Seedling co-tolerance of multiple stressors in a disturbed tropical floodplain forest

Seedling co-tolerance of multiple stressors in a disturbed tropical floodplain forest

Differential stress tolerance among species is a central concept for understanding coexistence in diverse ecosystems. Although multiple co-occurring stressors are present in many ecosystems, relatively little is understood as to how communities are shaped by interacting stressors at multiple scales....

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Published in:Ecosphere (Washington, D.C) Vol. 4; no. 1; pp. art3 - 20
Main Authors: Lucas, Christine M, Bruna, Emilio M, Nascimento, Cristiane M. N
Format: Journal Article
Language:English
Published: Washington Ecological Society of America 01-01-2013
John Wiley & Sons, Inc
Subjects:
Climate change
Coexistence
Drought
Ecosystems
Environmental effects
Environmental stress
Flood damage
Flooding
Floodplains
Floods
Forests
Generalized linear models
Growth rate
Morphology
Plant biomass
plant strategy theory
Rain
resource allocation trade-offs
Seasons
seedling ecology
Seedlings
Species composition
Storm damage
Submergence
Survival
Tropical forests
várzea
wetland forests
Brazil
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Summary:Differential stress tolerance among species is a central concept for understanding coexistence in diverse ecosystems. Although multiple co-occurring stressors are present in many ecosystems, relatively little is understood as to how communities are shaped by interacting stressors at multiple scales. We use a regression design to test the effects of two environmental stress gradients, flooding and shade, as well as herbivore activity, mechanical damage, on first-year transplanted seedling survival and growth in twenty-one common garden plots in secondary Amazonian floodplain forests. Among ten woody species varying in flood and shade tolerance, half of the seedlings were clipped at 5 cm aboveground, removing ∼50% of plant biomass. Damage reduced seedling survival by ∼50% and aboveground biomass by 94% of undamaged seedlings. Despite declines in relative growth rates with increasing flood duration, the survival of most flood-tolerant species was unaffected by variation in prolonged submergence of 3-6 months. Meanwhile, low-flood-tolerant species displayed clear thresholds in survival of flood duration <150 d. The effects of all three stressors were largely independent, with the exception of two species whereby light availability interacted with flood duration to enhance seedling survival during prolonged floods and one species whereby flood duration interacted with damage. Trade-offs in stress tolerance among species were not apparent. Rather, damage, shade, and flood tolerance among species were all positively correlated, suggesting that combined stresses favor the persistence of a few highly stress-tolerant species-characterized by slow growth rates, high root:shoot ratios, and short stems-in this disturbed ecosystem. This study highlights the importance of dry season stressors (e.g., light availability, herbivore activity, and drought) as strong selective forces for the establishment and persistence of tropical floodplain communities. Furthermore, in an ecosystem where relatively little is known as to how seedlings persist in forest understories, we demonstrate how biotic and abiotic stressors ultimately shape woody species composition and richness.
Bibliography:Corresponding Editor: C. Kwit.
ISSN:2150-8925
2150-8925
DOI:10.1890/ES12-00287.1