOFOR [2012/51509-8, 2012/51872-5]
- BIOTA/FAPESP Program-The Biodiversity Virtual Institute
- CNPq
- FAPESP [2017/09052-4, 2019/08474-8]
- Royal Society
- Newton Advanced Fellowship [NAF/R2/180791]
Environmental heterogeneity is an important factor in explaining the biodiversity of tropical forests. In this study, the authors investigated the effects of epiphytic tank bromeliads on soil chemistry and seedling community structure in a Brazilian coastal sandy forest. They found that the presence of bromeliads increased nitrogen and phosphorus concentrations in the soil, altered pH and calcium levels, and reduced light availability. These changes in soil conditions indirectly affected the structure of seedling communities, decreasing their diversity, density, and biomass.
Environmental heterogeneity is a key component in explaining the megadiversity of tropical forests. Despite its importance, knowledge about local drivers of environmental heterogeneity remains a challenge for ecologists. In Neotropical forests, epiphytic tank bromeliads store large amounts of water and nutrients in the tree canopy, and their tank overflow may create nutrient-rich patches in the soil. However, the effects of this nutrient flux on environmental heterogeneity and plant community structure in the understory remain unexplored. In a Brazilian coastal sandy forest, we investigated the effects of the presence of epiphytic tank bromeliads on throughfall chemistry, soil chemistry, soil litter biomass, light, and seedling community structure. In the presence of epiphytic tank bromeliads, the throughfall nitrogen concentration increased twofold, the throughfall phosphorus concentration increased threefold, and the soil patches had a 3.96% higher pH, a 50% higher calcium concentration, and 11.88% less light. By altering the availability of soil resources and conditions, the presence of bromeliads partially shifted the available niche spaces for plant species and indirectly affected the structure of the seedling communities, decreasing their diversity, density, and biomass. For the first time, we showed that the presence of tank bromeliads in the canopy can create characteristic soil patches in the understory, affecting the structure of seedling communities via fertilization. Our results reveal a novel local driver of environmental heterogeneity, reinforcing and expanding the key role of tank bromeliads both in nutrient cycling and plant community structuring of Neotropical coastal sandy forests.
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