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Species with greater seed mass are more tolerant of conspecific neighbours: a key driver of early survival and future abundances in a tropical forest
Edwin Lebrija-Trejos
,
Peter B. Reich
, Andres Hernández
, S. Joseph Wright
Forest Resources
Research output
:
Contribution to journal
›
Letter
›
peer-review
118
Scopus citations
Overview
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Dive into the research topics of 'Species with greater seed mass are more tolerant of conspecific neighbours: a key driver of early survival and future abundances in a tropical forest'. Together they form a unique fingerprint.
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Keyphrases
Community Structure
40%
Conspecific Negative Density Dependence
100%
Conspecific Neighbours
100%
Density Effect
20%
Density-dependent Interactions
20%
Early Survival
100%
First-year Survival
20%
Functional Traits
40%
Heterospecific
20%
Hierarchical Model
20%
Interspecific Variation
20%
Intraspecific
20%
Large Seed
40%
Neighbor Effects
20%
Niche Differentiation
20%
Niche Processes
20%
Novel Mechanism
20%
Plant Community
20%
Plant Life History
20%
Plant Regeneration
20%
Recruit Survival
20%
Regeneration Structure
20%
Regeneration Success
20%
Seed Mass
100%
Seed Size Variation
20%
Seeded Species
20%
Slow-growing
20%
Species Abundance
20%
Species Coexistence
20%
Strong Correlation
20%
Tropical Forest
100%
Agricultural and Biological Sciences
Density Dependence
100%
Functional Trait
40%
Interspecific Variation
20%
Life History
20%
Seeds
100%
Tropical Forest
100%